Ignore:
Timestamp:
20/12/17 17:14:41 (3 years ago)
Author:
mjuckes
Message:

01.00.19

File:
1 edited

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  • CMIP6dreq/trunk/dreqPy/docs/dreq.xml

    r1143 r1152  
    11<document xmlns="urn:w3id.org:cmip6.dreq.dreq:a" xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:pav="http://purl.org/pav/2.3" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:noNamespaceSchemaLocation="out/dreqSchema.xsd"> 
    22<prologue> 
    3 <dc:title>Draft CMIP6 Data Request [01.00.18]</dc:title> 
     3<dc:title>Draft CMIP6 Data Request [01.00.19]</dc:title> 
    44<dc:description>The CMIP6 Data Request will specify the variables requested for the CMIP6 archive, and the detail the experiments and time slices for which they are required.</dc:description> 
    55<dc:creator>Martin Juckes</dc:creator> 
    6 <dc:date>2017-11-17</dc:date> 
    7 <pav:version>01.00.18</pav:version> 
     6<dc:date>2017-12-17</dc:date> 
     7<pav:version>01.00.19</pav:version> 
    88</prologue> 
    99<main> 
     
    317317<item esid="f16f0c56-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f0c56-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip3']))" expt="PMIP-3" label="PmipPmipLmon02" mip="PMIP" nenmax="1" nexmax="-999" ny="1000" nymax="1000.0" preset="-1" rlid="efc086d4-5629-11e6-9079-ac72891c3257__00" tab="PMIP-Lmon-02" title="PMIP, PMIP-Lmon-02, PMIP-3" uid="940c2cf2-267c-11e7-8933-ac72891c3257"></item> 
    318318<item esid="f16fab98-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment dcppC-forecast-addPinatubo" expt="volc-pinatubo-ini" label="VolmipDynvarMonthlyB" mip="VolMIP" nenmax="1" nexmax="-999" ny="3" nymax="3.0" preset="-1" rlid="efc0bcc6-5629-11e6-9079-ac72891c3257__01" tab="DynVar-monthly-b" title="VolMIP, DynVar-monthly-b, volc-pinatubo-ini" uid="940e8e02-267c-11e7-8933-ac72891c3257"></item> 
     319<item esid="8709aaa8-51c3-11e7-9bc5-5404a60d96b5" esidComment="Experiment Aerchemmip3" expt="AerChemMIP-3" label="AerchemmipAermonthly3d" mip="AerChemMIP" nenmax="3" nexmax="-999" ny="123" nymax="41.0" preset="-1" rlid="97d52748-8344-11e6-959e-ac72891c3257__00" tab="AERmon-3d" title="AerChemMIP, AERmon-3d, AerChemMIP-3" uid="93f10b0c-267c-11e7-8933-ac72891c3257"></item> 
    319320<item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="DynvarDynvarMonthlyD" mip="DynVar" nenmax="-1" nexmax="-999" ny="40" nymax="40.0" preset="-1" rlid="efc0b906-5629-11e6-9079-ac72891c3257__00" tab="DynVar-monthly-d" title="DynVar, DynVar-monthly-d, abrupt-4xCO2" uid="93fb2c18-267c-11e7-8933-ac72891c3257"></item> 
    320321<item esid="f16e16de-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e16de-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Fafmip2']))" expt="FAFMIP-2" label="FafmipFafmipFafomon" mip="FAFMIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc091c4-5629-11e6-9079-ac72891c3257__00" tab="FAFMIP.fafOmon" title="FAFMIP, FAFMIP.fafOmon, FAFMIP-2" uid="93fd4ade-267c-11e7-8933-ac72891c3257"></item> 
     
    402403<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="PmipPmipPmipLclim" mip="PMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc0d684-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Lclim" title="PMIP, PMIP.PMIP-Lclim, esm-piControl" tslice="_slice_piControl200" uid="940a1548-267c-11e7-8933-ac72891c3257"></item> 
    403404<item esid="f16f6188-dd9e-11e6-b89b-ac72891c3257" expt="SSP126" label="ssp126" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07eaa8ec-26b9-11e7-9d3d-ac72891c3257" title="APECOSM.1c: ssp126" uid="07f9a0f4-26b9-11e7-9d3d-ac72891c3257"></item> 
     405<item esid="8709aaa8-51c3-11e7-9bc5-5404a60d96b5" esidComment="Experiment Aerchemmip3" expt="AerChemMIP-3" label="AerchemmipLmon" mip="AerChemMIP" nenmax="3" nexmax="-999" ny="123" nymax="41.0" preset="-1" rlid="ef12f23a-5629-11e6-9079-ac72891c3257__00" tab="Lmon" title="AerChemMIP, Lmon, AerChemMIP-3" uid="93f0e6d6-267c-11e7-8933-ac72891c3257"></item> 
    404406<item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="AerchemmipAerzonalVert" mip="AerChemMIP" nenmax="1" nexmax="-999" ny="36" nymax="36.0" preset="-1" rlid="032f597c-c5ef-11e6-9285-ac72891c3257__00" tab="aerzonal-vert" title="AerChemMIP, aerzonal-vert, amip" uid="93f17d94-267c-11e7-8933-ac72891c3257"></item> 
    405407<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="CfmipCfmipCfday2dnew" mip="CFMIP" nenmax="1" nexmax="-999" ny="140" nymax="140.0" preset="-1" rlid="efc07a54-5629-11e6-9079-ac72891c3257__00" tab="CFMIP-CFday2dNew" title="CFMIP, CFMIP-CFday2dNew, esm-piControl" tslice="_slice_piControl140" uid="93f4c12a-267c-11e7-8933-ac72891c3257"></item> 
     
    533535<item esid="f2feca08-26b8-11e7-8344-ac72891c3257" esidComment="('f2feca08-26b8-11e7-8344-ac72891c3257', 'list', ('ISMP6-4',))" expt="ISMP6-4" label="Ismip6Ismip6Iyrgre" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0b42e-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.IyrGre" title="ISMIP6, ISMIP6.IyrGre, ISMP6-4" uid="9403d3a4-267c-11e7-8933-ac72891c3257"></item> 
    534536<item esid="f16eec44-dd9e-11e6-b89b-ac72891c3257" expt="Lumip7" label="lumip7" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac8d6-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.2: lumip7" uid="07fb90bc-26b9-11e7-9d3d-ac72891c3257"></item> 
     537<item esid="8709a922-51c3-11e7-9bc5-5404a60d96b5" esidComment="Experiment Aerchemmip2" expt="AerChemMIP-2" label="AerchemmipAermonthly3d" mip="AerChemMIP" nenmax="7" nexmax="-999" ny="700" nymax="-1.0" preset="-1" rlid="97d52748-8344-11e6-959e-ac72891c3257__00" tab="AERmon-3d" title="AerChemMIP, AERmon-3d, AerChemMIP-2" uid="93f108aa-267c-11e7-8933-ac72891c3257"></item> 
    535538<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="DamipDamipAermonthly" mip="DAMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0f04c-5629-11e6-9079-ac72891c3257__00" tab="DAMIP-AERmon" title="DAMIP, DAMIP-AERmon, esm-piControl" uid="93f8e58e-267c-11e7-8933-ac72891c3257"></item> 
    536539<item esid="f16e77fa-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e77fa-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Ismip62']))" expt="ISMIP6-2" label="Ismip6Ismip6Omon" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0a7cc-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.Omon" title="ISMIP6, ISMIP6.Omon, ISMIP6-2" uid="9404cbc4-267c-11e7-8933-ac72891c3257"></item> 
     
    564567<item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" expt="amip" label="amip" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07eaa8ec-26b9-11e7-9d3d-ac72891c3257" title="APECOSM.1c: amip" uid="07f9ab80-26b9-11e7-9d3d-ac72891c3257"></item> 
    565568<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" expt="historical" label="historical" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea5176-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.4: historical" uid="07fb04f8-26b9-11e7-9d3d-ac72891c3257"></item> 
    566 <item esid="f16d2f3a-dd9e-11e6-b89b-ac72891c3257" expt="esmhistbgc" label="esmhistbgc" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac070-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.4: esmhistbgc" uid="07fb08f4-26b9-11e7-9d3d-ac72891c3257"></item> 
    567 <item esid="f16e62ce-dd9e-11e6-b89b-ac72891c3257" expt="Highresmip1" label="highresmip1" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea7156-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.3c: highresmip1" uid="07fc5790-26b9-11e7-9d3d-ac72891c3257"></item> 
    568 <item esid="f16da38e-dd9e-11e6-b89b-ac72891c3257" expt="Damip6" label="damip6" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9c378-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1: damip6" uid="07fcfdda-26b9-11e7-9d3d-ac72891c3257"></item> 
     569<item esid="f16e6e9a-dd9e-11e6-b89b-ac72891c3257" expt="Ismip61" label="ismip61" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07eae9f6-26b9-11e7-9d3d-ac72891c3257" title="DBEM.1c: ismip61" uid="07fcb140-26b9-11e7-9d3d-ac72891c3257"></item> 
    569570<item esid="GeoMIP" esidComment="('GeoMIP', 'mip', set(['GeoMIP']))" expt="GEOMIP" label="C4mipC4mipBasic" mip="C4MIP" nenmax="-1" nexmax="-1" ny="500" nymax="-1.0" preset="-1" rlid="efc0d8f0-5629-11e6-9079-ac72891c3257__00" tab="C4MIP-Basic" title="C4MIP, C4MIP-Basic, GEOMIP" uid="93f266c8-267c-11e7-8933-ac72891c3257"></item> 
    570571<item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="CmipSimipSeaicemon" mip="CMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc072ca-5629-11e6-9079-ac72891c3257__01" tab="SIMIP-seaicemon" title="CMIP, SIMIP-seaicemon, esm-hist" uid="93f6149e-267c-11e7-8933-ac72891c3257"></item> 
    571 <item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="CmipDayOth" mip="CMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__01" tab="day-oth" title="CMIP, day-oth, esm-hist-ext" uid="93f65666-267c-11e7-8933-ac72891c3257"></item> 
    572572<item esid="f16f5684-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment ssp585" expt="SSP585" label="CordexCxDay" mip="CORDEX" nenmax="1" nexmax="2" ny="172" nymax="86.0" preset="-1" rlid="0bb0caf0-fe9c-11e6-b43f-5404a60d96b5__00" tab="cx-day" title="CORDEX, cx-day, SSP585" uid="93f7ba2e-267c-11e7-8933-ac72891c3257"></item> 
    573573<item esid="HighResMIP" esidComment="('HighResMIP', 'mip', set(['HighResMIP']))" expt="HiResMIP" label="DynvarAmonSubset01" mip="DynVar" nenmax="-1" nexmax="1" ny="40" nymax="40.0" preset="-1" rlid="603bdb1e-5979-11e6-ac77-ac72891c3257__00" tab="Amon-subset-01" title="DynVar, Amon-subset-01, HiResMIP" uid="93fd0380-267c-11e7-8933-ac72891c3257"></item> 
    574574<item esid="f16e16de-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e16de-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Fafmip2']))" expt="FAFMIP-2" label="FafmipLimon" mip="FAFMIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="ef12f3ac-5629-11e6-9079-ac72891c3257__03" tab="LImon" title="FAFMIP, LImon, FAFMIP-2" uid="93fd28e2-267c-11e7-8933-ac72891c3257"></item> 
    575 <item esid="f2fed188-26b8-11e7-8344-ac72891c3257" esidComment="('f2fed188-26b8-11e7-8344-ac72891c3257', 'list', ('ISMP6-6',))" expt="ISMP6-6" label="Ismip6Ismip6Iyrant" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0fc0e-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.IyrAnt" title="ISMIP6, ISMIP6.IyrAnt, ISMP6-6" uid="94047890-267c-11e7-8933-ac72891c3257"></item> 
    576 <item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" expt="historical" label="historical" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e98bf6-26b9-11e7-9d3d-ac72891c3257" title="SMHI-FoUo.1c: historical" uid="07f85e24-26b9-11e7-9d3d-ac72891c3257"></item> 
    577 <item esid="f16f5ab2-dd9e-11e6-b89b-ac72891c3257" expt="SSP370" label="ssp370" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e9a3ac-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.3c: ssp370" uid="07fb70fa-26b9-11e7-9d3d-ac72891c3257"></item> 
    578 <item esid="f16e6e9a-dd9e-11e6-b89b-ac72891c3257" expt="Ismip61" label="ismip61" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07eae9f6-26b9-11e7-9d3d-ac72891c3257" title="DBEM.1c: ismip61" uid="07fcb140-26b9-11e7-9d3d-ac72891c3257"></item> 
    579575<item esid="f16e30e2-dd9e-11e6-b89b-ac72891c3257" expt="G1ext" label="g1ext" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ead452-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.2c: g1ext" uid="07fa841a-26b9-11e7-9d3d-ac72891c3257"></item> 
    580 <item esid="f343fe5c-26b8-11e7-8344-ac72891c3257" esidComment="ERROR: Experiment Damip1 Not Found" expt="DAMIP-1" label="DamipDamipEmmon" mip="DAMIP" nenmax="3" nexmax="-999" ny="300" nymax="-1.0" preset="-1" rlid="efc07928-5629-11e6-9079-ac72891c3257__00" tab="DAMIP-Emon" title="DAMIP, DAMIP-Emon, DAMIP-1" uid="93fa7d04-267c-11e7-8933-ac72891c3257"></item> 
    581 <item esid="VolMIP" esidComment="('VolMIP', 'mip', set(['VolMIP']))" expt="VolMIP" label="DynvarDynvarDailyC" mip="DynVar" nenmax="-1" nexmax="-1" ny="15" nymax="3.0" preset="-1" rlid="efc0754a-5629-11e6-9079-ac72891c3257__00" tab="DynVar-daily-c" title="DynVar, DynVar-daily-c, VolMIP" uid="93fbbafc-267c-11e7-8933-ac72891c3257"></item> 
    582576<item esid="f2ff0c98-26b8-11e7-8344-ac72891c3257" esidComment="('f2ff0c98-26b8-11e7-8344-ac72891c3257', 'list', ('SolarMIP',))" expt="SolarMIP" label="DynvarDynvarDyvrzg" mip="DynVar" nenmax="-1" nexmax="3" ny="300" nymax="-1.0" preset="-1" rlid="efc07cca-5629-11e6-9079-ac72891c3257__00" tab="DynVar-DYVRzg" title="DynVar, DynVar-DYVRzg, SolarMIP" uid="93fc6218-267c-11e7-8933-ac72891c3257"></item> 
    583577<item esid="f16e8682-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e8682-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Ismip63']))" expt="ISMIP6-3" label="Ismip6Ismip6Ifxant" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0c676-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.IfxAnt" title="ISMIP6, ISMIP6.IfxAnt, ISMIP6-3" uid="9404fcac-267c-11e7-8933-ac72891c3257"></item> 
    584 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="PmipPmipAero02" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="d0e5741a-1ba7-11e7-8b4b-5404a60d96b5__00" tab="PMIP-aero-02" title="PMIP, PMIP-aero-02, esm-hist" uid="940955d6-267c-11e7-8933-ac72891c3257"></item> 
    585578<item esid="f16bfe76-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2-bgc" expt="esm1pcbgc" label="PmipPmipAmon02" mip="PMIP" nenmax="1" nexmax="2" ny="200" nymax="-1.0" preset="-1" rlid="efc0a560-5629-11e6-9079-ac72891c3257__00" tab="PMIP-Amon-02" title="PMIP, PMIP-Amon-02, esm1pcbgc" uid="940b91de-267c-11e7-8933-ac72891c3257"></item> 
    586 <item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="SimipSimipSeaiceday" mip="SIMIP" nenmax="-1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0a2f4-5629-11e6-9079-ac72891c3257__00" tab="SIMIP.seaiceday" title="SIMIP, SIMIP.seaiceday, piControl" tslice="_slice_piControl100" uid="940d6b6c-267c-11e7-8933-ac72891c3257"></item> 
    587579<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical" expt="historical" label="SimipSimipSeaicemon" mip="SIMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc072ca-5629-11e6-9079-ac72891c3257__09" tab="SIMIP.seaicemon" title="SIMIP, SIMIP.seaicemon, historical" uid="940d952e-267c-11e7-8933-ac72891c3257"></item> 
    588580<item esid="f16f8b72-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f8b72-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['volc-long']))" expt="volc-long" label="VolmipLimon" mip="VolMIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="ef12f3ac-5629-11e6-9079-ac72891c3257__09" tab="LImon" title="VolMIP, LImon, volc-long" uid="940db93c-267c-11e7-8933-ac72891c3257"></item> 
    589 <item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" expt="amip" label="amip" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea41ea-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.3: amip" uid="07fa2e3e-26b9-11e7-9d3d-ac72891c3257"></item> 
    590 <item esid="f16e220a-dd9e-11e6-b89b-ac72891c3257" expt="Gmmip2" label="gmmip2" mip="VIACSAB" nenmax="-1" ny="160" nymax="1.0" preset="-1" rlid="07ea7552-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.3b: gmmip2" tslice="_slice_cfOff" uid="07fc448a-26b9-11e7-9d3d-ac72891c3257"></item> 
    591 <item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="CfmipCfmipOmon3d" mip="CFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc16608-5629-11e6-9079-ac72891c3257__00" tab="CFMIP-Omon-3d" title="CFMIP, CFMIP-Omon-3d, historical-ext" uid="93f42256-267c-11e7-8933-ac72891c3257"></item> 
    592 <item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical" expt="historical" label="CmipOyr" mip="CMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="316ca362-b97e-11e6-a189-5404a60d96b5__01" tab="Oyr" title="CMIP, Oyr, historical" uid="93f6cdf8-267c-11e7-8933-ac72891c3257"></item> 
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    594 <item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="DynvarDynvarMonthlyA" mip="DynVar" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0ba3c-5629-11e6-9079-ac72891c3257__00" tab="DynVar-monthly-a" title="DynVar, DynVar-monthly-a, amip" uid="93fb51de-267c-11e7-8933-ac72891c3257"></item> 
    595 <item esid="f344bcfc-26b8-11e7-8344-ac72891c3257" esidComment="ERROR: Experiment AerChemMIP Not Found" expt="AeroChemMIP" label="DynvarDynvarDailyA" mip="DynVar" nenmax="-1" nexmax="6" ny="240" nymax="40.0" preset="-1" rlid="efc077e8-5629-11e6-9079-ac72891c3257__00" tab="DynVar-daily-a" title="DynVar, DynVar-daily-a, AeroChemMIP" uid="93fcae62-267c-11e7-8933-ac72891c3257"></item> 
    596582<item esid="f16e62ce-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e62ce-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Highresmip1']))" expt="HighResMIP-1" label="HighresmipHighresmip1hrenergy" mip="HighResMIP" nenmax="1" nexmax="-999" ny="0" nymax="0.1" preset="-1" rlid="efc0ea3e-5629-11e6-9079-ac72891c3257__00" tab="HighResMIP-1hrEnergy" title="HighResMIP, HighResMIP-1hrEnergy, HighResMIP-1" uid="940014c6-267c-11e7-8933-ac72891c3257"></item> 
    597 <item esid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2" expt="1pctCO2" label="PmipPmipPmip6hr" mip="PMIP" nenmax="1" nexmax="-999" ny="20" nymax="20.0" preset="-1" rlid="efc0f2b8-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-6hr" title="PMIP, PMIP.PMIP-6hr, 1pctCO2" uid="94084394-267c-11e7-8933-ac72891c3257"></item> 
    598583<item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="PmipPmipLimon" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0d544-5629-11e6-9079-ac72891c3257__00" tab="PMIP.LImon" title="PMIP, PMIP.LImon, abrupt-4xCO2" uid="9409839e-267c-11e7-8933-ac72891c3257"></item> 
    599 <item esid="f16f03aa-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f03aa-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip1']))" expt="PMIP-1" label="PmipPmipAmon" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc08328-5629-11e6-9079-ac72891c3257__00" tab="PMIP.Amon" title="PMIP, PMIP.Amon, PMIP-1" uid="940bb6aa-267c-11e7-8933-ac72891c3257"></item> 
    600 <item esid="f16f0af8-dd9e-11e6-b89b-ac72891c3257" expt="past1000" label="past1000" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9364c-26b9-11e7-9d3d-ac72891c3257" title="SMHI-FoUo.3: past1000" uid="07f8321e-26b9-11e7-9d3d-ac72891c3257"></item> 
    601584<item esid="f16ee168-dd9e-11e6-b89b-ac72891c3257" expt="Lumip4" label="lumip4" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e9a3ac-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.3c: lumip4" uid="07fb677c-26b9-11e7-9d3d-ac72891c3257"></item> 
    602 <item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="CfmipCfmon3dstd" mip="CFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc17d96-5629-11e6-9079-ac72891c3257__00" tab="CFmon-3dstd" title="CFMIP, CFmon-3dstd, abrupt-4xCO2" uid="93f4b400-267c-11e7-8933-ac72891c3257"></item> 
    603 <item esid="f16d404c-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d404c-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Cfmip1']))" expt="CFMIP-1" label="CfmipCfmipCfday2dnew" mip="CFMIP" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc07a54-5629-11e6-9079-ac72891c3257__00" tab="CFMIP-CFday2dNew" title="CFMIP, CFMIP-CFday2dNew, CFMIP-1" uid="93f4d8cc-267c-11e7-8933-ac72891c3257"></item> 
    604585<item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="FafmipFafmipFafoyr" mip="FAFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc07176-5629-11e6-9079-ac72891c3257__00" tab="FAFMIP.fafOyr" title="FAFMIP, FAFMIP.fafOyr, abrupt-4xCO2" uid="93fd9a7a-267c-11e7-8933-ac72891c3257"></item> 
    605586<item esid="f2feca08-26b8-11e7-8344-ac72891c3257" esidComment="('f2feca08-26b8-11e7-8344-ac72891c3257', 'list', ('ISMP6-4',))" expt="ISMP6-4" label="Ismip6Ismip6Imongre" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc09b88-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.ImonGre" title="ISMIP6, ISMIP6.ImonGre, ISMP6-4" uid="94049ea6-267c-11e7-8933-ac72891c3257"></item> 
    606 <item esid="f16d1d60-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2-rad" expt="esm1pcrad" label="PmipPmipOyr" mip="PMIP" nenmax="1" nexmax="2" ny="200" nymax="-1.0" preset="-1" rlid="efc0845e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.Oyr" title="PMIP, PMIP.Oyr, esm1pcrad" uid="940a0ea4-267c-11e7-8933-ac72891c3257"></item> 
    607 <item esid="8709a922-51c3-11e7-9bc5-5404a60d96b5" esidComment="AerChemMIP group Aerchemmip2" expt="AerChemMIP-2" label="AerchemmipLmon" mip="AerChemMIP" nenmax="7" nexmax="-999" ny="700" nymax="-1.0" preset="-1" rlid="ef12f23a-5629-11e6-9079-ac72891c3257__00" tab="Lmon" title="AerChemMIP, Lmon, AerChemMIP-2" uid="93f0e474-267c-11e7-8933-ac72891c3257"></item> 
    608587<item esid="f16f5ab2-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment ssp370" expt="SSP370" label="AerchemmipCfmon" mip="AerChemMIP" nenmax="3" nexmax="1" ny="123" nymax="41.0" preset="-1" rlid="ef12e39e-5629-11e6-9079-ac72891c3257__00" tab="CFmon" title="AerChemMIP, CFmon, SSP370" treset="1" uid="93f13b2c-267c-11e7-8933-ac72891c3257"></item> 
    609 <item esid="f16d72d8-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d72d8-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Cfmip4']))" expt="CFMIP-4" label="CfmipDaySs" mip="CFMIP" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="26d3ae3c-7c16-11e6-8a5b-ac72891c3257__00" tab="day-ss" title="CFMIP, day-ss, CFMIP-4" uid="93f3c144-267c-11e7-8933-ac72891c3257"></item> 
    610 <item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="CfmipCfmipFx" mip="CFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="5c72dd92-a277-11e6-bfbb-ac72891c3257__00" tab="CFMIP.fx" title="CFMIP, CFMIP.fx, esm-hist-ext" uid="93f44c22-267c-11e7-8933-ac72891c3257"></item> 
    611 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="DamipDamipOmonP2" mip="DAMIP" nenmax="3" nexmax="-999" ny="480" nymax="-1.0" preset="2" rlid="efc0c068-5629-11e6-9079-ac72891c3257__00" tab="DAMIP-Omon-p2" title="DAMIP, DAMIP-Omon-p2, esm-hist" uid="93f95f8c-267c-11e7-8933-ac72891c3257"></item> 
    612588<item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="DynvarDynvarDailyB" mip="DynVar" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc07680-5629-11e6-9079-ac72891c3257__00" tab="DynVar-daily-b" title="DynVar, DynVar-daily-b, amip" uid="93fbf274-267c-11e7-8933-ac72891c3257"></item> 
    613 <item esid="f16e66d4-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e66d4-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Highresmip2']))" expt="HighResMIP-2" label="HighresmipDaySs" mip="HighResMIP" nenmax="2" nexmax="-999" ny="200" nymax="100.0" preset="-1" rlid="26d3ae3c-7c16-11e6-8a5b-ac72891c3257__03" tab="day-ss" title="HighResMIP, day-ss, HighResMIP-2" uid="9401c028-267c-11e7-8933-ac72891c3257"></item> 
    614 <item esid="ScenarioMIP" esidComment="('ScenarioMIP', 'mip', set(['ScenarioMIP']))" expt="ScenarioMIP-ALL" label="LumipAmon" mip="LUMIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__08" tab="Amon" title="LUMIP, Amon, ScenarioMIP-ALL" uid="94065c00-267c-11e7-8933-ac72891c3257"></item> 
    615 <item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="PmipPmipPmip6hr" mip="PMIP" nenmax="1" nexmax="-999" ny="20" nymax="20.0" preset="-1" rlid="efc0f2b8-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-6hr" title="PMIP, PMIP.PMIP-6hr, amip" uid="94083d18-267c-11e7-8933-ac72891c3257"></item> 
    616589<item esid="f16f03aa-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f03aa-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip1']))" expt="PMIP-1" label="PmipFx" mip="PMIP" nenmax="1" nexmax="-999" ny="0" nymax="-999.0" preset="-1" rlid="ef12e6f0-5629-11e6-9079-ac72891c3257__05" tab="fx" title="PMIP, fx, PMIP-1" uid="9409cdcc-267c-11e7-8933-ac72891c3257"></item> 
     590<item esid="f16d5672-dd9e-11e6-b89b-ac72891c3257" expt="Cfmip3" label="cfmip3" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea1512-26b9-11e7-9d3d-ac72891c3257" title="Madingley.3: cfmip3" uid="07f7fdee-26b9-11e7-9d3d-ac72891c3257"></item> 
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     592<item esid="f16dae9c-dd9e-11e6-b89b-ac72891c3257" expt="Damip7" label="damip7" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea2d4a-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1c: damip7" uid="07fd39e4-26b9-11e7-9d3d-ac72891c3257"></item> 
    617593<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="C4mipC4mipAtm" mip="C4MIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="073f5734-c76f-11e6-b159-5404a60d96b5__00" tab="C4MIP-Atm" title="C4MIP, C4MIP-Atm, esm-piControl" uid="93f3060a-267c-11e7-8933-ac72891c3257"></item> 
    618594<item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="CfmipCfday3d" mip="CFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc14b32-5629-11e6-9079-ac72891c3257__00" tab="CFday-3d" title="CFMIP, CFday-3d, amip" uid="93f45c26-267c-11e7-8933-ac72891c3257"></item> 
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    620596<item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="DamipAermonthly3d" mip="DAMIP" nenmax="3" nexmax="-999" ny="18" nymax="6.0" preset="-1" rlid="97d52748-8344-11e6-959e-ac72891c3257__01" tab="AERmon-3d" title="DAMIP, AERmon-3d, historical-ext" tslice="_slice_DAMIP61ext" uid="93f93d40-267c-11e7-8933-ac72891c3257"></item> 
    621 <item esid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2" expt="1pctCO2" label="DamipAmon" mip="DAMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__03" tab="Amon" title="DAMIP, Amon, 1pctCO2" uid="93fa97bc-267c-11e7-8933-ac72891c3257"></item> 
    622 <item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="DynvarDynvarMonthlyD" mip="DynVar" nenmax="-1" nexmax="-999" ny="40" nymax="40.0" preset="-1" rlid="efc0b906-5629-11e6-9079-ac72891c3257__00" tab="DynVar-monthly-d" title="DynVar, DynVar-monthly-d, esm-piControl" tslice="_slice_piControl040" uid="93fb24ac-267c-11e7-8933-ac72891c3257"></item> 
    623 <item esid="f16e1e04-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e1e04-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Gmmip1']))" expt="GMMIP-1" label="GmmipDayOth" mip="GMMIP" nenmax="1" nexmax="-999" ny="144" nymax="144.0" preset="-1" rlid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" tab="day-oth" title="GMMIP, day-oth, GMMIP-1" uid="93fdcc20-267c-11e7-8933-ac72891c3257"></item> 
    624 <item esid="f16e66d4-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e66d4-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Highresmip2']))" expt="HighResMIP-2" label="HighresmipCfday3d" mip="HighResMIP" nenmax="2" nexmax="-999" ny="200" nymax="100.0" preset="-1" rlid="efc14b32-5629-11e6-9079-ac72891c3257__01" tab="CFday-3d" title="HighResMIP, CFday-3d, HighResMIP-2" uid="94029462-267c-11e7-8933-ac72891c3257"></item> 
    625 <item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="Ismip6Ismip6Omon" mip="ISMIP6" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0a7cc-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.Omon" title="ISMIP6, ISMIP6.Omon, esm-hist-ext" uid="9404c606-267c-11e7-8933-ac72891c3257"></item> 
    626 <item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="PmipPmipDay" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0fef2-5629-11e6-9079-ac72891c3257__00" tab="PMIP.day" title="PMIP, PMIP.day, amip" uid="94087404-267c-11e7-8933-ac72891c3257"></item> 
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    630 <item esid="f16f792a-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP3" label="scenariomip3" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e98408-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1c: scenariomip3" uid="07f8af46-26b9-11e7-9d3d-ac72891c3257"></item> 
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    632 <item esid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" expt="1pctCO2" label="1pctco2" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9c378-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1: 1pctco2" uid="07fce6a6-26b9-11e7-9d3d-ac72891c3257"></item> 
    633 <item esid="f16dae9c-dd9e-11e6-b89b-ac72891c3257" expt="Damip7" label="damip7" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea2d4a-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1c: damip7" uid="07fd39e4-26b9-11e7-9d3d-ac72891c3257"></item> 
    634 <item esid="f16d1d60-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2-rad" expt="esm1pcrad" label="PmipPmipPmipAeroclim" mip="PMIP" nenmax="1" nexmax="2" ny="200" nymax="-1.0" preset="-1" rlid="efc0908e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-aeroclim" title="PMIP, PMIP.PMIP-aeroclim, esm1pcrad" uid="94082292-267c-11e7-8933-ac72891c3257"></item> 
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    636 <item esid="f16f0c56-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f0c56-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip3']))" expt="PMIP-3" label="PmipPmipPmipOmon" mip="PMIP" nenmax="1" nexmax="-999" ny="1000" nymax="1000.0" preset="-1" rlid="efc0e098-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Omon" title="PMIP, PMIP.PMIP-Omon, PMIP-3" uid="940cc766-267c-11e7-8933-ac72891c3257"></item> 
    637 <item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical" expt="historical" label="AerchemmipOyr" mip="AerChemMIP" nenmax="3" nexmax="-999" ny="495" nymax="165.0" preset="-1" rlid="316ca362-b97e-11e6-a189-5404a60d96b5__00" tab="Oyr" title="AerChemMIP, Oyr, historical" uid="93f19eaa-267c-11e7-8933-ac72891c3257"></item> 
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    639 <item esid="f16d72d8-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d72d8-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Cfmip4']))" expt="CFMIP-4" label="CfmipCfmipOmon3d" mip="CFMIP" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc16608-5629-11e6-9079-ac72891c3257__00" tab="CFMIP-Omon-3d" title="CFMIP, CFMIP-Omon-3d, CFMIP-4" uid="93f43066-267c-11e7-8933-ac72891c3257"></item> 
    640 <item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="CordexCxDay" mip="CORDEX" nenmax="1" nexmax="-999" ny="30" nymax="30.0" preset="-1" rlid="0bb0caf0-fe9c-11e6-b43f-5404a60d96b5__00" tab="cx-day" title="CORDEX, cx-day, esm-piControl" tslice="_slice_piControl030" uid="93f7aad4-267c-11e7-8933-ac72891c3257"></item> 
    641 <item esid="f16d8c96-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d8c96-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Damip2']))" expt="DAMIP-2" label="DamipLimon" mip="DAMIP" nenmax="3" nexmax="-999" ny="300" nymax="-1.0" preset="-1" rlid="ef12f3ac-5629-11e6-9079-ac72891c3257__02" tab="LImon" title="DAMIP, LImon, DAMIP-2" uid="93f88166-267c-11e7-8933-ac72891c3257"></item> 
    642 <item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="DynvarAmonSubset02" mip="DynVar" nenmax="-1" nexmax="-999" ny="5" nymax="5.0" preset="-1" rlid="603bdf74-5979-11e6-ac77-ac72891c3257__00" tab="Amon-subset-02" title="DynVar, Amon-subset-02, historical-ext" tslice="_slice_histext" uid="93fbdab4-267c-11e7-8933-ac72891c3257"></item> 
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    644 <item esid="f16e3790-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e3790-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Geomip2']))" expt="GeoMIP-2" label="GeomipSimipSeaicemon" mip="GeoMIP" nenmax="2" nexmax="-999" ny="486" nymax="243.0" preset="-1" rlid="efc072ca-5629-11e6-9079-ac72891c3257__05" tab="SIMIP-seaicemon" title="GeoMIP, SIMIP-seaicemon, GeoMIP-2" uid="93feb2f2-267c-11e7-8933-ac72891c3257"></item> 
    645 <item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="HighresmipHighresmip6hrplevextrdr" mip="HighResMIP" nenmax="2" nexmax="-999" ny="320" nymax="160.0" preset="-1" rlid="efc09cbe-5629-11e6-9079-ac72891c3257__00" tab="HighResMIP-6hrPlevExtrDr" title="HighResMIP, HighResMIP-6hrPlevExtrDr, historical-ext" uid="9402e80e-267c-11e7-8933-ac72891c3257"></item> 
    646602<item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="Highresmip6hrplev" mip="HighResMIP" nenmax="2" nexmax="-999" ny="320" nymax="160.0" preset="-1" rlid="ef12eca4-5629-11e6-9079-ac72891c3257__02" tab="6hrPlev" title="HighResMIP, 6hrPlev, esm-hist" uid="940303b6-267c-11e7-8933-ac72891c3257"></item> 
    647 <item esid="f16f57e2-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP1" label="scenariomip1" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e94b3c-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1: scenariomip1" uid="07f88f3e-26b9-11e7-9d3d-ac72891c3257"></item> 
    648 <item esid="f16f6188-dd9e-11e6-b89b-ac72891c3257" expt="SSP126" label="ssp126" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac4ee-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.3: ssp126" uid="07fb4a6c-26b9-11e7-9d3d-ac72891c3257"></item> 
    649 <item esid="f16e8682-dd9e-11e6-b89b-ac72891c3257" expt="Ismip63" label="ismip63" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9c378-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1: ismip63" uid="07fceae8-26b9-11e7-9d3d-ac72891c3257"></item> 
    650 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="LumipOclim" mip="LUMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="ef12f514-5629-11e6-9079-ac72891c3257__03" tab="Oclim" title="LUMIP, Oclim, esm-hist" uid="9405e8b0-267c-11e7-8933-ac72891c3257"></item> 
    651 <item esid="f16efa68-dd9e-11e6-b89b-ac72891c3257" esidComment="OmipA group" expt="OmipA" label="OmipOdec" mip="OMIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="9d64b154-ba14-11e6-a189-5404a60d96b5__01" tab="Odec" title="OMIP, Odec, OmipA" uid="9407600a-267c-11e7-8933-ac72891c3257"></item> 
    652 <item esid="f16f080a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f080a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip2']))" expt="PMIP-2" label="PmipPmipSimon" mip="PMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc0f51a-5629-11e6-9079-ac72891c3257__00" tab="PMIP-SImon" title="PMIP, PMIP-SImon, PMIP-2" uid="9408f01e-267c-11e7-8933-ac72891c3257"></item> 
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    655 <item esid="f16d9880-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d9880-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Damip4']))" expt="DAMIP-4" label="DamipCfmonSim" mip="DAMIP" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc1777e-5629-11e6-9079-ac72891c3257__01" tab="CFmon-sim" title="DAMIP, CFmon-sim, DAMIP-4" uid="93fa073e-267c-11e7-8933-ac72891c3257"></item> 
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    670 <item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="HighresmipSimipSeaicemon" mip="HighResMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc072ca-5629-11e6-9079-ac72891c3257__06" tab="SIMIP-seaicemon" title="HighResMIP, SIMIP-seaicemon, piControl" tslice="_slice_piControl200" uid="94003906-267c-11e7-8933-ac72891c3257"></item> 
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    672 <item esid="f16e6e9a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e6e9a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Ismip61']))" expt="ISMIP6-1" label="Ismip6Ismip6Amon" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0cdc4-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.Amon" title="ISMIP6, ISMIP6.Amon, ISMIP6-1" uid="940383f4-267c-11e7-8933-ac72891c3257"></item> 
    673 <item esid="f16cd3fa-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16cd3fa-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['C4mip2']))" expt="C4MIP-2" label="LumipC4mipBasic" mip="LUMIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0d8f0-5629-11e6-9079-ac72891c3257__01" tab="C4MIP-Basic" title="LUMIP, C4MIP-Basic, C4MIP-2" uid="9406c438-267c-11e7-8933-ac72891c3257"></item> 
    674 <item esid="f16dcb34-dd9e-11e6-b89b-ac72891c3257" expt="DcppB" label="dcppb" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea41ea-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.3: dcppb" uid="07fa1f2a-26b9-11e7-9d3d-ac72891c3257"></item> 
    675616<item esid="f16d8c96-dd9e-11e6-b89b-ac72891c3257" expt="Damip2" label="damip2" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea3524-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.1c: damip2" uid="07fac8c6-26b9-11e7-9d3d-ac72891c3257"></item> 
    676 <item esid="f16da38e-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16da38e-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Damip6']))" expt="DAMIP-6" label="DamipLimon" mip="DAMIP" nenmax="3" nexmax="-999" ny="300" nymax="-1.0" preset="-1" rlid="ef12f3ac-5629-11e6-9079-ac72891c3257__02" tab="LImon" title="DAMIP, LImon, DAMIP-6" uid="93f88abc-267c-11e7-8933-ac72891c3257"></item> 
    677617<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical" expt="historical" label="DynvarDynvarMonthlyD" mip="DynVar" nenmax="-1" nexmax="-999" ny="40" nymax="40.0" preset="-1" rlid="efc0b906-5629-11e6-9079-ac72891c3257__00" tab="DynVar-monthly-d" title="DynVar, DynVar-monthly-d, historical" tslice="_slice_hist65" uid="93fb3212-267c-11e7-8933-ac72891c3257"></item> 
    678 <item esid="f2ff0752-26b8-11e7-8344-ac72891c3257" esidComment="('f2ff0752-26b8-11e7-8344-ac72891c3257', 'list', ('ScenarioMIP-3',))" expt="ScenarioMIP-3" label="GeomipLimon" mip="GeoMIP" nenmax="1" nexmax="1" ny="86" nymax="86.0" preset="-1" rlid="ef12f3ac-5629-11e6-9079-ac72891c3257__05" tab="LImon" title="GeoMIP, LImon, ScenarioMIP-3" uid="93ff63a0-267c-11e7-8933-ac72891c3257"></item> 
    679618<item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="HighresmipDayOth" mip="HighResMIP" nenmax="2" nexmax="-999" ny="320" nymax="160.0" preset="-1" rlid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__04" tab="day-oth" title="HighResMIP, day-oth, esm-hist-ext" uid="940097a2-267c-11e7-8933-ac72891c3257"></item> 
    680619<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical" expt="historical" label="HighresmipHighresmip6hrplevintense" mip="HighResMIP" nenmax="2" nexmax="-999" ny="320" nymax="160.0" preset="-1" rlid="efc0d1a2-5629-11e6-9079-ac72891c3257__00" tab="HighResMIP-6hrPlevIntense" title="HighResMIP, HighResMIP-6hrPlevIntense, historical" uid="94015818-267c-11e7-8933-ac72891c3257"></item> 
     
    687626<item esid="f16d5672-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d5672-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Cfmip3']))" expt="CFMIP-3" label="CfmipCfmon3dstd" mip="CFMIP" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc17d96-5629-11e6-9079-ac72891c3257__00" tab="CFmon-3dstd" title="CFMIP, CFmon-3dstd, CFMIP-3" uid="93f4bb12-267c-11e7-8933-ac72891c3257"></item> 
    688627<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="Cmip3hr" mip="CMIP" nenmax="-1" nexmax="-999" ny="30" nymax="30.0" preset="-1" rlid="ef12df16-5629-11e6-9079-ac72891c3257__00" tab="3hr" title="CMIP, 3hr, piControl" tslice="_slice_piControl030" uid="93f7319e-267c-11e7-8933-ac72891c3257"></item> 
    689 <item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="FafmipAmon" mip="FAFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__04" tab="Amon" title="FAFMIP, Amon, abrupt-4xCO2" uid="93fd0fba-267c-11e7-8933-ac72891c3257"></item> 
    690 <item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical" expt="historical" label="GeomipDaySubset01" mip="GeoMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="603be802-5979-11e6-ac77-ac72891c3257__00" tab="day-subset-01" title="GeoMIP, day-subset-01, historical" uid="93ff21d8-267c-11e7-8933-ac72891c3257"></item> 
    691628<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="HighresmipOmonOth" mip="HighResMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc143a8-5629-11e6-9079-ac72891c3257__01" tab="Omon-oth" title="HighResMIP, Omon-oth, esm-piControl" tslice="_slice_piControl200" uid="94017398-267c-11e7-8933-ac72891c3257"></item> 
    692 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="LumipLedaySubset" mip="LUMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="38c009cc-61f6-11e6-835f-ac72891c3257__00" tab="LEday-subset" title="LUMIP, LEday-subset, esm-hist" uid="9405cb3c-267c-11e7-8933-ac72891c3257"></item> 
    693 <item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="LumipLimon" mip="LUMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="ef12f3ac-5629-11e6-9079-ac72891c3257__08" tab="LImon" title="LUMIP, LImon, historical-ext" uid="9406034a-267c-11e7-8933-ac72891c3257"></item> 
    694 <item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="OmipOyr" mip="OMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="316ca362-b97e-11e6-a189-5404a60d96b5__04" tab="Oyr" title="OMIP, Oyr, abrupt-4xCO2" uid="9406f282-267c-11e7-8933-ac72891c3257"></item> 
    695 <item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="PmipPmipDay02" mip="PMIP" nenmax="1" nexmax="-999" ny="20" nymax="20.0" preset="-1" rlid="efc09f48-5629-11e6-9079-ac72891c3257__00" tab="PMIP-day-02" title="PMIP, PMIP-day-02, esm-piControl" tslice="_slice_piControl020" uid="940bd464-267c-11e7-8933-ac72891c3257"></item> 
    696 <item esid="f16f792a-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP3" label="scenariomip3" mip="VIACSAB" nenmax="1" ny="160" nymax="40.0" preset="-1" rlid="07eae5f0-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1d: scenariomip3" uid="07f94b4a-26b9-11e7-9d3d-ac72891c3257"></item> 
    697 <item esid="f16e3a6a-dd9e-11e6-b89b-ac72891c3257" expt="G6solar" label="g6solar" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07eab0da-26b9-11e7-9d3d-ac72891c3257" title="Atlantis.3c: g6solar" uid="07fa0bde-26b9-11e7-9d3d-ac72891c3257"></item> 
    698 <item esid="f16e3a6a-dd9e-11e6-b89b-ac72891c3257" expt="G6solar" label="g6solar" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9c76a-26b9-11e7-9d3d-ac72891c3257" title="Atlantis.3: g6solar" uid="07fa01de-26b9-11e7-9d3d-ac72891c3257"></item> 
     629<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" expt="historical" label="historical" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e98408-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1c: historical" uid="07f8d1ec-26b9-11e7-9d3d-ac72891c3257"></item> 
    699630<item esid="f16cd3fa-dd9e-11e6-b89b-ac72891c3257" expt="C4mip2" label="c4mip2" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea499c-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.1: c4mip2" uid="07faa86e-26b9-11e7-9d3d-ac72891c3257"></item> 
    700 <item esid="f16e3a6a-dd9e-11e6-b89b-ac72891c3257" expt="G6solar" label="g6solar" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9c378-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1: g6solar" uid="07fd1428-26b9-11e7-9d3d-ac72891c3257"></item> 
    701631<item esid="f16d1d60-dd9e-11e6-b89b-ac72891c3257" expt="esm1pcrad" label="esm1pcrad" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea2d4a-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1c: esm1pcrad" uid="07fd2788-26b9-11e7-9d3d-ac72891c3257"></item> 
    702632<item esid="f16fd3b6-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl-spinup" expt="piControl-spinup" label="CmipAmon" mip="CMIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__02" tab="Amon" title="CMIP, Amon, piControl-spinup" uid="93f596cc-267c-11e7-8933-ac72891c3257"></item> 
    703 <item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="CmipEsmval3hr" mip="CMIP" nenmax="-1" nexmax="-999" ny="30" nymax="30.0" preset="-1" rlid="b8257ed0-c16a-11e6-bb6a-ac72891c3257__00" tab="esmval-3hr" title="CMIP, esmval-3hr, esm-piControl" tslice="_slice_piControl030" uid="93f5eea6-267c-11e7-8933-ac72891c3257"></item> 
    704 <item esid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2" expt="1pctCO2" label="DynvarDynvarDailyB" mip="DynVar" nenmax="-1" nexmax="-999" ny="40" nymax="40.0" preset="-1" rlid="efc07680-5629-11e6-9079-ac72891c3257__00" tab="DynVar-daily-b" title="DynVar, DynVar-daily-b, 1pctCO2" uid="93fbf864-267c-11e7-8933-ac72891c3257"></item> 
    705633<item esid="f2ff0752-26b8-11e7-8344-ac72891c3257" esidComment="('f2ff0752-26b8-11e7-8344-ac72891c3257', 'list', ('ScenarioMIP-3',))" expt="ScenarioMIP-3" label="GeomipGeomipAerogeo" mip="GeoMIP" nenmax="1" nexmax="1" ny="86" nymax="86.0" preset="-1" rlid="efc0e304-5629-11e6-9079-ac72891c3257__00" tab="GeoMIP.aeroGeo" title="GeoMIP, GeoMIP.aeroGeo, ScenarioMIP-3" uid="93ffe0dc-267c-11e7-8933-ac72891c3257"></item> 
    706 <item esid="f16e8682-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e8682-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Ismip63']))" expt="ISMIP6-3" label="Ismip6Ismip6Ifxgre" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0ecaa-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.IfxGre" title="ISMIP6, ISMIP6.IfxGre, ISMIP6-3" uid="9403533e-267c-11e7-8933-ac72891c3257"></item> 
    707 <item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="Ismip6Ismip6Omonnew" mip="ISMIP6" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0e7d2-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6-OmonNew" title="ISMIP6, ISMIP6-OmonNew, esm-piControl" uid="9403e3d0-267c-11e7-8933-ac72891c3257"></item> 
    708634<item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="PmipPmipPmipLiclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0c8e2-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-LIclim" title="PMIP, PMIP.PMIP-LIclim, abrupt-4xCO2" uid="940ac3b2-267c-11e7-8933-ac72891c3257"></item> 
    709 <item esid="f16f65f2-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP2" label="scenariomip2" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e98408-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1c: scenariomip2" uid="07f8a370-26b9-11e7-9d3d-ac72891c3257"></item> 
    710 <item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" expt="historical" label="historical" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e98408-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1c: historical" uid="07f8d1ec-26b9-11e7-9d3d-ac72891c3257"></item> 
    711 <item esid="f16ee168-dd9e-11e6-b89b-ac72891c3257" expt="Lumip4" label="lumip4" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac8d6-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.2: lumip4" uid="07fb8ed2-26b9-11e7-9d3d-ac72891c3257"></item> 
    712635<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="VolmipDaySs" mip="VolMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="26d3ae3c-7c16-11e6-8a5b-ac72891c3257__04" tab="day-ss" title="VolMIP, day-ss, piControl" tslice="_slice_piControl200" uid="940e3b0a-267c-11e7-8933-ac72891c3257"></item> 
    713 <item esid="f16ee866-dd9e-11e6-b89b-ac72891c3257" expt="Lumip5" label="lumip5" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea5176-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.4: lumip5" uid="07fafaf8-26b9-11e7-9d3d-ac72891c3257"></item> 
    714 <item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="CfmipCfmon2dmod" mip="CFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc17512-5629-11e6-9079-ac72891c3257__00" tab="CFmon-2dmod" title="CFMIP, CFmon-2dmod, amip" uid="93f501e4-267c-11e7-8933-ac72891c3257"></item> 
    715 <item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="CordexCx6hr" mip="CORDEX" nenmax="1" nexmax="-999" ny="30" nymax="30.0" preset="-1" rlid="eb99e9cc-0008-11e7-b43f-5404a60d96b5__00" tab="cx-6hr" title="CORDEX, cx-6hr, piControl" tslice="_slice_piControl030" uid="93f7bff6-267c-11e7-8933-ac72891c3257"></item> 
    716636<item esid="f16d9c7c-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d9c7c-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Damip5']))" expt="DAMIP-5" label="DamipCfmon3dstd" mip="DAMIP" nenmax="3" nexmax="-999" ny="126" nymax="42.0" preset="-1" rlid="efc17d96-5629-11e6-9079-ac72891c3257__01" tab="CFmon-3dstd" title="DAMIP, CFmon-3dstd, DAMIP-5" tslice="_slice_DAMIP42" uid="93f864a6-267c-11e7-8933-ac72891c3257"></item> 
    717637<item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="GeomipSimipSeaicemon" mip="GeoMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc072ca-5629-11e6-9079-ac72891c3257__05" tab="SIMIP-seaicemon" title="GeoMIP, SIMIP-seaicemon, abrupt-4xCO2" uid="93fea2a8-267c-11e7-8933-ac72891c3257"></item> 
    718638<item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="HighresmipAermonthlyOth" mip="HighResMIP" nenmax="2" nexmax="-999" ny="320" nymax="160.0" preset="-1" rlid="98d5254e-8344-11e6-959e-ac72891c3257__01" tab="AERmon-oth" title="HighResMIP, AERmon-oth, esm-hist-ext" uid="94002c54-267c-11e7-8933-ac72891c3257"></item> 
    719 <item esid="LUMIP" esidComment="('LUMIP', 'mip', set(['LUMIP']))" expt="LUMIP-ALL" label="LumipLumipLmon" mip="LUMIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc097e6-5629-11e6-9079-ac72891c3257__00" tab="LUMIP.Lmon" title="LUMIP, LUMIP.Lmon, LUMIP-ALL" uid="94062424-267c-11e7-8933-ac72891c3257"></item> 
    720 <item esid="f16efa68-dd9e-11e6-b89b-ac72891c3257" esidComment="OmipA group" expt="OmipA" label="OmipOday" mip="OMIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="ef12f0e6-5629-11e6-9079-ac72891c3257__00" tab="Oday" title="OMIP, Oday, OmipA" uid="9406e616-267c-11e7-8933-ac72891c3257"></item> 
    721 <item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="PmipPmipPmipAeroclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0908e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-aeroclim" title="PMIP, PMIP.PMIP-aeroclim, amip" uid="94076c3a-267c-11e7-8933-ac72891c3257"></item> 
    722639<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="RfmipOclim" mip="RFMIP" nenmax="1" nexmax="-999" ny="500" nymax="500.0" preset="-1" rlid="ef12f514-5629-11e6-9079-ac72891c3257__04" tab="Oclim" title="RFMIP, Oclim, esm-piControl" uid="940d4fec-267c-11e7-8933-ac72891c3257"></item> 
    723 <item esid="f16f68b8-dd9e-11e6-b89b-ac72891c3257" expt="SSP437" label="ssp437" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea45d2-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.2: ssp437" uid="07fa4b3a-26b9-11e7-9d3d-ac72891c3257"></item> 
    724640<item esid="f16e3de4-dd9e-11e6-b89b-ac72891c3257" expt="G7cirrus" label="g7cirrus" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea45d2-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.2: g7cirrus" uid="07fa61c4-26b9-11e7-9d3d-ac72891c3257"></item> 
    725641<item esid="f16d3098-dd9e-11e6-b89b-ac72891c3257" expt="C4mip4" label="c4mip4" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e9a3ac-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.3c: c4mip4" uid="07fb76ae-26b9-11e7-9d3d-ac72891c3257"></item> 
     
    728644<item esid="f16d9c7c-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d9c7c-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Damip5']))" expt="DAMIP-5" label="DamipDayOth" mip="DAMIP" nenmax="3" nexmax="-999" ny="300" nymax="-1.0" preset="-1" rlid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__02" tab="day-oth" title="DAMIP, day-oth, DAMIP-5" uid="93f81960-267c-11e7-8933-ac72891c3257"></item> 
    729645<item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="DynvarDynvarMonthlyA" mip="DynVar" nenmax="-1" nexmax="-999" ny="5" nymax="5.0" preset="-1" rlid="efc0ba3c-5629-11e6-9079-ac72891c3257__00" tab="DynVar-monthly-a" title="DynVar, DynVar-monthly-a, historical-ext" tslice="_slice_histext" uid="93fb60ca-267c-11e7-8933-ac72891c3257"></item> 
    730 <item esid="ScenarioMIP" esidComment="('ScenarioMIP', 'mip', set(['ScenarioMIP']))" expt="ScenarioMIP" label="DynvarDynvarDailyB" mip="DynVar" nenmax="-1" nexmax="2" ny="80" nymax="40.0" preset="-1" rlid="efc07680-5629-11e6-9079-ac72891c3257__00" tab="DynVar-daily-b" title="DynVar, DynVar-daily-b, ScenarioMIP" uid="93fc0656-267c-11e7-8933-ac72891c3257"></item> 
    731646<item esid="f2feca08-26b8-11e7-8344-ac72891c3257" esidComment="('f2feca08-26b8-11e7-8344-ac72891c3257', 'list', ('ISMP6-4',))" expt="ISMP6-4" label="Ismip6Ismip6Omon" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0a7cc-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.Omon" title="ISMIP6, ISMIP6.Omon, ISMP6-4" uid="9404d100-267c-11e7-8933-ac72891c3257"></item> 
    732 <item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="PmipPmip6hrlev" mip="PMIP" nenmax="1" nexmax="-999" ny="20" nymax="20.0" preset="-1" rlid="804442e6-a269-11e6-bfbb-ac72891c3257__00" tab="PMIP.6hrLev" title="PMIP, PMIP.6hrLev, abrupt-4xCO2" uid="940a472a-267c-11e7-8933-ac72891c3257"></item> 
    733647<item esid="f16f080a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f080a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip2']))" expt="PMIP-2" label="PmipPmipPmipOclim" mip="PMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc0cc8e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Oclim" title="PMIP, PMIP.PMIP-Oclim, PMIP-2" uid="940c9c3c-267c-11e7-8933-ac72891c3257"></item> 
    734 <item esid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" esidComment="AerChemMIP group Aerchemmip5" expt="AerChemMIP-5" label="AerchemmipLmon" mip="AerChemMIP" nenmax="19" nexmax="-999" ny="570" nymax="30.0" preset="-1" rlid="ef12f23a-5629-11e6-9079-ac72891c3257__00" tab="Lmon" title="AerChemMIP, Lmon, AerChemMIP-5" uid="93f0eb86-267c-11e7-8933-ac72891c3257"></item> 
    735 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="AerchemmipAerfixed" mip="AerChemMIP" nenmax="1" nexmax="-999" ny="1" nymax="-1.0" preset="-1" rlid="ef12fd66-5629-11e6-9079-ac72891c3257__00" tab="AERfx" title="AerChemMIP, AERfx, esm-hist" uid="93f089d4-267c-11e7-8933-ac72891c3257"></item> 
     648<item esid="f16d45ce-dd9e-11e6-b89b-ac72891c3257" expt="amipFuture" label="amipfuture" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e962e8-26b9-11e7-9d3d-ac72891c3257" title="Atlantis.1c: amipfuture" uid="07f9e9a6-26b9-11e7-9d3d-ac72891c3257"></item> 
    736649<item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="AerchemmipLmon" mip="AerChemMIP" nenmax="1" nexmax="-999" ny="36" nymax="36.0" preset="-1" rlid="ef12f23a-5629-11e6-9079-ac72891c3257__00" tab="Lmon" title="AerChemMIP, Lmon, amip" uid="93f0ccdc-267c-11e7-8933-ac72891c3257"></item> 
    737650<item esid="f16d3098-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d3098-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['C4mip4']))" expt="C4MIP-4" label="C4mipC4mipBasic" mip="C4MIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0d8f0-5629-11e6-9079-ac72891c3257__00" tab="C4MIP-Basic" title="C4MIP, C4MIP-Basic, C4MIP-4" uid="93f25b1a-267c-11e7-8933-ac72891c3257"></item> 
    738 <item esid="f16c432c-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16c432c-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['C4mip1']))" expt="C4MIP-1" label="C4mipC4mipLandt1" mip="C4MIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0da26-5629-11e6-9079-ac72891c3257__00" tab="C4MIP-LandT1" title="C4MIP, C4MIP-LandT1, C4MIP-1" uid="93f2b4fc-267c-11e7-8933-ac72891c3257"></item> 
    739 <item esid="LS3MIP" esidComment="('LS3MIP', 'mip', set(['LS3MIP']))" expt="LS3MIP" label="C4mipC4mipLandt1" mip="C4MIP" nenmax="-1" nexmax="-1" ny="500" nymax="-1.0" preset="-1" rlid="efc0da26-5629-11e6-9079-ac72891c3257__00" tab="C4MIP-LandT1" title="C4MIP, C4MIP-LandT1, LS3MIP" uid="93f2c406-267c-11e7-8933-ac72891c3257"></item> 
    740 <item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="C4mipC4mipHist" mip="C4MIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0cefa-5629-11e6-9079-ac72891c3257__00" tab="C4MIP-Hist" title="C4MIP, C4MIP-Hist, esm-hist-ext" uid="93f32f68-267c-11e7-8933-ac72891c3257"></item> 
    741 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="CfmipCfmonSim" mip="CFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc1777e-5629-11e6-9079-ac72891c3257__00" tab="CFmon-sim" title="CFMIP, CFmon-sim, esm-hist" uid="93f38e72-267c-11e7-8933-ac72891c3257"></item> 
    742 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="DamipDamip6hrplevP2" mip="DAMIP" nenmax="3" nexmax="-999" ny="115" nymax="55.0" preset="2" rlid="efc09a52-5629-11e6-9079-ac72891c3257__00" tab="DAMIP-6hrPlev-p2" title="DAMIP, DAMIP-6hrPlev-p2, esm-hist" tslice="_slice_hist55" uid="93f89b7e-267c-11e7-8933-ac72891c3257"></item> 
    743651<item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="DamipDamipEmmonz" mip="DAMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0e6a6-5629-11e6-9079-ac72891c3257__00" tab="DAMIP-EmonZ" title="DAMIP, DAMIP-EmonZ, amip" uid="93fa19cc-267c-11e7-8933-ac72891c3257"></item> 
    744652<item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="DynvarDynvarDyvrzg" mip="DynVar" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc07cca-5629-11e6-9079-ac72891c3257__00" tab="DynVar-DYVRzg" title="DynVar, DynVar-DYVRzg, esm-hist" uid="93fc4f08-267c-11e7-8933-ac72891c3257"></item> 
    745 <item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" expt="historical" label="historical" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e9db56-26b9-11e7-9d3d-ac72891c3257" title="SICCME.1c: historical" uid="07f9b562-26b9-11e7-9d3d-ac72891c3257"></item> 
    746 <item esid="f16d45ce-dd9e-11e6-b89b-ac72891c3257" expt="amipFuture" label="amipfuture" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e962e8-26b9-11e7-9d3d-ac72891c3257" title="Atlantis.1c: amipfuture" uid="07f9e9a6-26b9-11e7-9d3d-ac72891c3257"></item> 
    747 <item esid="f16cd3fa-dd9e-11e6-b89b-ac72891c3257" expt="C4mip2" label="c4mip2" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9c378-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1: c4mip2" uid="07fd0550-26b9-11e7-9d3d-ac72891c3257"></item> 
    748 <item esid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2" expt="1pctCO2" label="FafmipAmon" mip="FAFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__04" tab="Amon" title="FAFMIP, Amon, 1pctCO2" uid="93fd121c-267c-11e7-8933-ac72891c3257"></item> 
    749 <item esid="f16e1e04-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e1e04-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Gmmip1']))" expt="GMMIP-1" label="GmmipAmon" mip="GMMIP" nenmax="1" nexmax="-999" ny="144" nymax="144.0" preset="-1" rlid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" tab="Amon" title="GMMIP, Amon, GMMIP-1" uid="93fdbcb2-267c-11e7-8933-ac72891c3257"></item> 
    750 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="HighresmipHighresmip3hrplev" mip="HighResMIP" nenmax="2" nexmax="-999" ny="320" nymax="160.0" preset="-1" rlid="efc0fa56-5629-11e6-9079-ac72891c3257__00" tab="HighResMIP.3hrPlev" title="HighResMIP, HighResMIP.3hrPlev, esm-hist" uid="94022d88-267c-11e7-8933-ac72891c3257"></item> 
    751 <item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="HighresmipHighresmip3hrplev" mip="HighResMIP" nenmax="2" nexmax="-999" ny="320" nymax="160.0" preset="-1" rlid="efc0fa56-5629-11e6-9079-ac72891c3257__00" tab="HighResMIP.3hrPlev" title="HighResMIP, HighResMIP.3hrPlev, historical-ext" uid="940230c6-267c-11e7-8933-ac72891c3257"></item> 
    752653<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical" expt="historical" label="PmipFx" mip="PMIP" nenmax="1" nexmax="-999" ny="0" nymax="-999.0" preset="-1" rlid="ef12e6f0-5629-11e6-9079-ac72891c3257__05" tab="fx" title="PMIP, fx, historical" uid="9409c21e-267c-11e7-8933-ac72891c3257"></item> 
    753654<item esid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2" expt="1pctCO2" label="PmipPmipPmipLiclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0c8e2-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-LIclim" title="PMIP, PMIP.PMIP-LIclim, 1pctCO2" uid="940ac6aa-267c-11e7-8933-ac72891c3257"></item> 
    754 <item esid="f16f14c6-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f14c6-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip5']))" expt="PMIP-5" label="PmipPmipPmipLiclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0c8e2-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-LIclim" title="PMIP, PMIP.PMIP-LIclim, PMIP-5" uid="940ae1c6-267c-11e7-8933-ac72891c3257"></item> 
    755 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="PmipPmipDay02" mip="PMIP" nenmax="1" nexmax="-999" ny="20" nymax="20.0" preset="-1" rlid="efc09f48-5629-11e6-9079-ac72891c3257__00" tab="PMIP-day-02" title="PMIP, PMIP-day-02, esm-hist" tslice="_slice_hist20" uid="940be580-267c-11e7-8933-ac72891c3257"></item> 
    756655<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="VolmipDayOth" mip="VolMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__05" tab="day-oth" title="VolMIP, day-oth, piControl" tslice="_slice_piControl200" uid="940e94b0-267c-11e7-8933-ac72891c3257"></item> 
    757656<item esid="f16d3ef8-dd9e-11e6-b89b-ac72891c3257" expt="amip4K" label="amip4k" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9d3a4-26b9-11e7-9d3d-ac72891c3257" title="Atlantis.1: amip4k" uid="07f9d088-26b9-11e7-9d3d-ac72891c3257"></item> 
    758657<item esid="f16d9c7c-dd9e-11e6-b89b-ac72891c3257" expt="Damip5" label="damip5" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea499c-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.1: damip5" uid="07fa9acc-26b9-11e7-9d3d-ac72891c3257"></item> 
    759 <item esid="f16f57e2-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP1" label="scenariomip1" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac8d6-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.2: scenariomip1" uid="07fb9ff8-26b9-11e7-9d3d-ac72891c3257"></item> 
    760658<item esid="f16d3098-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d3098-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['C4mip4']))" expt="C4MIP-4" label="C4mipC4mipOceant2" mip="C4MIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0880a-5629-11e6-9079-ac72891c3257__00" tab="C4MIP-OceanT2" title="C4MIP, C4MIP-OceanT2, C4MIP-4" uid="93f23478-267c-11e7-8933-ac72891c3257"></item> 
    761 <item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="C4mipC4mipLandt2" mip="C4MIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0e43a-5629-11e6-9079-ac72891c3257__00" tab="C4MIP-LandT2" title="C4MIP, C4MIP-LandT2, historical-ext" uid="93f27e9c-267c-11e7-8933-ac72891c3257"></item> 
    762 <item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="CfmipCfday2d" mip="CFMIP" nenmax="1" nexmax="-999" ny="140" nymax="140.0" preset="-1" rlid="efc15f32-5629-11e6-9079-ac72891c3257__00" tab="CFday-2d" title="CFMIP, CFday-2d, piControl" tslice="_slice_piControl140" uid="93f4de58-267c-11e7-8933-ac72891c3257"></item> 
    763659<item esid="f16d9c7c-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d9c7c-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Damip5']))" expt="DAMIP-5" label="DamipSimipSeaicemon" mip="DAMIP" nenmax="3" nexmax="-999" ny="300" nymax="-1.0" preset="-1" rlid="efc072ca-5629-11e6-9079-ac72891c3257__02" tab="SIMIP-seaicemon" title="DAMIP, SIMIP-seaicemon, DAMIP-5" uid="93f9e2cc-267c-11e7-8933-ac72891c3257"></item> 
    764 <item esid="f16e6e9a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e6e9a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Ismip61']))" expt="ISMIP6-1" label="Ismip6Ismip6Imongre" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc09b88-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.ImonGre" title="ISMIP6, ISMIP6.ImonGre, ISMIP6-1" uid="9404969a-267c-11e7-8933-ac72891c3257"></item> 
    765 <item esid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2" expt="1pctCO2" label="OmipOfx" mip="OMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="ef12f672-5629-11e6-9079-ac72891c3257__01" tab="Ofx" title="OMIP, Ofx, 1pctCO2" uid="94073210-267c-11e7-8933-ac72891c3257"></item> 
    766 <item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="AerchemmipAerfixed" mip="AerChemMIP" nenmax="1" nexmax="-999" ny="1" nymax="-1.0" preset="-1" rlid="ef12fd66-5629-11e6-9079-ac72891c3257__00" tab="AERfx" title="AerChemMIP, AERfx, esm-hist-ext" uid="93f08f56-267c-11e7-8933-ac72891c3257"></item> 
     660<item esid="f16f65f2-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP2" label="scenariomip2" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac070-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.4: scenariomip2" uid="07fb0ae8-26b9-11e7-9d3d-ac72891c3257"></item> 
    767661<item esid="f16d9470-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d9470-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Damip3']))" expt="DAMIP-3" label="DamipAermonthlyOth" mip="DAMIP" nenmax="3" nexmax="-999" ny="300" nymax="-1.0" preset="-1" rlid="98d5254e-8344-11e6-959e-ac72891c3257__00" tab="AERmon-oth" title="DAMIP, AERmon-oth, DAMIP-3" uid="93f92134-267c-11e7-8933-ac72891c3257"></item> 
    768 <item esid="f2ff0c98-26b8-11e7-8344-ac72891c3257" esidComment="('f2ff0c98-26b8-11e7-8344-ac72891c3257', 'list', ('SolarMIP',))" expt="SolarMIP" label="DynvarDynvarMonthlyD" mip="DynVar" nenmax="-1" nexmax="3" ny="300" nymax="-1.0" preset="-1" rlid="efc0b906-5629-11e6-9079-ac72891c3257__00" tab="DynVar-monthly-d" title="DynVar, DynVar-monthly-d, SolarMIP" uid="93fb4874-267c-11e7-8933-ac72891c3257"></item> 
    769662<item esid="f16e4352-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e4352-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Geomip4']))" expt="GeoMIP-4" label="GeomipAmon" mip="GeoMIP" nenmax="7" nexmax="-999" ny="70" nymax="10.0" preset="-1" rlid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__06" tab="Amon" title="GeoMIP, Amon, GeoMIP-4" uid="93fee39e-267c-11e7-8933-ac72891c3257"></item> 
    770663<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="HighresmipDayOth" mip="HighResMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__04" tab="day-oth" title="HighResMIP, day-oth, piControl" tslice="_slice_piControl200" uid="94008460-267c-11e7-8933-ac72891c3257"></item> 
    771 <item esid="f16e66d4-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e66d4-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Highresmip2']))" expt="HighResMIP-2" label="HighresmipHighresmip3hrplev" mip="HighResMIP" nenmax="2" nexmax="-999" ny="200" nymax="100.0" preset="-1" rlid="efc0fa56-5629-11e6-9079-ac72891c3257__00" tab="HighResMIP.3hrPlev" title="HighResMIP, HighResMIP.3hrPlev, HighResMIP-2" uid="94023922-267c-11e7-8933-ac72891c3257"></item> 
    772664<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="HighresmipCfday3d" mip="HighResMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc14b32-5629-11e6-9079-ac72891c3257__01" tab="CFday-3d" title="HighResMIP, CFday-3d, esm-piControl" tslice="_slice_piControl200" uid="94027f36-267c-11e7-8933-ac72891c3257"></item> 
    773 <item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="HighresmipHighresmip6hrplevextrdr" mip="HighResMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc09cbe-5629-11e6-9079-ac72891c3257__00" tab="HighResMIP-6hrPlevExtrDr" title="HighResMIP, HighResMIP-6hrPlevExtrDr, piControl" tslice="_slice_piControl200" uid="9402d76a-267c-11e7-8933-ac72891c3257"></item> 
    774665<item esid="f2fecdd2-26b8-11e7-8344-ac72891c3257" esidComment="('f2fecdd2-26b8-11e7-8344-ac72891c3257', 'list', ('ISMP6-5',))" expt="ISMP6-5" label="Ismip6Ismip6Amon" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0cdc4-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.Amon" title="ISMIP6, ISMIP6.Amon, ISMP6-5" uid="94038e26-267c-11e7-8933-ac72891c3257"></item> 
    775 <item esid="f16e6e9a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e6e9a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Ismip61']))" expt="ISMIP6-1" label="Ismip6Ismip6Iyrgre" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0b42e-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.IyrGre" title="ISMIP6, ISMIP6.IyrGre, ISMIP6-1" uid="9403cb20-267c-11e7-8933-ac72891c3257"></item> 
    776 <item esid="f16f68b8-dd9e-11e6-b89b-ac72891c3257" expt="SSP437" label="ssp437" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea5176-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.4: ssp437" uid="07faf300-26b9-11e7-9d3d-ac72891c3257"></item> 
    777 <item esid="f16f65f2-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP2" label="scenariomip2" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac070-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.4: scenariomip2" uid="07fb0ae8-26b9-11e7-9d3d-ac72891c3257"></item> 
    778 <item esid="f16d6946-dd9e-11e6-b89b-ac72891c3257" expt="abrupt2xCO2" label="abrupt2xco2" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea7156-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.3c: abrupt2xco2" uid="07fc60e6-26b9-11e7-9d3d-ac72891c3257"></item> 
    779666<item esid="LUMIP" esidComment="('LUMIP', 'mip', set(['LUMIP']))" expt="LUMIP-ALL" label="LumipC4mipBasic" mip="LUMIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0d8f0-5629-11e6-9079-ac72891c3257__01" tab="C4MIP-Basic" title="LUMIP, C4MIP-Basic, LUMIP-ALL" uid="9406bf7e-267c-11e7-8933-ac72891c3257"></item> 
    780667<item esid="f16f6188-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment ssp126" expt="SSP126" label="PmipPmipOmon02" mip="PMIP" nenmax="1" nexmax="2" ny="200" nymax="-1.0" preset="-1" rlid="efc0e098-5629-11e6-9079-ac72891c3257__01" tab="PMIP-Omon-02" title="PMIP, PMIP-Omon-02, SSP126" uid="940b11b4-267c-11e7-8933-ac72891c3257"></item> 
     
    1110997<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="VolmipCfdaySubset01" mip="VolMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="38c00b66-61f6-11e6-835f-ac72891c3257__00" tab="CFday-subset-01" title="VolMIP, CFday-subset-01, piControl" uid="940e5d88-267c-11e7-8933-ac72891c3257"></item> 
    1111998<item esid="f16f90b8-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f90b8-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['volc-pinatubo']))" expt="volc-pinatubo" label="VolmipDayOth" mip="VolMIP" nenmax="1" nexmax="-999" ny="3" nymax="3.0" preset="-1" rlid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__05" tab="day-oth" title="VolMIP, day-oth, volc-pinatubo" uid="940e9f3c-267c-11e7-8933-ac72891c3257"></item> 
    1112 <item esid="f16d9880-dd9e-11e6-b89b-ac72891c3257" expt="Damip4" label="damip4" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9c378-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1: damip4" uid="07fcfa2e-26b9-11e7-9d3d-ac72891c3257"></item> 
     999<item esid="f16d6946-dd9e-11e6-b89b-ac72891c3257" expt="abrupt2xCO2" label="abrupt2xco2" mip="VIACSAB" nenmax="-1" ny="160" nymax="1.0" preset="-1" rlid="07eabc92-26b9-11e7-9d3d-ac72891c3257" title="Madingley.3b: abrupt2xco2" tslice="_slice_cfOff" uid="07f80744-26b9-11e7-9d3d-ac72891c3257"></item> 
    11131000<item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="AerchemmipAerfixed" mip="AerChemMIP" nenmax="1" nexmax="-999" ny="1" nymax="1.0" preset="-1" rlid="ef12fd66-5629-11e6-9079-ac72891c3257__00" tab="AERfx" title="AerChemMIP, AERfx, amip" uid="93f082d6-267c-11e7-8933-ac72891c3257"></item> 
     1001<item esid="8709a634-51c3-11e7-9bc5-5404a60d96b5" esidComment="Experiment Aerchemmip1" expt="AerChemMIP-1" label="AerchemmipLmon" mip="AerChemMIP" nenmax="9" nexmax="-999" ny="900" nymax="-1.0" preset="-1" rlid="ef12f23a-5629-11e6-9079-ac72891c3257__00" tab="Lmon" title="AerChemMIP, Lmon, AerChemMIP-1" uid="93f0e15e-267c-11e7-8933-ac72891c3257"></item> 
    11141002<item esid="f16f6188-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment ssp126" expt="SSP126" label="Cordex6hrlev" mip="CORDEX" nenmax="1" nexmax="2" ny="172" nymax="86.0" preset="-1" rlid="ef12e9c0-5629-11e6-9079-ac72891c3257__01" tab="6hrLev" title="CORDEX, 6hrLev, SSP126" uid="93f78cca-267c-11e7-8933-ac72891c3257"></item> 
    11151003<item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="DynvarDynvarDyvrzg" mip="DynVar" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc07cca-5629-11e6-9079-ac72891c3257__00" tab="DynVar-DYVRzg" title="DynVar, DynVar-DYVRzg, esm-hist-ext" uid="93fc55c0-267c-11e7-8933-ac72891c3257"></item> 
     
    11201008<item esid="f16e6e9a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e6e9a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Ismip61']))" expt="ISMIP6-1" label="Ismip6Ismip6Imonant" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0df62-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.ImonAnt" title="ISMIP6, ISMIP6.ImonAnt, ISMIP6-1" uid="9403b3ba-267c-11e7-8933-ac72891c3257"></item> 
    11211009<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="Ismip6Ismip6Omon" mip="ISMIP6" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0a7cc-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.Omon" title="ISMIP6, ISMIP6.Omon, piControl" uid="9404b094-267c-11e7-8933-ac72891c3257"></item> 
    1122 <item esid="f16f0c56-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f0c56-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip3']))" expt="PMIP-3" label="PmipPmipDay" mip="PMIP" nenmax="1" nexmax="-999" ny="1000" nymax="1000.0" preset="-1" rlid="efc0fef2-5629-11e6-9079-ac72891c3257__00" tab="PMIP.day" title="PMIP, PMIP.day, PMIP-3" uid="94089006-267c-11e7-8933-ac72891c3257"></item> 
    1123 <item esid="f16d6946-dd9e-11e6-b89b-ac72891c3257" expt="abrupt2xCO2" label="abrupt2xco2" mip="VIACSAB" nenmax="-1" ny="160" nymax="1.0" preset="-1" rlid="07eabc92-26b9-11e7-9d3d-ac72891c3257" title="Madingley.3b: abrupt2xco2" tslice="_slice_cfOff" uid="07f80744-26b9-11e7-9d3d-ac72891c3257"></item> 
    11241010<item esid="f16e3632-dd9e-11e6-b89b-ac72891c3257" expt="G6sulfate" label="g6sulfate" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea45d2-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.2: g6sulfate" uid="07fa5c24-26b9-11e7-9d3d-ac72891c3257"></item> 
    11251011<item esid="f16f68b8-dd9e-11e6-b89b-ac72891c3257" expt="SSP437" label="ssp437" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac8d6-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.2: ssp437" uid="07fb7f82-26b9-11e7-9d3d-ac72891c3257"></item> 
     1012<item esid="f16d9880-dd9e-11e6-b89b-ac72891c3257" expt="Damip4" label="damip4" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9c378-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1: damip4" uid="07fcfa2e-26b9-11e7-9d3d-ac72891c3257"></item> 
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    11261014<item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="CfmipCfmipAero" mip="CFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="90104242-a26e-11e6-bfbb-ac72891c3257__00" tab="CFMIP.aero" title="CFMIP, CFMIP.aero, abrupt-4xCO2" uid="93f3ce82-267c-11e7-8933-ac72891c3257"></item> 
    11271015<item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="CmipEsmval3hr" mip="CMIP" nenmax="-1" nexmax="-999" ny="55" nymax="55.0" preset="-1" rlid="b8257ed0-c16a-11e6-bb6a-ac72891c3257__00" tab="esmval-3hr" title="CMIP, esmval-3hr, historical-ext" tslice="_slice_histext" uid="93f60076-267c-11e7-8933-ac72891c3257"></item> 
     
    11761064<item esid="f16dbbe4-dd9e-11e6-b89b-ac72891c3257" expt="DcppA" label="dcppa" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea2d4a-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1c: dcppa" uid="07fd3d9a-26b9-11e7-9d3d-ac72891c3257"></item> 
    11771065<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="VolmipLmon" mip="VolMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="ef12f23a-5629-11e6-9079-ac72891c3257__07" tab="Lmon" title="VolMIP, Lmon, piControl" uid="940e6ec2-267c-11e7-8933-ac72891c3257"></item> 
    1178 <item esid="f16f6188-dd9e-11e6-b89b-ac72891c3257" expt="SSP126" label="ssp126" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea2d4a-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1c: ssp126" uid="07fd416e-26b9-11e7-9d3d-ac72891c3257"></item> 
    11791066<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="C4mipC4mipBasic" mip="C4MIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0d8f0-5629-11e6-9079-ac72891c3257__00" tab="C4MIP-Basic" title="C4MIP, C4MIP-Basic, piControl" uid="93f239fa-267c-11e7-8933-ac72891c3257"></item> 
    11801067<item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="CfmipCfmipAero" mip="CFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="90104242-a26e-11e6-bfbb-ac72891c3257__00" tab="CFMIP.aero" title="CFMIP, CFMIP.aero, esm-hist" uid="93f3d6d4-267c-11e7-8933-ac72891c3257"></item> 
     
    11861073<item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="HighresmipCfday2d" mip="HighResMIP" nenmax="2" nexmax="-999" ny="320" nymax="160.0" preset="-1" rlid="efc15f32-5629-11e6-9079-ac72891c3257__01" tab="CFday-2d" title="HighResMIP, CFday-2d, esm-hist-ext" uid="9400f6b6-267c-11e7-8933-ac72891c3257"></item> 
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    1218 <item esid="f16cd3fa-dd9e-11e6-b89b-ac72891c3257" expt="C4mip2" label="c4mip2" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e9a3ac-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.3c: c4mip2" uid="07fb74ce-26b9-11e7-9d3d-ac72891c3257"></item> 
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    12291117<item esid="f16d8c96-dd9e-11e6-b89b-ac72891c3257" expt="Damip2" label="damip2" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea45d2-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.2: damip2" uid="07fa52ba-26b9-11e7-9d3d-ac72891c3257"></item> 
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    12901180<item esid="f16ef5ae-dd9e-11e6-b89b-ac72891c3257" expt="Lumip8" label="lumip8" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eaccbe-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.1: lumip8" uid="07fbaf48-26b9-11e7-9d3d-ac72891c3257"></item> 
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    1312 <item esid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" expt="1pctCO2" label="1pctco2" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea0c5c-26b9-11e7-9d3d-ac72891c3257" title="Atlantis.2c: 1pctco2" uid="07f9f7f2-26b9-11e7-9d3d-ac72891c3257"></item> 
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    13141204<item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="CfmipDayOth" mip="CFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__00" tab="day-oth" title="CFMIP, day-oth, esm-hist-ext" uid="93f478aa-267c-11e7-8933-ac72891c3257"></item> 
     
    13211211<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="OmipOmon" mip="OMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="ef12e542-5629-11e6-9079-ac72891c3257__04" tab="Omon" title="OMIP, Omon, esm-piControl" uid="94070eca-267c-11e7-8933-ac72891c3257"></item> 
    13221212<item esid="f16f5684-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment ssp585" expt="SSP585" label="PmipPmipAero02" mip="PMIP" nenmax="1" nexmax="2" ny="200" nymax="-1.0" preset="-1" rlid="d0e5741a-1ba7-11e7-8b4b-5404a60d96b5__00" tab="PMIP-aero-02" title="PMIP, PMIP-aero-02, SSP585" uid="94096cb0-267c-11e7-8933-ac72891c3257"></item> 
     1213<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="PmipPmipPmipLiclim" mip="PMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc0c8e2-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-LIclim" title="PMIP, PMIP.PMIP-LIclim, piControl" tslice="_slice_piControl200" uid="940ab962-267c-11e7-8933-ac72891c3257"></item> 
    13231214<item esid="f16f6188-dd9e-11e6-b89b-ac72891c3257" expt="SSP126" label="ssp126" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea112a-26b9-11e7-9d3d-ac72891c3257" title="Madingley.1: ssp126" uid="07f7d454-26b9-11e7-9d3d-ac72891c3257"></item> 
    13241215<item esid="f16f65f2-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP2" label="scenariomip2" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07eab8b4-26b9-11e7-9d3d-ac72891c3257" title="Madingley.3c: scenariomip2" uid="07f80992-26b9-11e7-9d3d-ac72891c3257"></item> 
    13251216<item esid="f16f5ab2-dd9e-11e6-b89b-ac72891c3257" expt="SSP370" label="ssp370" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e94b3c-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1: ssp370" uid="07f87e22-26b9-11e7-9d3d-ac72891c3257"></item> 
    13261217<item esid="f16f65f2-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP2" label="scenariomip2" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e962e8-26b9-11e7-9d3d-ac72891c3257" title="Atlantis.1c: scenariomip2" uid="07f9da9c-26b9-11e7-9d3d-ac72891c3257"></item> 
     1218<item esid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" expt="1pctCO2" label="1pctco2" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea0c5c-26b9-11e7-9d3d-ac72891c3257" title="Atlantis.2c: 1pctco2" uid="07f9f7f2-26b9-11e7-9d3d-ac72891c3257"></item> 
    13271219<item esid="f16ed2ea-dd9e-11e6-b89b-ac72891c3257" expt="Lumip1" label="lumip1" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac070-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.4: lumip1" uid="07fb1af6-26b9-11e7-9d3d-ac72891c3257"></item> 
    13281220<item esid="f16bfe76-dd9e-11e6-b89b-ac72891c3257" expt="esm1pcbgc" label="esm1pcbgc" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9c378-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1: esm1pcbgc" uid="07fcf074-26b9-11e7-9d3d-ac72891c3257"></item> 
    1329 <item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="PmipPmipPmipLiclim" mip="PMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc0c8e2-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-LIclim" title="PMIP, PMIP.PMIP-LIclim, piControl" tslice="_slice_piControl200" uid="940ab962-267c-11e7-8933-ac72891c3257"></item> 
    13301221<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="SimipSimipSeaicemon" mip="SIMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc072ca-5629-11e6-9079-ac72891c3257__09" tab="SIMIP.seaicemon" title="SIMIP, SIMIP.seaicemon, piControl" uid="940d8e94-267c-11e7-8933-ac72891c3257"></item> 
    13311222<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="VolmipDynvarMonthlyC" mip="VolMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc0bb72-5629-11e6-9079-ac72891c3257__01" tab="DynVar-monthly-c" title="VolMIP, DynVar-monthly-c, piControl" tslice="_slice_piControl200" uid="940dc634-267c-11e7-8933-ac72891c3257"></item> 
     
    13391230<item esid="f2feca08-26b8-11e7-8344-ac72891c3257" esidComment="('f2feca08-26b8-11e7-8344-ac72891c3257', 'list', ('ISMP6-4',))" expt="ISMP6-4" label="Ismip6Ismip6Omonnew" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0e7d2-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6-OmonNew" title="ISMIP6, ISMIP6-OmonNew, ISMP6-4" uid="9403ffb4-267c-11e7-8933-ac72891c3257"></item> 
    13401231<item esid="f16ebb02-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16ebb02-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['LFMIP']))" expt="LFMIP" label="Ls3mipLimon" mip="LS3MIP" nenmax="20" nexmax="-999" ny="2420" nymax="121.0" preset="-1" rlid="ef12f3ac-5629-11e6-9079-ac72891c3257__07" tab="LImon" title="LS3MIP, LImon, LFMIP" uid="9405416c-267c-11e7-8933-ac72891c3257"></item> 
     1232<item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="PmipPmipOyr" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0845e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.Oyr" title="PMIP, PMIP.Oyr, esm-hist" uid="9409ecd0-267c-11e7-8933-ac72891c3257"></item> 
    13411233<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="PmipPmip6hrlev" mip="PMIP" nenmax="1" nexmax="-999" ny="20" nymax="20.0" preset="-1" rlid="804442e6-a269-11e6-bfbb-ac72891c3257__00" tab="PMIP.6hrLev" title="PMIP, PMIP.6hrLev, esm-piControl" tslice="_slice_piControl020" uid="940a3fa0-267c-11e7-8933-ac72891c3257"></item> 
     1234<item esid="f16f68b8-dd9e-11e6-b89b-ac72891c3257" expt="SSP437" label="ssp437" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e94b3c-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1: ssp437" uid="07f8622a-26b9-11e7-9d3d-ac72891c3257"></item> 
     1235<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="PmipPmipOmon02" mip="PMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc0e098-5629-11e6-9079-ac72891c3257__01" tab="PMIP-Omon-02" title="PMIP, PMIP-Omon-02, esm-piControl" tslice="_slice_piControl200" uid="940ae82e-267c-11e7-8933-ac72891c3257"></item> 
    13421236<item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="PmipPmipLmon" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc08f58-5629-11e6-9079-ac72891c3257__00" tab="PMIP.Lmon" title="PMIP, PMIP.Lmon, historical-ext" uid="940b3248-267c-11e7-8933-ac72891c3257"></item> 
    1343 <item esid="f16f68b8-dd9e-11e6-b89b-ac72891c3257" expt="SSP437" label="ssp437" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e94b3c-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1: ssp437" uid="07f8622a-26b9-11e7-9d3d-ac72891c3257"></item> 
    1344 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="PmipPmipOyr" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0845e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.Oyr" title="PMIP, PMIP.Oyr, esm-hist" uid="9409ecd0-267c-11e7-8933-ac72891c3257"></item> 
    1345 <item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="PmipPmipOmon02" mip="PMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc0e098-5629-11e6-9079-ac72891c3257__01" tab="PMIP-Omon-02" title="PMIP, PMIP-Omon-02, esm-piControl" tslice="_slice_piControl200" uid="940ae82e-267c-11e7-8933-ac72891c3257"></item> 
    13461237<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" expt="historical" label="historical" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e94b3c-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1: historical" uid="07f896fa-26b9-11e7-9d3d-ac72891c3257"></item> 
    13471238<item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="AerchemmipAmon" mip="AerChemMIP" nenmax="1" nexmax="-999" ny="150" nymax="150.0" preset="-1" rlid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__00" tab="Amon" title="AerChemMIP, Amon, abrupt-4xCO2" uid="93f1f5c6-267c-11e7-8933-ac72891c3257"></item> 
     
    15291420<item esid="f16f5ab2-dd9e-11e6-b89b-ac72891c3257" expt="SSP370" label="ssp370" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9d3a4-26b9-11e7-9d3d-ac72891c3257" title="Atlantis.1: ssp370" uid="07f9c502-26b9-11e7-9d3d-ac72891c3257"></item> 
    15301421<item esid="f16f90b8-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f90b8-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['volc-pinatubo']))" expt="volc-pinatubo" label="VolmipDynvarMonthlyB" mip="VolMIP" nenmax="1" nexmax="-999" ny="3" nymax="3.0" preset="-1" rlid="efc0bcc6-5629-11e6-9079-ac72891c3257__01" tab="DynVar-monthly-b" title="VolMIP, DynVar-monthly-b, volc-pinatubo" uid="940e8bb4-267c-11e7-8933-ac72891c3257"></item> 
    1531 <item esid="f16cd3fa-dd9e-11e6-b89b-ac72891c3257" expt="C4mip2" label="c4mip2" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eaccbe-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.1: c4mip2" uid="07fbc294-26b9-11e7-9d3d-ac72891c3257"></item> 
    15321422<item esid="f16d72d8-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16d72d8-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Cfmip4']))" expt="CFMIP-4" label="CfmipCfmipFx" mip="CFMIP" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="5c72dd92-a277-11e6-bfbb-ac72891c3257__00" tab="CFMIP.fx" title="CFMIP, CFMIP.fx, CFMIP-4" uid="93f4556e-267c-11e7-8933-ac72891c3257"></item> 
    15331423<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical" expt="historical" label="CfmipCfmipSimon" mip="CFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0db98-5629-11e6-9079-ac72891c3257__00" tab="CFMIP-SImon" title="CFMIP, CFMIP-SImon, historical" uid="93f533ee-267c-11e7-8933-ac72891c3257"></item> 
     
    15401430<item esid="f16e6ac6-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e6ac6-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Highresmip3']))" expt="HighResMIP-3" label="HighresmipHighresmipLmon" mip="HighResMIP" nenmax="1" nexmax="-999" ny="36" nymax="36.0" preset="-1" rlid="efc0af4c-5629-11e6-9079-ac72891c3257__00" tab="HighResMIP.Lmon" title="HighResMIP, HighResMIP.Lmon, HighResMIP-3" uid="940214e2-267c-11e7-8933-ac72891c3257"></item> 
    15411431<item esid="f16e8682-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e8682-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Ismip63']))" expt="ISMIP6-3" label="Ismip6Ismip6Fxnew" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc10028-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6-fxNew" title="ISMIP6, ISMIP6-fxNew, ISMIP6-3" uid="94042ea8-267c-11e7-8933-ac72891c3257"></item> 
     1432<item esid="f16cd3fa-dd9e-11e6-b89b-ac72891c3257" expt="C4mip2" label="c4mip2" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eaccbe-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.1: c4mip2" uid="07fbc294-26b9-11e7-9d3d-ac72891c3257"></item> 
    15421433<item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="PmipPmipPmipOclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0cc8e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Oclim" title="PMIP, PMIP.PMIP-Oclim, abrupt-4xCO2" uid="940c88be-267c-11e7-8933-ac72891c3257"></item> 
    15431434<item esid="f16d2f3a-dd9e-11e6-b89b-ac72891c3257" expt="esmhistbgc" label="esmhistbgc" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea112a-26b9-11e7-9d3d-ac72891c3257" title="Madingley.1: esmhistbgc" uid="07f7caae-26b9-11e7-9d3d-ac72891c3257"></item> 
     
    15541445<item esid="f16f65f2-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP2" label="scenariomip2" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac4ee-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.3: scenariomip2" uid="07fb3086-26b9-11e7-9d3d-ac72891c3257"></item> 
    15551446<item esid="f16ed2ea-dd9e-11e6-b89b-ac72891c3257" expt="Lumip1" label="lumip1" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac4ee-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.3: lumip1" uid="07fb4292-26b9-11e7-9d3d-ac72891c3257"></item> 
    1556 <item esid="f16e8682-dd9e-11e6-b89b-ac72891c3257" expt="Ismip63" label="ismip63" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07eab0da-26b9-11e7-9d3d-ac72891c3257" title="Atlantis.3c: ismip63" uid="07fa05b2-26b9-11e7-9d3d-ac72891c3257"></item> 
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    2937 <item esid="8709a634-51c3-11e7-9bc5-5404a60d96b5" esidComment="AerChemMIP group Aerchemmip1" expt="AerChemMIP-1" label="AerchemmipOyr" mip="AerChemMIP" nenmax="9" nexmax="-999" ny="900" nymax="-1.0" preset="-1" rlid="316ca362-b97e-11e6-a189-5404a60d96b5__00" tab="Oyr" title="AerChemMIP, Oyr, AerChemMIP-1" uid="93f1a922-267c-11e7-8933-ac72891c3257"></item> 
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    29442847<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical" expt="historical" label="Ismip6Ismip6Fxnew" mip="ISMIP6" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc10028-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6-fxNew" title="ISMIP6, ISMIP6-fxNew, historical" uid="94041c9c-267c-11e7-8933-ac72891c3257"></item> 
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    29462851<item esid="f16f68b8-dd9e-11e6-b89b-ac72891c3257" expt="SSP437" label="ssp437" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea112a-26b9-11e7-9d3d-ac72891c3257" title="Madingley.1: ssp437" uid="07f7c8d8-26b9-11e7-9d3d-ac72891c3257"></item> 
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    2948 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="LumipC4mipHist" mip="LUMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0cefa-5629-11e6-9079-ac72891c3257__01" tab="C4MIP-Hist" title="LUMIP, C4MIP-Hist, esm-hist" uid="940592b6-267c-11e7-8933-ac72891c3257"></item> 
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    29522856<item esid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2" expt="1pctCO2" label="PmipPmipDay02" mip="PMIP" nenmax="1" nexmax="-999" ny="20" nymax="20.0" preset="-1" rlid="efc09f48-5629-11e6-9079-ac72891c3257__00" tab="PMIP-day-02" title="PMIP, PMIP-day-02, 1pctCO2" uid="940bdf04-267c-11e7-8933-ac72891c3257"></item> 
    29532857<item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" expt="amip" label="amip" mip="VIACSAB" nenmax="1" ny="160" nymax="40.0" preset="-1" rlid="07e9ef2e-26b9-11e7-9d3d-ac72891c3257" title="SMHI-FoUo.3d: amip" uid="07f84cae-26b9-11e7-9d3d-ac72891c3257"></item> 
    2954 <item esid="f16ee866-dd9e-11e6-b89b-ac72891c3257" expt="Lumip5" label="lumip5" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea3524-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.1c: lumip5" uid="07fabf66-26b9-11e7-9d3d-ac72891c3257"></item> 
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    29562859<item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="AerchemmipAerzonalVert" mip="AerChemMIP" nenmax="3" nexmax="-999" ny="495" nymax="165.0" preset="-1" rlid="032f597c-c5ef-11e6-9285-ac72891c3257__00" tab="aerzonal-vert" title="AerChemMIP, aerzonal-vert, esm-hist" uid="93f183d4-267c-11e7-8933-ac72891c3257"></item> 
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    29572861<item esid="f39b06a2-26b8-11e7-8344-ac72891c3257" esidComment="ERROR: Experiment Damip1 Not Found" expt="DAMIP-1" label="DamipAermonthly3d" mip="DAMIP" nenmax="3" nexmax="-999" ny="183" nymax="61.0" preset="-1" rlid="97d52748-8344-11e6-959e-ac72891c3257__01" tab="AERmon-3d" title="DAMIP, AERmon-3d, DAMIP-1" tslice="_slice_DAMIP61" uid="93f9424a-267c-11e7-8933-ac72891c3257"></item> 
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    29622866<item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="Ls3mipLs3mipL3hr" mip="LS3MIP" nenmax="1" nexmax="-999" ny="35" nymax="35.0" preset="-1" rlid="6078e6bc-a69a-11e6-9a13-ac72891c3257__00" tab="LS3MIP-L3hr" title="LS3MIP, LS3MIP-L3hr, esm-hist" tslice="_slice_hist36" uid="940575b0-267c-11e7-8933-ac72891c3257"></item> 
    29632867<item esid="f16f080a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f080a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip2']))" expt="PMIP-2" label="PmipPmipPmipAeroclim" mip="PMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc0908e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-aeroclim" title="PMIP, PMIP.PMIP-aeroclim, PMIP-2" uid="94078440-267c-11e7-8933-ac72891c3257"></item> 
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    29642869<item esid="f16f90b8-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f90b8-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['volc-pinatubo']))" expt="volc-pinatubo" label="VolmipDynvarDailyD" mip="VolMIP" nenmax="1" nexmax="-999" ny="3" nymax="3.0" preset="-1" rlid="efc0740a-5629-11e6-9079-ac72891c3257__01" tab="DynVar-daily-d" title="VolMIP, DynVar-daily-d, volc-pinatubo" uid="940e03e2-267c-11e7-8933-ac72891c3257"></item> 
    29652870<item esid="f16bfe76-dd9e-11e6-b89b-ac72891c3257" expt="esm1pcbgc" label="esm1pcbgc" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea2d4a-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1c: esm1pcbgc" uid="07fd2ee0-26b9-11e7-9d3d-ac72891c3257"></item> 
     
    29812886<item esid="f16fab98-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment dcppC-forecast-addPinatubo" expt="volc-pinatubo-ini" label="Volmip6hrplev" mip="VolMIP" nenmax="1" nexmax="-999" ny="3" nymax="3.0" preset="-1" rlid="ef12eca4-5629-11e6-9079-ac72891c3257__03" tab="6hrPlev" title="VolMIP, 6hrPlev, volc-pinatubo-ini" uid="940e57ac-267c-11e7-8933-ac72891c3257"></item> 
    29822887<item esid="f16d45ce-dd9e-11e6-b89b-ac72891c3257" expt="amipFuture" label="amipfuture" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9d3a4-26b9-11e7-9d3d-ac72891c3257" title="Atlantis.1: amipfuture" uid="07f9ce94-26b9-11e7-9d3d-ac72891c3257"></item> 
     2888<item esid="8709a634-51c3-11e7-9bc5-5404a60d96b5" esidComment="Experiment Aerchemmip1" expt="AerChemMIP-1" label="AerchemmipCfmon" mip="AerChemMIP" nenmax="9" nexmax="-999" ny="900" nymax="-1.0" preset="-1" rlid="ef12e39e-5629-11e6-9079-ac72891c3257__00" tab="CFmon" title="AerChemMIP, CFmon, AerChemMIP-1" uid="93f12f88-267c-11e7-8933-ac72891c3257"></item> 
    29832889<item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="CfmipDayOth" mip="CFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__00" tab="day-oth" title="CFMIP, day-oth, amip" uid="93f467b6-267c-11e7-8933-ac72891c3257"></item> 
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    30192925<item esid="f16f6188-dd9e-11e6-b89b-ac72891c3257" expt="SSP126" label="ssp126" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e962e8-26b9-11e7-9d3d-ac72891c3257" title="Atlantis.1c: ssp126" uid="07f9e406-26b9-11e7-9d3d-ac72891c3257"></item> 
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    30232931<item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="CmipSimipSeaicemon" mip="CMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc072ca-5629-11e6-9079-ac72891c3257__01" tab="SIMIP-seaicemon" title="CMIP, SIMIP-seaicemon, abrupt-4xCO2" uid="93f60c56-267c-11e7-8933-ac72891c3257"></item> 
     
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    31983108<item esid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16dcf30-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['DcppC1']))" expt="DCPP-C1" label="DcppDcppSimon" mip="DCPP" nenmax="105" nexmax="-999" ny="1050" nymax="10.0" preset="-1" rlid="efc0a696-5629-11e6-9079-ac72891c3257__02" tab="DCPP-SImon" title="DCPP, DCPP-SImon, DCPP-C1" uid="93fabc92-267c-11e7-8933-ac72891c3257"></item> 
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    34023313<item esid="f16f108e-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f108e-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip4']))" expt="PMIP-4" label="PmipPmipLimon" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0d544-5629-11e6-9079-ac72891c3257__00" tab="PMIP.LImon" title="PMIP, PMIP.LImon, PMIP-4" uid="94099dca-267c-11e7-8933-ac72891c3257"></item> 
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    34043316<item esid="f16e4352-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e4352-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Geomip4']))" expt="GeoMIP-4" label="GeomipOyr" mip="GeoMIP" nenmax="7" nexmax="-999" ny="70" nymax="10.0" preset="-1" rlid="316ca362-b97e-11e6-a189-5404a60d96b5__02" tab="Oyr" title="GeoMIP, Oyr, GeoMIP-4" uid="93fe91fa-267c-11e7-8933-ac72891c3257"></item> 
     
    34323344<item esid="f16e3632-dd9e-11e6-b89b-ac72891c3257" expt="G6sulfate" label="g6sulfate" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea499c-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.1: g6sulfate" uid="07faaa62-26b9-11e7-9d3d-ac72891c3257"></item> 
    34333345<item esid="f16dcb34-dd9e-11e6-b89b-ac72891c3257" expt="DcppB" label="dcppb" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07eae9f6-26b9-11e7-9d3d-ac72891c3257" title="DBEM.1c: dcppb" uid="07fcc40a-26b9-11e7-9d3d-ac72891c3257"></item> 
     3346<item esid="8709a634-51c3-11e7-9bc5-5404a60d96b5" esidComment="Experiment Aerchemmip1" expt="AerChemMIP-1" label="AerchemmipOmon" mip="AerChemMIP" nenmax="9" nexmax="-999" ny="900" nymax="-1.0" preset="-1" rlid="ef12e542-5629-11e6-9079-ac72891c3257__00" tab="Omon" title="AerChemMIP, Omon, AerChemMIP-1" uid="93f1c790-267c-11e7-8933-ac72891c3257"></item> 
    34343347<item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="CmipLmon" mip="CMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="ef12f23a-5629-11e6-9079-ac72891c3257__01" tab="Lmon" title="CMIP, Lmon, historical-ext" uid="93f6b624-267c-11e7-8933-ac72891c3257"></item> 
    34353348<item esid="f16db536-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16db536-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Damip8']))" expt="DAMIP-8" label="DamipDamipDay" mip="DAMIP" nenmax="3" nexmax="-999" ny="183" nymax="61.0" preset="-1" rlid="efc0ca22-5629-11e6-9079-ac72891c3257__00" tab="DAMIP-day" title="DAMIP, DAMIP-day, DAMIP-8" tslice="_slice_DAMIP61" uid="93f99c0e-267c-11e7-8933-ac72891c3257"></item> 
     
    34443357<item esid="f16e3222-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e3222-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Geomip1']))" expt="GeoMIP-1" label="GeomipAmon" mip="GeoMIP" nenmax="1" nexmax="-999" ny="300" nymax="300.0" preset="-1" rlid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__06" tab="Amon" title="GeoMIP, Amon, GeoMIP-1" uid="93fedc8c-267c-11e7-8933-ac72891c3257"></item> 
    34453358<item esid="f16f03aa-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f03aa-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip1']))" expt="PMIP-1" label="PmipPmipPmip6hr" mip="PMIP" nenmax="1" nexmax="-999" ny="20" nymax="20.0" preset="-1" rlid="efc0f2b8-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-6hr" title="PMIP, PMIP.PMIP-6hr, PMIP-1" uid="94085fc8-267c-11e7-8933-ac72891c3257"></item> 
    3446 <item esid="f16f6188-dd9e-11e6-b89b-ac72891c3257" expt="SSP126" label="ssp126" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e98408-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1c: ssp126" uid="07f8b93c-26b9-11e7-9d3d-ac72891c3257"></item> 
    34473359<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" expt="historical" label="historical" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e9a3ac-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.3c: historical" uid="07fb7b04-26b9-11e7-9d3d-ac72891c3257"></item> 
    34483360<item esid="f16e16de-dd9e-11e6-b89b-ac72891c3257" expt="Fafmip2" label="fafmip2" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9f708-26b9-11e7-9d3d-ac72891c3257" title="DBEM.1: fafmip2" uid="07fc917e-26b9-11e7-9d3d-ac72891c3257"></item> 
     3361<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" expt="historical" label="historical" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07eae9f6-26b9-11e7-9d3d-ac72891c3257" title="DBEM.1c: historical" uid="07fcd972-26b9-11e7-9d3d-ac72891c3257"></item> 
    34493362<item esid="f16fd636-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl-spinup" expt="esm-piControl-spinup" label="CmipOdec" mip="CMIP" nenmax="-1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="9d64b154-ba14-11e6-a189-5404a60d96b5__00" tab="Odec" title="CMIP, Odec, esm-piControl-spinup" uid="93f5e8ca-267c-11e7-8933-ac72891c3257"></item> 
    34503363<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="CmipOfx" mip="CMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="ef12f672-5629-11e6-9079-ac72891c3257__00" tab="Ofx" title="CMIP, Ofx, esm-piControl" uid="93f6f6d4-267c-11e7-8933-ac72891c3257"></item> 
     
    34553368<item esid="f16f14c6-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f14c6-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip5']))" expt="PMIP-5" label="PmipPmipAero" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc09430-5629-11e6-9079-ac72891c3257__00" tab="PMIP.aero" title="PMIP, PMIP.aero, PMIP-5" uid="94093146-267c-11e7-8933-ac72891c3257"></item> 
    34563369<item esid="f16f49aa-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f49aa-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['RFMIP-SpAer-ERF-Pday']))" expt="RFMIP-SpAer-ERF-Pday" label="RfmipSimipSeaicemon" mip="RFMIP" nenmax="2" nexmax="-999" ny="60" nymax="30.0" preset="-1" rlid="efc072ca-5629-11e6-9079-ac72891c3257__08" tab="SIMIP-seaicemon" title="RFMIP, SIMIP-seaicemon, RFMIP-SpAer-ERF-Pday" uid="940cebe2-267c-11e7-8933-ac72891c3257"></item> 
    3457 <item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" expt="historical" label="historical" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07eae9f6-26b9-11e7-9d3d-ac72891c3257" title="DBEM.1c: historical" uid="07fcd972-26b9-11e7-9d3d-ac72891c3257"></item> 
     3370<item esid="f16f6188-dd9e-11e6-b89b-ac72891c3257" expt="SSP126" label="ssp126" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e98408-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1c: ssp126" uid="07f8b93c-26b9-11e7-9d3d-ac72891c3257"></item> 
    34583371<item esid="f16f6188-dd9e-11e6-b89b-ac72891c3257" expt="SSP126" label="ssp126" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e98408-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1c: ssp126" uid="07f8bcc0-26b9-11e7-9d3d-ac72891c3257"></item> 
    34593372<item esid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16dcf30-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['DcppC1']))" expt="DCPP-C1" label="DcppDcppDay" mip="DCPP" nenmax="105" nexmax="-999" ny="1050" nymax="10.0" preset="-1" rlid="efc0a1be-5629-11e6-9079-ac72891c3257__04" tab="DCPP.day" title="DCPP, DCPP.day, DCPP-C1" uid="93faef32-267c-11e7-8933-ac72891c3257"></item> 
     
    35123425<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="C4mipC4mipLandt1" mip="C4MIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0da26-5629-11e6-9079-ac72891c3257__00" tab="C4MIP-LandT1" title="C4MIP, C4MIP-LandT1, esm-piControl" uid="93f29dbe-267c-11e7-8933-ac72891c3257"></item> 
    35133426<item esid="f16e6e9a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e6e9a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Ismip61']))" expt="ISMIP6-1" label="Ismip6Ismip6Omonnew" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0e7d2-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6-OmonNew" title="ISMIP6, ISMIP6-OmonNew, ISMIP6-1" uid="9403f820-267c-11e7-8933-ac72891c3257"></item> 
     3427<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" expt="historical" label="historical" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e98bf6-26b9-11e7-9d3d-ac72891c3257" title="SMHI-FoUo.1c: historical" uid="07f85e24-26b9-11e7-9d3d-ac72891c3257"></item> 
     3428<item esid="f16d2f3a-dd9e-11e6-b89b-ac72891c3257" expt="esmhistbgc" label="esmhistbgc" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac070-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.4: esmhistbgc" uid="07fb08f4-26b9-11e7-9d3d-ac72891c3257"></item> 
     3429<item esid="f16f5ab2-dd9e-11e6-b89b-ac72891c3257" expt="SSP370" label="ssp370" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e9a3ac-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.3c: ssp370" uid="07fb70fa-26b9-11e7-9d3d-ac72891c3257"></item> 
     3430<item esid="f16e62ce-dd9e-11e6-b89b-ac72891c3257" expt="Highresmip1" label="highresmip1" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea7156-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.3c: highresmip1" uid="07fc5790-26b9-11e7-9d3d-ac72891c3257"></item> 
     3431<item esid="f16da38e-dd9e-11e6-b89b-ac72891c3257" expt="Damip6" label="damip6" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e9c378-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.1: damip6" uid="07fcfdda-26b9-11e7-9d3d-ac72891c3257"></item> 
     3432<item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="CmipDayOth" mip="CMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__01" tab="day-oth" title="CMIP, day-oth, esm-hist-ext" uid="93f65666-267c-11e7-8933-ac72891c3257"></item> 
     3433<item esid="f2fed188-26b8-11e7-8344-ac72891c3257" esidComment="('f2fed188-26b8-11e7-8344-ac72891c3257', 'list', ('ISMP6-6',))" expt="ISMP6-6" label="Ismip6Ismip6Iyrant" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0fc0e-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.IyrAnt" title="ISMIP6, ISMIP6.IyrAnt, ISMP6-6" uid="94047890-267c-11e7-8933-ac72891c3257"></item> 
     3434<item esid="f343fe5c-26b8-11e7-8344-ac72891c3257" esidComment="ERROR: Experiment Damip1 Not Found" expt="DAMIP-1" label="DamipDamipEmmon" mip="DAMIP" nenmax="3" nexmax="-999" ny="300" nymax="-1.0" preset="-1" rlid="efc07928-5629-11e6-9079-ac72891c3257__00" tab="DAMIP-Emon" title="DAMIP, DAMIP-Emon, DAMIP-1" uid="93fa7d04-267c-11e7-8933-ac72891c3257"></item> 
     3435<item esid="VolMIP" esidComment="('VolMIP', 'mip', set(['VolMIP']))" expt="VolMIP" label="DynvarDynvarDailyC" mip="DynVar" nenmax="-1" nexmax="-1" ny="15" nymax="3.0" preset="-1" rlid="efc0754a-5629-11e6-9079-ac72891c3257__00" tab="DynVar-daily-c" title="DynVar, DynVar-daily-c, VolMIP" uid="93fbbafc-267c-11e7-8933-ac72891c3257"></item> 
     3436<item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="PmipPmipAero02" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="d0e5741a-1ba7-11e7-8b4b-5404a60d96b5__00" tab="PMIP-aero-02" title="PMIP, PMIP-aero-02, esm-hist" uid="940955d6-267c-11e7-8933-ac72891c3257"></item> 
     3437<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="SimipSimipSeaiceday" mip="SIMIP" nenmax="-1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0a2f4-5629-11e6-9079-ac72891c3257__00" tab="SIMIP.seaiceday" title="SIMIP, SIMIP.seaiceday, piControl" tslice="_slice_piControl100" uid="940d6b6c-267c-11e7-8933-ac72891c3257"></item> 
     3438<item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" expt="amip" label="amip" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea41ea-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.3: amip" uid="07fa2e3e-26b9-11e7-9d3d-ac72891c3257"></item> 
     3439<item esid="f16e220a-dd9e-11e6-b89b-ac72891c3257" expt="Gmmip2" label="gmmip2" mip="VIACSAB" nenmax="-1" ny="160" nymax="1.0" preset="-1" rlid="07ea7552-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.3b: gmmip2" tslice="_slice_cfOff" uid="07fc448a-26b9-11e7-9d3d-ac72891c3257"></item> 
     3440<item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="CfmipCfmipOmon3d" mip="CFMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc16608-5629-11e6-9079-ac72891c3257__00" tab="CFMIP-Omon-3d" title="CFMIP, CFMIP-Omon-3d, historical-ext" uid="93f42256-267c-11e7-8933-ac72891c3257"></item> 
     3441<item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical" expt="historical" label="CmipOyr" mip="CMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="316ca362-b97e-11e6-a189-5404a60d96b5__01" tab="Oyr" title="CMIP, Oyr, historical" uid="93f6cdf8-267c-11e7-8933-ac72891c3257"></item> 
     3442<item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="DynvarDynvarMonthlyA" mip="DynVar" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0ba3c-5629-11e6-9079-ac72891c3257__00" tab="DynVar-monthly-a" title="DynVar, DynVar-monthly-a, amip" uid="93fb51de-267c-11e7-8933-ac72891c3257"></item> 
     3443<item esid="f344bcfc-26b8-11e7-8344-ac72891c3257" esidComment="ERROR: Experiment AerChemMIP Not Found" expt="AeroChemMIP" label="DynvarDynvarDailyA" mip="DynVar" nenmax="-1" nexmax="6" ny="240" nymax="40.0" preset="-1" rlid="efc077e8-5629-11e6-9079-ac72891c3257__00" tab="DynVar-daily-a" title="DynVar, DynVar-daily-a, AeroChemMIP" uid="93fcae62-267c-11e7-8933-ac72891c3257"></item> 
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     3457<item esid="f16f792a-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP3" label="scenariomip3" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07e98408-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1c: scenariomip3" uid="07f8af46-26b9-11e7-9d3d-ac72891c3257"></item> 
     3458<item esid="f16cd3fa-dd9e-11e6-b89b-ac72891c3257" expt="C4mip2" label="c4mip2" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07eaa8ec-26b9-11e7-9d3d-ac72891c3257" title="APECOSM.1c: c4mip2" uid="07f9a2e8-26b9-11e7-9d3d-ac72891c3257"></item> 
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     3460<item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" label="DynvarDynvarMonthlyD" mip="DynVar" nenmax="-1" nexmax="-999" ny="40" nymax="40.0" preset="-1" rlid="efc0b906-5629-11e6-9079-ac72891c3257__00" tab="DynVar-monthly-d" title="DynVar, DynVar-monthly-d, esm-piControl" tslice="_slice_piControl040" uid="93fb24ac-267c-11e7-8933-ac72891c3257"></item> 
     3461<item esid="f16e1e04-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e1e04-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Gmmip1']))" expt="GMMIP-1" label="GmmipDayOth" mip="GMMIP" nenmax="1" nexmax="-999" ny="144" nymax="144.0" preset="-1" rlid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" tab="day-oth" title="GMMIP, day-oth, GMMIP-1" uid="93fdcc20-267c-11e7-8933-ac72891c3257"></item> 
     3462<item esid="f16e66d4-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e66d4-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Highresmip2']))" expt="HighResMIP-2" label="HighresmipCfday3d" mip="HighResMIP" nenmax="2" nexmax="-999" ny="200" nymax="100.0" preset="-1" rlid="efc14b32-5629-11e6-9079-ac72891c3257__01" tab="CFday-3d" title="HighResMIP, CFday-3d, HighResMIP-2" uid="94029462-267c-11e7-8933-ac72891c3257"></item> 
     3463<item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="Ismip6Ismip6Omon" mip="ISMIP6" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0a7cc-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.Omon" title="ISMIP6, ISMIP6.Omon, esm-hist-ext" uid="9404c606-267c-11e7-8933-ac72891c3257"></item> 
     3464<item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="PmipPmipDay" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0fef2-5629-11e6-9079-ac72891c3257__00" tab="PMIP.day" title="PMIP, PMIP.day, amip" uid="94087404-267c-11e7-8933-ac72891c3257"></item> 
     3465<item esid="f16f0c56-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f0c56-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip3']))" expt="PMIP-3" label="PmipPmipPmipOmon" mip="PMIP" nenmax="1" nexmax="-999" ny="1000" nymax="1000.0" preset="-1" rlid="efc0e098-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Omon" title="PMIP, PMIP.PMIP-Omon, PMIP-3" uid="940cc766-267c-11e7-8933-ac72891c3257"></item> 
     3466<item esid="f16f57e2-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP1" label="scenariomip1" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07e94b3c-26b9-11e7-9d3d-ac72891c3257" title="climateServices.1: scenariomip1" uid="07f88f3e-26b9-11e7-9d3d-ac72891c3257"></item> 
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     3527<item esid="f16e1e04-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e1e04-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Gmmip1']))" expt="GMMIP-1" label="GmmipAmon" mip="GMMIP" nenmax="1" nexmax="-999" ny="144" nymax="144.0" preset="-1" rlid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" tab="Amon" title="GMMIP, Amon, GMMIP-1" uid="93fdbcb2-267c-11e7-8933-ac72891c3257"></item> 
     3528<item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="HighresmipHighresmip3hrplev" mip="HighResMIP" nenmax="2" nexmax="-999" ny="320" nymax="160.0" preset="-1" rlid="efc0fa56-5629-11e6-9079-ac72891c3257__00" tab="HighResMIP.3hrPlev" title="HighResMIP, HighResMIP.3hrPlev, esm-hist" uid="94022d88-267c-11e7-8933-ac72891c3257"></item> 
     3529<item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="HighresmipHighresmip3hrplev" mip="HighResMIP" nenmax="2" nexmax="-999" ny="320" nymax="160.0" preset="-1" rlid="efc0fa56-5629-11e6-9079-ac72891c3257__00" tab="HighResMIP.3hrPlev" title="HighResMIP, HighResMIP.3hrPlev, historical-ext" uid="940230c6-267c-11e7-8933-ac72891c3257"></item> 
     3530<item esid="f16f14c6-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f14c6-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip5']))" expt="PMIP-5" label="PmipPmipPmipLiclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0c8e2-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-LIclim" title="PMIP, PMIP.PMIP-LIclim, PMIP-5" uid="940ae1c6-267c-11e7-8933-ac72891c3257"></item> 
     3531<item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="PmipPmipDay02" mip="PMIP" nenmax="1" nexmax="-999" ny="20" nymax="20.0" preset="-1" rlid="efc09f48-5629-11e6-9079-ac72891c3257__00" tab="PMIP-day-02" title="PMIP, PMIP-day-02, esm-hist" tslice="_slice_hist20" uid="940be580-267c-11e7-8933-ac72891c3257"></item> 
     3532<item esid="f16f57e2-dd9e-11e6-b89b-ac72891c3257" expt="ScenarioMIP1" label="scenariomip1" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07eac8d6-26b9-11e7-9d3d-ac72891c3257" title="ISI-MIP.2: scenariomip1" uid="07fb9ff8-26b9-11e7-9d3d-ac72891c3257"></item> 
     3533<item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="C4mipC4mipLandt2" mip="C4MIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0e43a-5629-11e6-9079-ac72891c3257__00" tab="C4MIP-LandT2" title="C4MIP, C4MIP-LandT2, historical-ext" uid="93f27e9c-267c-11e7-8933-ac72891c3257"></item> 
     3534<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="CfmipCfday2d" mip="CFMIP" nenmax="1" nexmax="-999" ny="140" nymax="140.0" preset="-1" rlid="efc15f32-5629-11e6-9079-ac72891c3257__00" tab="CFday-2d" title="CFMIP, CFday-2d, piControl" tslice="_slice_piControl140" uid="93f4de58-267c-11e7-8933-ac72891c3257"></item> 
     3535<item esid="f16e6e9a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e6e9a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Ismip61']))" expt="ISMIP6-1" label="Ismip6Ismip6Imongre" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc09b88-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.ImonGre" title="ISMIP6, ISMIP6.ImonGre, ISMIP6-1" uid="9404969a-267c-11e7-8933-ac72891c3257"></item> 
     3536<item esid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2" expt="1pctCO2" label="OmipOfx" mip="OMIP" nenmax="-1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="ef12f672-5629-11e6-9079-ac72891c3257__01" tab="Ofx" title="OMIP, Ofx, 1pctCO2" uid="94073210-267c-11e7-8933-ac72891c3257"></item> 
     3537<item esid="f16f68b8-dd9e-11e6-b89b-ac72891c3257" expt="SSP437" label="ssp437" mip="VIACSAB" nenmax="-1" ny="160" nymax="-1.0" preset="-1" rlid="07ea5176-26b9-11e7-9d3d-ac72891c3257" title="AgMIP.4: ssp437" uid="07faf300-26b9-11e7-9d3d-ac72891c3257"></item> 
     3538<item esid="f16d6946-dd9e-11e6-b89b-ac72891c3257" expt="abrupt2xCO2" label="abrupt2xco2" mip="VIACSAB" nenmax="1" ny="160" nymax="160.0" preset="-1" rlid="07ea7156-26b9-11e7-9d3d-ac72891c3257" title="FISH-MIP.3c: abrupt2xco2" uid="07fc60e6-26b9-11e7-9d3d-ac72891c3257"></item> 
     3539<item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="AerchemmipAerfixed" mip="AerChemMIP" nenmax="1" nexmax="-999" ny="1" nymax="-1.0" preset="-1" rlid="ef12fd66-5629-11e6-9079-ac72891c3257__00" tab="AERfx" title="AerChemMIP, AERfx, esm-hist-ext" uid="93f08f56-267c-11e7-8933-ac72891c3257"></item> 
     3540<item esid="f2ff0c98-26b8-11e7-8344-ac72891c3257" esidComment="('f2ff0c98-26b8-11e7-8344-ac72891c3257', 'list', ('SolarMIP',))" expt="SolarMIP" label="DynvarDynvarMonthlyD" mip="DynVar" nenmax="-1" nexmax="3" ny="300" nymax="-1.0" preset="-1" rlid="efc0b906-5629-11e6-9079-ac72891c3257__00" tab="DynVar-monthly-d" title="DynVar, DynVar-monthly-d, SolarMIP" uid="93fb4874-267c-11e7-8933-ac72891c3257"></item> 
     3541<item esid="f16e66d4-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e66d4-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Highresmip2']))" expt="HighResMIP-2" label="HighresmipHighresmip3hrplev" mip="HighResMIP" nenmax="2" nexmax="-999" ny="200" nymax="100.0" preset="-1" rlid="efc0fa56-5629-11e6-9079-ac72891c3257__00" tab="HighResMIP.3hrPlev" title="HighResMIP, HighResMIP.3hrPlev, HighResMIP-2" uid="94023922-267c-11e7-8933-ac72891c3257"></item> 
     3542<item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" label="HighresmipHighresmip6hrplevextrdr" mip="HighResMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc09cbe-5629-11e6-9079-ac72891c3257__00" tab="HighResMIP-6hrPlevExtrDr" title="HighResMIP, HighResMIP-6hrPlevExtrDr, piControl" tslice="_slice_piControl200" uid="9402d76a-267c-11e7-8933-ac72891c3257"></item> 
     3543<item esid="f16e6e9a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16e6e9a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Ismip61']))" expt="ISMIP6-1" label="Ismip6Ismip6Iyrgre" mip="ISMIP6" nenmax="1" nexmax="-999" ny="100" nymax="-1.0" preset="-1" rlid="efc0b42e-5629-11e6-9079-ac72891c3257__00" tab="ISMIP6.IyrGre" title="ISMIP6, ISMIP6.IyrGre, ISMIP6-1" uid="9403cb20-267c-11e7-8933-ac72891c3257"></item> 
    35143544</requestItem> 
    35153545<exptgroup id="exg" label="exptgroup" title="1.9 Experiment Group" uid="SECTION:exptgroup" useClass="vocab"> 
     
    37473777<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="concnmcn" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="GeoMIP [aeroGeo]" provNote="" rowIndex="11" shuffle="0" stid="62eebe98-1617-11e7-a126-5404a60d96b5" title="Number Concentration of Nucleation Mode Aerosol" type="" uid="6f36cfc8-9acb-11e6-b7ee-ac72891c3257" vid="f2ab103442d41c890bc004ef71dc71f2"></item> 
    37483778<item defaultPriority="2" deflate="" deflate_level="" description="sum of phytoplankton iron component concentrations" frequency="yr" label="phyfe" mipTable="Oyr" mipTableSection="Oyr_3dtr" modeling_realm="ocnBgChem" mtid="MIPtable::Oyr" positive="" prov="Oyr ((isd.003))" provNote="Oyr_3dtr" rowIndex="48" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" subGroup="Oyr_3dtr" title="Mole Concentration of Total Phytoplankton expressed as Iron in sea water" type="real" uid="ba9e691a-e5dd-11e5-8482-ac72891c3257" vid="87f531b94bd9ca68e33e89d7e3e81be4"></item> 
    3749 <item defaultPriority="1" deflate="" deflate_level="" description="Overturning mass streamfunction arising from all advective mass transport processes, resolved and parameterized." frequency="mon" label="msftyyz" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocean" mtid="MIPtable::Omon" positive="" processing="function of Y, Z, basin.   Also see note above." prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="41" shuffle="" stid="529d9136-1ed7-11e7-9366-ac72891c3257" subGroup="Omon_oth" title="Ocean Y Overturning Mass Streamfunction" type="real" uid="baa5a662-e5dd-11e5-8482-ac72891c3257" vid="59cc645887ed0a072bb553283e15f732"></item> 
     3779<item defaultPriority="1" deflate="" deflate_level="" description="Overturning mass streamfunction arising from all advective mass transport processes, resolved and parameterized." frequency="mon" label="msftyz" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocean" mtid="MIPtable::Omon" positive="" processing="function of Y, Z, basin.   Also see note above." prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="41" shuffle="" stid="529d9136-1ed7-11e7-9366-ac72891c3257" subGroup="Omon_oth" title="Ocean Y Overturning Mass Streamfunction" type="real" uid="baa5a662-e5dd-11e5-8482-ac72891c3257" vid="59cc645887ed0a072bb553283e15f732"></item> 
    37503780<item defaultPriority="2" deflate="" deflate_level="" description="Calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud)." frequency="mon" label="mcd" mipTable="CFmon" mipTableSection="CFmon_3dstd" modeling_realm="atmos" mtid="MIPtable::CFmon" positive="down" processing="Report on model half-levels (i.e., model layer bounds and not standard pressures)." prov="CFmon ((isd.003))" provNote="CFmon_3dstd" rowIndex="47" shuffle="" stid="f7e87814-562c-11e6-a2a4-ac72891c3257" subGroup="cfMon_3dstd" title="Downdraft Convective Mass Flux" type="real" uid="bab12118-e5dd-11e5-8482-ac72891c3257" vid="e889a99259ce24104c8b21894ace22da"></item> 
    37513781<item defaultPriority="1" deflate="" deflate_level="" description="height above the geoid; as defined here, &quot;the geoid&quot; is a surface of constant geopotential that, if the ocean were at rest, would coincide with mean sea level. Under this definition, the geoid changes as the mean volume of the ocean changes (e.g., due to glacial melt, or global warming of the ocean).  Reported here is the height above the present-day geoid (0.0 over ocean)." frequency="fx" label="orog" mipTable="fx" modeling_realm="land" mtid="MIPtable::fx" positive="" prov="fx ((isd.003))" provNote="" rowIndex="16" shuffle="" stid="f7decc10-562c-11e6-a2a4-ac72891c3257" title="Surface Altitude" type="real" uid="bab2f9d4-e5dd-11e5-8482-ac72891c3257" vid="00e77372e8b909d9a827a0790e991fd9"></item> 
     
    38953925<item defaultPriority="1" deflate="" deflate_level="" description="This is needed in case the ice sheet elevation changes in time" frequency="yr" label="orog" mipTable="IyrGre" modeling_realm="land" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="4" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Altitude" type="real" uid="d5b3951c-c78d-11e6-9b25-5404a60d96b5" vid="00e77372e8b909d9a827a0790e991fd9"></item> 
    38963926<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="mon" label="mmrss" mipTable="AERmon" mipTableSection="AERmon-3d" modeling_realm="aerosol" mtid="MIPtable::AERmon" positive="" prov="AERmon ((isd.003))" provNote="AERmon-3d" rowIndex="-1" shuffle="" stid="62eebe98-1617-11e7-a126-5404a60d96b5" title="Sea Salt mass mixing ratio" type="float" uid="19bed1f4-81b1-11e6-92de-ac72891c3257" vid="5980f8e283fd4709e4542c0652756dc1"></item> 
    3897 <item defaultPriority="1" deflate="" deflate_level="" description="Overturning mass streamfunction arising from all advective mass transport processes, resolved and parameterized." frequency="dec" label="msftmyz" mipTable="Odec" modeling_realm="ocean" mtid="MIPtable::Odec" positive="" processing="function of latitude, Z, basin. For a model with a cartesian latxlon grid, this is the same as the &quot;Ocean Y Overturning Mass Streamfunction&quot;, listed a few lines down, which should in this case be omitted.  For other models, this transport should be approximated as the transport along zig-zag paths corresponding to latitudes with spacing between latitudes appropriate to the model resolution." prov="Odec ((isd.003))" provNote="" rowIndex="19" shuffle="" stid="529e94b4-1ed7-11e7-9366-ac72891c3257" title="Ocean Meridional Overturning Mass Streamfunction" type="real" uid="4795d5e4-bb0b-11e6-8316-5980f7b176d1" vid="fe8d7416c92bdae56503590599286800"></item> 
     3927<item defaultPriority="1" deflate="" deflate_level="" description="Overturning mass streamfunction arising from all advective mass transport processes, resolved and parameterized." frequency="dec" label="msftmz" mipTable="Odec" modeling_realm="ocean" mtid="MIPtable::Odec" positive="" processing="function of latitude, Z, basin. For a model with a cartesian latxlon grid, this is the same as the &quot;Ocean Y Overturning Mass Streamfunction&quot;, listed a few lines down, which should in this case be omitted.  For other models, this transport should be approximated as the transport along zig-zag paths corresponding to latitudes with spacing between latitudes appropriate to the model resolution." prov="Odec ((isd.003))" provNote="" rowIndex="19" shuffle="" stid="529e94b4-1ed7-11e7-9366-ac72891c3257" title="Ocean Meridional Overturning Mass Streamfunction" type="real" uid="4795d5e4-bb0b-11e6-8316-5980f7b176d1" vid="fe8d7416c92bdae56503590599286800"></item> 
    38983928<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="fProductDecomp" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="C4MIP [C_LandT1]" provNote="" rowIndex="23" shuffle="0" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="decomposition out of product pools to CO2 in atmos" type="" uid="8b8092e2-4a5b-11e6-9cd2-ac72891c3257" vid="590f933a-9e49-11e5-803c-0d0b866b59f3"></item> 
    38993929<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="tnhusscp" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="CFMIP [CFmon_3dstd_new]" provNote="" rowIndex="12" shuffle="0" stid="62eebe98-1617-11e7-a126-5404a60d96b5" title="Tendency of Specific Humidity Due to Stratiform Clouds and Precipitation" type="" uid="8b89d456-4a5b-11e6-9cd2-ac72891c3257" vid="59135d8a-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    39423972<item defaultPriority="2" deflate="" deflate_level="" description="" frequency="yr" label="o2sat" mipTable="Oyr" mipTableSection="Oyr_3dtr" modeling_realm="ocnBgChem" mtid="MIPtable::Oyr" positive="" prov="Oyr ((isd.003))" provNote="Oyr_3dtr" rowIndex="30" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" subGroup="Oyr_3dtr" title="Dissolved Oxygen Concentration at Saturation" type="real" uid="ba9e18b6-e5dd-11e5-8482-ac72891c3257" vid="e4e75ce1fe85a547cd0d39d4b64ec0e2"></item> 
    39433973<item defaultPriority="1" deflate="" deflate_level="" description="Cell areas for any grid used to report ocean variables and variables which are requested as used on the model ocean grid (e.g. hfsso, which is a downward heat flux from the atmosphere interpolated onto the ocean grid). These cell areas should be defined to enable exact calculation of global integrals (e.g., of vertical fluxes of energy at the surface and top of the atmosphere)." frequency="fx" label="areacello" mipTable="Ofx" modeling_realm="ocean" mtid="MIPtable::Ofx" positive="" processing="For oceans with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy." prov="Ofx ((isd.003))" provNote="" rowIndex="4" shuffle="" stid="295a7ef6-c92c-11e7-b9a8-1c4d70487308" title="Grid-Cell Area" type="real" uid="baa3ee94-e5dd-11e5-8482-ac72891c3257" vid="62c5b9728a01c0031e3a788ac4c8eff5"></item> 
    3944 <item defaultPriority="1" deflate="" deflate_level="" description="Overturning mass streamfunction arising from all advective mass transport processes, resolved and parameterized." frequency="mon" label="msftmyz" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocean" mtid="MIPtable::Omon" positive="" processing="function of latitude, Z, basin. For a model with a cartesian latxlon grid, this is the same as the &quot;Ocean Y Overturning Mass Streamfunction&quot;, listed a few lines down, which should in this case be omitted.  For other models, this transport should be approximated as the transport along zig-zag paths corresponding to latitudes with spacing between latitudes appropriate to the model resolution." prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="39" shuffle="" stid="529e94b4-1ed7-11e7-9366-ac72891c3257" subGroup="Omon_oth" title="Ocean Meridional Overturning Mass Streamfunction" type="real" uid="baa59d48-e5dd-11e5-8482-ac72891c3257" vid="fe8d7416c92bdae56503590599286800"></item> 
     3974<item defaultPriority="1" deflate="" deflate_level="" description="Overturning mass streamfunction arising from all advective mass transport processes, resolved and parameterized." frequency="mon" label="msftmz" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocean" mtid="MIPtable::Omon" positive="" processing="function of latitude, Z, basin. For a model with a cartesian latxlon grid, this is the same as the &quot;Ocean Y Overturning Mass Streamfunction&quot;, listed a few lines down, which should in this case be omitted.  For other models, this transport should be approximated as the transport along zig-zag paths corresponding to latitudes with spacing between latitudes appropriate to the model resolution." prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="39" shuffle="" stid="529e94b4-1ed7-11e7-9366-ac72891c3257" subGroup="Omon_oth" title="Ocean Meridional Overturning Mass Streamfunction" type="real" uid="baa59d48-e5dd-11e5-8482-ac72891c3257" vid="fe8d7416c92bdae56503590599286800"></item> 
    39453975<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="day" label="hfss" mipTable="day" mipTableSection="day_ss" modeling_realm="atmos" mtid="MIPtable::day" positive="up" prov="day ((isd.003))" provNote="day_ss" rowIndex="40" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="day_ss" title="Surface Upward Sensible Heat Flux" type="real" uid="baaf91cc-e5dd-11e5-8482-ac72891c3257" vid="a13ed886b17e20cdae8b89b9ff8e4610"></item> 
    39463976<item defaultPriority="3" deflate="0" deflate_level="0" description="" frequency="mon" label="siforcecoriolx" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="76" shuffle="0" stid="f94c7fbc-80ba-11e6-ab6e-5404a60d96b5" title="Coriolis force term in force balance (x-component)" type="" uid="714b545a-faa7-11e6-bfb7-ac72891c3257" vid="590e3ee0-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    39483978<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="1hr" label="sfpm25" mipTable="AERhr" mipTableSection="AERhr" modeling_realm="aerosol" mtid="MIPtable::AERhr" positive="" prov="AERhr ((isd.003))" provNote="AERhr" rowIndex="-1" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="PM2.5 mass mixing ratio in lowest model layer" type="float" uid="19c074b4-81b1-11e6-92de-ac72891c3257" vid="fe6cc8a8-a41f-11e5-9025-ac72891c3257"></item> 
    39493979<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="od865dust" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="PMIP [PMIP-aero-02]" provNote="" rowIndex="22" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Optical thickness at 865 nm Dust" type="" uid="6f6c0526-9acb-11e6-b7ee-ac72891c3257" vid="5914c0ee-9e49-11e5-803c-0d0b866b59f3"></item> 
    3950 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsucsbnd" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="" prov="RFMIP [aero_irf]" provNote="" rowIndex="23" shuffle="0" stid="63c353f8-15f2-11e7-87e0-5404a60d96b5" title="Upwelling Clear-Sky Shortwave Radiation at each level for each band" type="" uid="7b3055ae-a220-11e6-a33f-ac72891c3257" vid="eb85339e-a0de-11e6-bc63-ac72891c3257"></item> 
     3980<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsucsbnd" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="" prov="RFMIP [aero_irf]" provNote="" rowIndex="23" shuffle="0" stid="63c353f8-15f2-11e7-87e0-5404a60d96b5" title="Upwelling Clear-Sky Shortwave Radiation at each level for each band" type="real" uid="7b3055ae-a220-11e6-a33f-ac72891c3257" vid="eb85339e-a0de-11e6-bc63-ac72891c3257"></item> 
    39513981<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="day" label="tdps" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="DCPP [DCPP-day]" provNote="" rowIndex="42" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="2m dewpoint temperature" type="" uid="8b926364-4a5b-11e6-9cd2-ac72891c3257" vid="4f3e5df56723b77c87e15cce7594ab94"></item> 
    39523982<item defaultPriority="3" deflate="" deflate_level="" description="Model levels or plev_27" frequency="1hrPt" label="wap27" mipTable="E1hr" modeling_realm="atmos" mtid="MIPtable::E1hr" positive="" prov="HighResMIP [1hr_strat]" provNote="" rowIndex="15" shuffle="" stid="f7ea8046-562c-11e6-a2a4-ac72891c3257" title="omega (=dp/dt)" type="real" uid="8bb0fa18-4a5b-11e6-9cd2-ac72891c3257" vid="51fb29dd55442361fa9c5dbe23aca9c6"></item> 
     
    41674197<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="6hrPt" label="rv850" mipTable="6hrPlevPt" mipTableSection="aer6hr" modeling_realm="atmos" mtid="MIPtable::6hrPlevPt" positive="" prov="6hrPlev ((isd.003))" provNote="aer6hr" rowIndex="-1" shuffle="" stid="62eedca2-1617-11e7-a126-5404a60d96b5" title="Relative Vorticity at 850 hPa" type="float" uid="7c70ee64-1ab7-11e7-8dfc-5404a60d96b5" vid="590ece46-9e49-11e5-803c-0d0b866b59f3"></item> 
    41684198<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="subhrPt" label="rsdscs" mipTable="CFsubhr" modeling_realm="atmos" mtid="MIPtable::CFsubhr" positive="down" processing="This table includes the 2-D variables listed in the &quot;Amon&quot; spreadsheet, omitting, however, the daily maximum and minimum temperatures.  All variables should be reported as synoptic fields, not daily means." prov="CFsubhr ((isd.003))" provNote="" rowIndex="1038" shuffle="" stid="63c0a932-15f2-11e7-87e0-5404a60d96b5" title="Surface Downwelling Clear-Sky Shortwave Radiation" type="real" uid="8008dbd6-f906-11e6-a176-5404a60d96b5" vid="d0a35d5c99a0aa93ad4069cfe83bf748"></item> 
    4169 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsdscsaf" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="down" prov="RFMIP [aero_irf]" provNote="" rowIndex="11" shuffle="0" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" title="Surface Downwelling Clear-Sky, Aerosol-Free Shortwave Radiation" type="" uid="916b703e-267c-11e7-8933-ac72891c3257" vid="590daf66-9e49-11e5-803c-0d0b866b59f3"></item> 
     4199<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsdscsaf" mipTable="E3hrPt" modeling_realm="aerosol" mtid="MIPtable::E3hrPt" positive="down" prov="RFMIP [aero_irf]" provNote="" rowIndex="11" shuffle="0" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" title="Surface Downwelling Clear-Sky, Aerosol-Free Shortwave Radiation" type="real" uid="916b703e-267c-11e7-8933-ac72891c3257" vid="590daf66-9e49-11e5-803c-0d0b866b59f3"></item> 
    41704200<item defaultPriority="3" deflate="" deflate_level="" description="" frequency="monC" label="difmxylo2d" mipTable="Oclim" modeling_realm="ocean" mtid="MIPtable::Oclim" positive="" processing="2-d time dependent field" prov="Oclim ((isd.003))" provNote="" rowIndex="43" shuffle="" stid="e9f90b70-c1ce-11e6-8067-ac72891c3257" title="Ocean Momentum XY Laplacian Diffusivity" type="real" uid="a92a1360-817c-11e6-a4e2-5404a60d96b5" vid="64c32fcf490e2e5e9918a5401fa48424"></item> 
    41714201<item defaultPriority="3" deflate="" deflate_level="" description="vertical integral of net biological terms in time rate of change of phosphorus" frequency="mon" label="fbddtdip" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocnBgChem" mtid="MIPtable::Omon" positive="" processing="integral over upper 100 m only." prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="185" shuffle="" stid="63c0988e-15f2-11e7-87e0-5404a60d96b5" subGroup="Omon_oth" title="Rate of Change of Dissolved Inorganic Phosphorus due to Biological Activity" type="real" uid="baa1457c-e5dd-11e5-8482-ac72891c3257" vid="2f046f30404d6cfcd5286a2a7f12d8fa"></item> 
     
    42114241<item defaultPriority="2" deflate="" deflate_level="" description="The net mass flux  represents the difference between the updraft and downdraft components.   This is calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud)." frequency="mon" label="dmc" mipTable="CFmon" mipTableSection="CFmon_3dstd" modeling_realm="atmos" mtid="MIPtable::CFmon" positive="up" processing="Report on model half-levels (i.e., model layer bounds and not standard pressures)." prov="CFmon ((isd.003))" provNote="CFmon_3dstd" rowIndex="49" shuffle="" stid="f7e87814-562c-11e6-a2a4-ac72891c3257" subGroup="cfMon_3dstd" title="Deep Convective Mass Flux" type="real" uid="baac1790-e5dd-11e5-8482-ac72891c3257" vid="517f72b8577df7e97ce2dea8f1143e94"></item> 
    42124242<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="mon" label="tauu" mipTable="Amon" mipTableSection="Amon_2d" modeling_realm="atmos" mtid="MIPtable::Amon" positive="down" prov="Amon ((isd.003))" provNote="Amon_2d" rowIndex="30" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="Amon_2d" title="Surface Downward Eastward Wind Stress" type="real" uid="bab96cc4-e5dd-11e5-8482-ac72891c3257" vid="3abb7c5b4c4650e9d17a8439004aebea"></item> 
    4213 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsdscsbnd" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="down" prov="RFMIP [aero_irf]" provNote="" rowIndex="17" shuffle="0" stid="63c22a14-15f2-11e7-87e0-5404a60d96b5" title="Surface Downwelling Clear-Sky Shortwave Radiation for each band" type="" uid="7b304028-a220-11e6-a33f-ac72891c3257" vid="398683d4-a0dc-11e6-bc63-ac72891c3257"></item> 
     4243<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsdscsbnd" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="down" prov="RFMIP [aero_irf]" provNote="" rowIndex="17" shuffle="0" stid="63c22a14-15f2-11e7-87e0-5404a60d96b5" title="Surface Downwelling Clear-Sky Shortwave Radiation for each band" type="real" uid="7b304028-a220-11e6-a33f-ac72891c3257" vid="398683d4-a0dc-11e6-bc63-ac72891c3257"></item> 
    42144244<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="rainmxrat27" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="HighResMIP [Amon_diag]" provNote="" rowIndex="23" shuffle="0" stid="f7ea1f3e-562c-11e6-a2a4-ac72891c3257" title="rain_mixing_ratio" type="" uid="8baffcd0-4a5b-11e6-9cd2-ac72891c3257" vid="5914b9be-9e49-11e5-803c-0d0b866b59f3"></item> 
    42154245<item defaultPriority="2" deflate="" deflate_level="" description="sum of phytoplankton silica component concentrations" frequency="yr" label="physi" mipTable="Oyr" mipTableSection="Oyr_3dtr" modeling_realm="ocnBgChem" mtid="MIPtable::Oyr" positive="" prov="Oyr ((isd.003))" provNote="Oyr_3dtr" rowIndex="49" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" subGroup="Oyr_3dtr" title="Mole Concentration of Total Phytoplankton expressed as Silicon in sea water" type="real" uid="ba9e6d5c-e5dd-11e5-8482-ac72891c3257" vid="6cde3055df67931d84608fc5b7694f65"></item> 
     
    42444274<item defaultPriority="1" deflate="" deflate_level="" description="quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods" frequency="mon" label="tsn" mipTable="ImonGre" modeling_realm="landIce land" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="6" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Snow Internal Temperature" type="real" uid="d5b2853c-c78d-11e6-9b25-5404a60d96b5" vid="15fd6126b9fb057118c71df94403e30c"></item> 
    42454275<item defaultPriority="3" deflate="" deflate_level="" description="" frequency="mon" label="fbddtdic" mipTable="Emon" modeling_realm="ocnBgChem" mtid="MIPtable::Emon" positive="" prov="C4MIP [C_Ocean_T2]" provNote="" rowIndex="60" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" title="Rate of Change of Dissolved Inorganic Carbon due to Biological Activity" type="real" uid="e709035e-aa7f-11e6-9a4a-5404a60d96b5" vid="0f19e65613afd83f8d9b888d2067ced4"></item> 
    4246 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsucsaf" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="" prov="RFMIP [aero_irf]" provNote="" rowIndex="19" shuffle="0" stid="f7dcede6-562c-11e6-a2a4-ac72891c3257" title="Upwelling Clean-Clear-Sky Shortwave Radiation at each level" type="" uid="916b8dd0-267c-11e7-8933-ac72891c3257" vid="ea313ee8-a0de-11e6-bc63-ac72891c3257"></item> 
     4276<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsucsaf" mipTable="E3hrPt" modeling_realm="aerosol" mtid="MIPtable::E3hrPt" positive="" prov="RFMIP [aero_irf]" provNote="" rowIndex="19" shuffle="0" stid="f7dcede6-562c-11e6-a2a4-ac72891c3257" title="Upwelling Clean-Clear-Sky Shortwave Radiation at each level" type="real" uid="916b8dd0-267c-11e7-8933-ac72891c3257" vid="ea313ee8-a0de-11e6-bc63-ac72891c3257"></item> 
    42474277<item defaultPriority="3" deflate="" deflate_level="" description="Primary (organic carbon) production by picophytoplankton components alone" frequency="yr" label="pppico" mipTable="Oyr" modeling_realm="ocnBgChem" mtid="MIPtable::Oyr" positive="" prov="Oyr ((isd.003))" provNote="" rowIndex="79" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" title="Net Primary Mole Productivity of Carbon by Picophytoplankton" type="real" uid="ba9edb84-e5dd-11e5-8482-ac72891c3257" vid="e527532a-dd83-11e5-9194-ac72891c3257"></item> 
    42484278<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="day" label="cl" mipTable="CFday" mipTableSection="CFday_3d" modeling_realm="atmos" mtid="MIPtable::CFday" positive="" prov="CFday ((isd.003))" provNote="CFday_3d" rowIndex="52" shuffle="" stid="62eebe98-1617-11e7-a126-5404a60d96b5" subGroup="cfDay_3d" title="Cloud Area Fraction in Atmosphere Layer" type="real" uid="baaa4a8c-e5dd-11e5-8482-ac72891c3257" vid="e0ecf1c1305c1bdc69bee0e7ba1e2e03"></item> 
     
    44064436<item defaultPriority="1" deflate="" deflate_level="" description="Upward mass transport from residual mean (resolved plus parameterized) advective transport." frequency="mon" label="wmo" mipTable="Omon" mipTableSection="Omon_3d" modeling_realm="ocean" mtid="MIPtable::Omon" positive="" processing="Report on native horizontal grid. Online mapping to depth/pressure vertical grid if depth or pressure are not native." prov="Omon ((isd.003))" provNote="Omon_3d" rowIndex="36" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" subGroup="Omon_3d" title="Upward Ocean Mass Transport" type="real" uid="baa58f74-e5dd-11e5-8482-ac72891c3257" vid="05b30c1e249f6854ffc0b3f7676eed73"></item> 
    44074437<item defaultPriority="2" deflate="" deflate_level="" description="This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell)." frequency="3hrPt" label="reffclws" mipTable="CF3hr" mipTableSection="CF3hr_grid" modeling_realm="atmos" mtid="MIPtable::CF3hr" positive="" prov="CF3hr ((isd.003))" provNote="CF3hr_grid" rowIndex="27" shuffle="" stid="f7dcede6-562c-11e6-a2a4-ac72891c3257" subGroup="cf3hr_grid" title="Hydrometeor Effective Radius of Stratiform Cloud Liquid Water" type="real" uid="bab4dfc4-e5dd-11e5-8482-ac72891c3257" vid="ed2fff61c68d8a09d5034168e82ae862"></item> 
    4408 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="rsusLut" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="up" prov="LUMIP [Lmon_Lut]" provNote="" rowIndex="16" shuffle="0" stid="e9fa6830-c1ce-11e6-8067-ac72891c3257" title="Surface Upwelling Shortwave  on Land Use Tile" type="" uid="d22dc856-4a9f-11e6-b84e-ac72891c3257" vid="5912e6d4-9e49-11e5-803c-0d0b866b59f3"></item> 
     4438<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="rsusLut" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="up" prov="LUMIP [Lmon_Lut]" provNote="" rowIndex="16" shuffle="0" stid="e9fa6830-c1ce-11e6-8067-ac72891c3257" title="Surface Upwelling Shortwave  on Land Use Tile" type="real" uid="d22dc856-4a9f-11e6-b84e-ac72891c3257" vid="5912e6d4-9e49-11e5-803c-0d0b866b59f3"></item> 
    44094439<item defaultPriority="1" deflate="" deflate_level="" description="This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T&lt;0 C." frequency="day" label="hursmin" mipTable="day" mipTableSection="day_oth" modeling_realm="atmos" mtid="MIPtable::day" positive="" processing="normally report this at 2 meters above the surface" prov="day ((isd.003))" provNote="day_oth" rowIndex="27" shuffle="" stid="f7e59f36-562c-11e6-a2a4-ac72891c3257" subGroup="day_oth" title="Surface Daily Minimum Relative Humidity" type="real" uid="5a0711f6-c77d-11e6-8a33-5404a60d96b5" vid="59152bba-9e49-11e5-803c-0d0b866b59f3"></item> 
    44104440<item defaultPriority="1" deflate="" deflate_level="" description="zonal mean; hence YZT" frequency="mon" label="tntmp" mipTable="EmonZ" modeling_realm="atmos" mtid="MIPtable::EmonZ" positive="" prov="DynVar [DYVR_monthly_b]" provNote="" rowIndex="8" shuffle="" stid="f7e94ce4-562c-11e6-a2a4-ac72891c3257" title="Tendency of Air Temperature due to Model Physics" type="real" uid="607e74a6-bf0e-11e6-aae4-ac72891c3257" vid="621681bc7c376de66228fdde13b97516"></item> 
     
    45364566<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="nppTree" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="C4MIP [C_LandT2]" provNote="" rowIndex="55" shuffle="0" stid="fa260328-267c-11e7-9bed-ac72891c3257" title="net primary production on tree tiles" type="" uid="e7076d96-aa7f-11e6-9a4a-5404a60d96b5" vid="84f10e7a-acb7-11e6-b5ee-ac72891c3257"></item> 
    45374567<item defaultPriority="1" deflate="" deflate_level="" description="The mean age of air is defined as the mean time that a stratospheric air mass has been out of contact with the well-mixed troposphere." frequency="mon" label="meanage" mipTable="AERmonZ" mipTableSection="aerzonal-vert" modeling_realm="aerosol" mtid="MIPtable::AERmonZ" positive="" prov="AERmonZ ((isd.003))" provNote="aerzonal-vert" rowIndex="-1" shuffle="" stid="f7e94ce4-562c-11e6-a2a4-ac72891c3257" title="Mean Age of Stratospheric Air" type="float" uid="3a049b80-9c3a-11e6-8d5d-ac72891c3257" vid="e703d0fcbdd5f975485b3404a331ed91"></item> 
    4538 <item defaultPriority="1" deflate="" deflate_level="" description="Sea Salt Mass Mixing Ratio" frequency="mon" label="mmrss" mipTable="Emon" modeling_realm="aerosol" mtid="MIPtable::Emon" positive="" prov="PMIP [PMIP-aero-02]" provNote="" rowIndex="17" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Sea Salt mass mixing ratio" type="float" uid="6f6beeec-9acb-11e6-b7ee-ac72891c3257" vid="5980f8e283fd4709e4542c0652756dc1"></item> 
     4568<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="siflcondtop" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="57" shuffle="0" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="Net conductive heat flux in ice at the surface" type="" uid="711489d4-faa7-11e6-bfb7-ac72891c3257" vid="590ecbda-9e49-11e5-803c-0d0b866b59f3"></item> 
    45394569<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="grassFracC3" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="C4MIP [C_LandT2]" provNote="" rowIndex="10" shuffle="0" stid="fa26335c-267c-11e7-9bed-ac72891c3257" title="C3 grass Area Percentage" type="" uid="8b814764-4a5b-11e6-9cd2-ac72891c3257" vid="590dc8ac-9e49-11e5-803c-0d0b866b59f3"></item> 
    45404570<item defaultPriority="1" deflate="" deflate_level="" description="Abiotic Dissolved inorganic 14carbon (CO3+HCO3+H2CO3) concentration" frequency="yr" label="dissi14cabio" mipTable="Oyr" mipTableSection="Oyr_3dtr" modeling_realm="ocnBgChem" mtid="MIPtable::Oyr" positive="" prov="Oyr ((isd.003))" provNote="Oyr_3dtr" rowIndex="7" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" subGroup="Oyr_3dtr" title="Abiotic Dissolved Inorganic 14Carbon Concentration" type="real" uid="ba9db7cc-e5dd-11e5-8482-ac72891c3257" vid="1391b0d99790cec6597b02ce4d7c5a67"></item> 
     
    45444574<item defaultPriority="1" deflate="0" deflate_level="0" description="water_flux_to_downstream" frequency="day" label="rivi" mipTable="Eday" modeling_realm="land" mtid="MIPtable::Eday" positive="" prov="LS3MIP [LWday]" provNote="" rowIndex="27" shuffle="0" stid="52a3bdee-cba8-11e7-b9a8-1c4d70487308" title="River Inflow" type="" uid="d2285fce-4a9f-11e6-b84e-ac72891c3257" vid="590e034e-9e49-11e5-803c-0d0b866b59f3"></item> 
    45454575<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="pastureFracC4" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="C4MIP [C_LandT2]" provNote="" rowIndex="15" shuffle="0" stid="fa2610ca-267c-11e7-9bed-ac72891c3257" title="C4 Pasture Area Percentage" type="" uid="e706df98-aa7f-11e6-9a4a-5404a60d96b5" vid="84eff3c8-acb7-11e6-b5ee-ac72891c3257"></item> 
    4546 <item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="siflcondtop" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="57" shuffle="0" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="Net conductive heat flux in ice at the surface" type="" uid="711489d4-faa7-11e6-bfb7-ac72891c3257" vid="590ecbda-9e49-11e5-803c-0d0b866b59f3"></item> 
    45474576<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="vtendnogw" mipTable="EmonZ" modeling_realm="atmos" mtid="MIPtable::EmonZ" positive="" prov="HighResMIP [Amon_sparc]" provNote="" rowIndex="37" shuffle="0" stid="f7e94ce4-562c-11e6-a2a4-ac72891c3257" title="v-tendency nonorographic gravity wave drag" type="" uid="8183eac8-f906-11e6-a176-5404a60d96b5" vid="59170700-9e49-11e5-803c-0d0b866b59f3"></item> 
    45484577<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="subhrPt" label="rsd" mipTable="CFsubhr" modeling_realm="atmos" mtid="MIPtable::CFsubhr" positive="down" processing="Report on model half-levels (i.e., interfaces between model layers)." prov="CFsubhr ((isd.003))" provNote="" rowIndex="29" shuffle="" stid="f7e4dd1c-562c-11e6-a2a4-ac72891c3257" title="Downwelling Shortwave Radiation" type="real" uid="a9550dd6-817c-11e6-a4e2-5404a60d96b5" vid="eb9ac643cd9c73cae960d6d2db7b901d"></item> 
     
    46004629<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="wap2" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="HighResMIP [Amon_sparc]" provNote="" rowIndex="19" shuffle="0" stid="62eebe98-1617-11e7-a126-5404a60d96b5" title="square_of_omega" type="" uid="8baf39ee-4a5b-11e6-9cd2-ac72891c3257" vid="591371b2-9e49-11e5-803c-0d0b866b59f3"></item> 
    46014630<item defaultPriority="2" deflate="" deflate_level="" description="fraction of entire grid cell  that is covered by primary evergreen trees." frequency="mon" label="treeFracPrimEver" mipTable="Lmon" modeling_realm="land" mtid="MIPtable::Lmon" positive="" processing="Note that if this variable is independent of time, it should be stored only for a single time (user choice)." prov="Lmon ((isd.003))" provNote="" rowIndex="62" shuffle="" stid="fa227410-267c-11e7-9bed-ac72891c3257" title="Total Primary Evergreen Tree Cover Fraction" type="real" uid="babac2c2-e5dd-11e5-8482-ac72891c3257" vid="1e93ae651487e683206b923c11fd6db1"></item> 
    4602 <item defaultPriority="1" deflate="" deflate_level="" description="grid-cell volume ca. 2000." frequency="fx" label="volcello" mipTable="Ofx" modeling_realm="ocean" mtid="MIPtable::Ofx" positive="" processing="a 3-d field: For oceans with more than 1 mesh, report on grid that applies to temperature" prov="fx ((isd.003))" provNote="" rowIndex="22" shuffle="" stid="62ee7ee2-1617-11e7-a126-5404a60d96b5" title="Ocean Grid-Cell Volume" type="real" uid="babcc39c-e5dd-11e5-8482-ac72891c3257" vid="4c69515bfc84c5cb5624e94228f58351"></item> 
     4631<item defaultPriority="1" deflate="" deflate_level="" description="For oceans with more than 1 mesh (e.g. staggered grids), report areas that apply to surface vertical fluxes of energy. If this field is time-dependent then save it instead as one of your Omon and Odec fields" frequency="fx" label="volcello" mipTable="Ofx" modeling_realm="ocean" mtid="MIPtable::Ofx" positive="" processing="a 3-d field: For oceans with more than 1 mesh, report on grid that applies to temperature" prov="fx ((isd.003))" provNote="" rowIndex="22" shuffle="" stid="62ee7ee2-1617-11e7-a126-5404a60d96b5" title="Ocean Grid-Cell Volume" type="real" uid="babcc39c-e5dd-11e5-8482-ac72891c3257" vid="4c69515bfc84c5cb5624e94228f58351"></item> 
    46034632<item defaultPriority="1" deflate="0" deflate_level="0" description="shortwave heating rate due to volcanic aerosols to be diagnosed through double radiation call, zonal average values required" frequency="6hrPt" label="zmswaero" mipTable="E6hrZ" modeling_realm="atmos" mtid="MIPtable::E6hrZ" positive="" prov="VolMIP [VIRF]" provNote="" rowIndex="6" shuffle="0" stid="e4af3a60-8946-11e6-a0c4-5404a60d96b5" title="Zonal mean shortwave heating rate due to volcanic aerosols" type="" uid="d24a226c-4a9f-11e6-b84e-ac72891c3257" vid="590d64f2-9e49-11e5-803c-0d0b866b59f3"></item> 
    46044633<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="cldnci" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="GeoMIP [aeroGeo]" provNote="" rowIndex="15" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Ice Crystal Number Concentration of Cloud Tops" type="" uid="6f36e864-9acb-11e6-b7ee-ac72891c3257" vid="59d5c1ca37702f3ab916f1c9096d8f7f"></item> 
     
    46124641<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="raGrass" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="C4MIP [C_LandT2]" provNote="" rowIndex="60" shuffle="0" stid="fa246dce-267c-11e7-9bed-ac72891c3257" title="autotrophic respiration on grass tiles" type="" uid="e70785c4-aa7f-11e6-9a4a-5404a60d96b5" vid="84f105a6-acb7-11e6-b5ee-ac72891c3257"></item> 
    46134642<item defaultPriority="1" deflate="0" deflate_level="0" description="Vertically averaged ocean temperature" frequency="mon" label="thetaot" mipTable="Emon" modeling_realm="ocean" mtid="MIPtable::Emon" positive="" prov="PMIP [PMIP-Omon-02]" provNote="" rowIndex="32" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="Vertically Averaged Sea Water Potential Temperature" type="" uid="6f69f1b4-9acb-11e6-b7ee-ac72891c3257" vid="b5bc9b1fa92a35cec5989eeac3d77d1a"></item> 
    4614 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="day" label="rsdscsdiff" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="down" prov="CFMIP [aeroDay_2d]" provNote="" rowIndex="24" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Surface Diffuse Downwelling Clear Sky Shortwave Radiation" type="" uid="7d8c6a76-1ab7-11e7-8dfc-5404a60d96b5" vid="6ca9dd8a089b15fb96841e9fe56411cf"></item> 
     4643<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="day" label="rsdscsdiff" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="down" prov="CFMIP [aeroDay_2d]" provNote="" rowIndex="24" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Surface Diffuse Downwelling Clear Sky Shortwave Radiation" type="real" uid="7d8c6a76-1ab7-11e7-8dfc-5404a60d96b5" vid="6ca9dd8a089b15fb96841e9fe56411cf"></item> 
    46154644<item defaultPriority="3" deflate="0" deflate_level="0" description="" frequency="subhrPt" label="ua" mipTable="Esubhr" modeling_realm="atmos" mtid="MIPtable::Esubhr" positive="" prov="HighResMIP [1ts]" provNote="" rowIndex="17" shuffle="0" stid="f7dcede6-562c-11e6-a2a4-ac72891c3257" title="Eastward Wind" type="" uid="8bb17060-4a5b-11e6-9cd2-ac72891c3257" vid="21db90c0a12448299f855fdab60930d4"></item> 
    46164645<item defaultPriority="2" deflate="" deflate_level="" description="From all advective mass transport processes, resolved and parameterized." frequency="mon" label="sltovovrt" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocean" mtid="MIPtable::Omon" positive="" processing="function of latitude, basin" prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="59" shuffle="" stid="f7df8fce-562c-11e6-a2a4-ac72891c3257" subGroup="Omon_oth" title="Northward Ocean Salt Transport due to Overturning" type="real" uid="baa5fc0c-e5dd-11e5-8482-ac72891c3257" vid="d0f7da4833bd90226f521ddbf0dbcb63"></item> 
     
    47334762<item defaultPriority="1" deflate="" deflate_level="" description="surface pressure, not mean sea level pressure" frequency="6hrPt" label="ps" mipTable="6hrLev" modeling_realm="atmos" mtid="MIPtable::6hrLev" positive="" prov="6hrLev ((isd.003))" provNote="" rowIndex="18" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" title="Surface Air Pressure" type="real" uid="bab46b70-e5dd-11e5-8482-ac72891c3257" vid="8c9504d28596e05586c8e193082ac617"></item> 
    47344763<item defaultPriority="1" deflate="" deflate_level="" description="Zonal wind on the 10 hPa surface" frequency="day" label="ua10" mipTable="AERday" mipTableSection="AERday" modeling_realm="aerosol" mtid="MIPtable::AERday" positive="" prov="AERday ((isd.003))" provNote="AERday" rowIndex="-1" shuffle="" stid="62eed4c8-1617-11e7-a126-5404a60d96b5" title="Eastward Wind at 10 hPa" type="float" uid="19bdde3e-81b1-11e6-92de-ac72891c3257" vid="0cde14f7745a201d47b856579bf6e759"></item> 
    4735 <item defaultPriority="1" deflate="0" deflate_level="0" description="quantity averaged over ice_sheet (meaning grounded ice sheet and floating ice shelf) only, to avoid contamination from other surfaces (eg: permafrost)" frequency="mon" label="rsusIs" mipTable="LImon" mipTableSection="new" modeling_realm="landIce" mtid="MIPtable::LImon" positive="up" prov="ISMIP6 [new_LImon]" provNote="" rowIndex="25" shuffle="0" stid="f94a76ea-80ba-11e6-ab6e-5404a60d96b5" title="Ice Sheet Surface Upwelling Shortwave Radiation" type="" uid="81212218-bf17-11e6-b0d8-ac72891c3257" vid="53828236-bf01-11e6-a554-ac72891c3257"></item> 
     4764<item defaultPriority="1" deflate="0" deflate_level="0" description="quantity averaged over ice_sheet (meaning grounded ice sheet and floating ice shelf) only, to avoid contamination from other surfaces (eg: permafrost)" frequency="mon" label="rsusIs" mipTable="LImon" mipTableSection="new" modeling_realm="landIce" mtid="MIPtable::LImon" positive="up" prov="ISMIP6 [new_LImon]" provNote="" rowIndex="25" shuffle="0" stid="f94a76ea-80ba-11e6-ab6e-5404a60d96b5" title="Ice Sheet Surface Upwelling Shortwave Radiation" type="real" uid="81212218-bf17-11e6-b0d8-ac72891c3257" vid="53828236-bf01-11e6-a554-ac72891c3257"></item> 
    47364765<item defaultPriority="1" deflate="" deflate_level="" description="Provide for models with unstructured grids only" frequency="fx" label="ugrid" mipTable="Ofx" modeling_realm="ocean" mtid="MIPtable::Ofx" positive="" prov="scanDreq.py" provNote="CMIP extra" rowIndex="0" shuffle="" stid="4f06575c-2674-11e7-96a5-ac72891c3257" title="UGRID Grid Information" type="float" uid="55e71213b0f6e3e098a0f0112beb2d50c2732f0a" vid="962e51dc-267b-11e7-96a5-ac72891c3257"></item> 
    47374766<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="rhLitter" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="C4MIP [C_LandT2]" provNote="" rowIndex="50" shuffle="0" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Carbon Mass Flux into Atmosphere due to Heterotrophic Respiration from Litter on Land" type="" uid="8b81baaa-4a5b-11e6-9cd2-ac72891c3257" vid="59136654-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    47814810<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="fCLandToOcean" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="C4MIP [C_LandT1]" provNote="" rowIndex="18" shuffle="0" stid="52a3bdee-cba8-11e7-b9a8-1c4d70487308" title="Lateral transfer of carbon out of gridcell that eventually goes into ocean" type="" uid="8b807604-4a5b-11e6-9cd2-ac72891c3257" vid="590ddf9a-9e49-11e5-803c-0d0b866b59f3"></item> 
    47824811<item defaultPriority="3" deflate="" deflate_level="" description="Sea level pressure" frequency="1hrPt" label="psl" mipTable="E1hr" modeling_realm="atmos" mtid="MIPtable::E1hr" positive="" prov="HighResMIP [1hr_strat]" provNote="" rowIndex="22" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" title="Sea Level Pressure" type="real" uid="8bb11ef8-4a5b-11e6-9cd2-ac72891c3257" vid="3d23c359f44d6a153c4dcab9e07d7cb6"></item> 
    4783 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsdcsafbnd" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="down" prov="RFMIP [aero_irf]" provNote="" rowIndex="22" shuffle="0" stid="63c353f8-15f2-11e7-87e0-5404a60d96b5" title="Downwelling Clear-Sky, Aerosol-Free, Shortwave Radiation in Bands" type="" uid="916b98d4-267c-11e7-8933-ac72891c3257" vid="eb28c564-a0de-11e6-bc63-ac72891c3257"></item> 
     4812<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsdcsafbnd" mipTable="E3hrPt" modeling_realm="aerosol" mtid="MIPtable::E3hrPt" positive="down" prov="RFMIP [aero_irf]" provNote="" rowIndex="22" shuffle="0" stid="63c353f8-15f2-11e7-87e0-5404a60d96b5" title="Downwelling Clear-Sky, Aerosol-Free, Shortwave Radiation in Bands" type="real" uid="916b98d4-267c-11e7-8933-ac72891c3257" vid="eb28c564-a0de-11e6-bc63-ac72891c3257"></item> 
    47844813<item defaultPriority="1" deflate="" deflate_level="" description="Abiotic Dissolved inorganic carbon (CO3+HCO3+H2CO3) concentration" frequency="yr" label="dissicabio" mipTable="Oyr" mipTableSection="Oyr_3dtr" modeling_realm="ocnBgChem" mtid="MIPtable::Oyr" positive="" prov="Oyr ((isd.003))" provNote="Oyr_3dtr" rowIndex="6" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" subGroup="Oyr_3dtr" title="Abiotic Dissolved Inorganic Carbon Concentration" type="real" uid="ba9db38a-e5dd-11e5-8482-ac72891c3257" vid="55febff83b78e06576947e1c0e5b7a7d"></item> 
    47854814<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="fx" label="hfgeou" mipTable="Ofx" modeling_realm="ocean" mtid="MIPtable::Ofx" positive="up" processing="If this field is time-dependent then save it instead as one of your Omon fields (see the Omon table)" prov="Ofx ((isd.003))" provNote="" rowIndex="7" shuffle="" stid="62eebbb4-1617-11e7-a126-5404a60d96b5" title="Upward Geothermal Heat Flux at Sea Floor" type="real" uid="baa3fb50-e5dd-11e5-8482-ac72891c3257" vid="1418ccb847c5c235176620baf22d7b33"></item> 
     
    48404869<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="3hrPt" label="rsus" mipTable="CF3hr" mipTableSection="CF3hr_grid" modeling_realm="atmos" mtid="MIPtable::CF3hr" positive="up" prov="CFMIP (CMIP5)" provNote="Amon_2d" rowIndex="237" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" subGroup="Amon_2d" title="Surface Upwelling Shortwave Radiation" type="real" uid="e0ab67f8-4b7f-11e7-903f-5404a60d96b5" vid="70bf79db957daa3b82413da949233ac7"></item> 
    48414870<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="raShrub" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="C4MIP [C_LandT2]" provNote="" rowIndex="59" shuffle="0" stid="fa243638-267c-11e7-9bed-ac72891c3257" title="autotrophic respiration on Shrub tiles" type="" uid="e707816e-aa7f-11e6-9a4a-5404a60d96b5" vid="84f108a8-acb7-11e6-b5ee-ac72891c3257"></item> 
    4842 <item defaultPriority="3" deflate="" deflate_level="" description="" frequency="mon" label="fgdms" mipTable="Emon" modeling_realm="ocnBgChem" mtid="MIPtable::Emon" positive="down" prov="C4MIP [C_Ocean_T2]" provNote="" rowIndex="50" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" title="Surface Upward Flux of DMS" type="real" uid="e708d636-aa7f-11e6-9a4a-5404a60d96b5" vid="190f38cb06f9a1f3133c3dcf66e0421e"></item> 
    48434871<item defaultPriority="1" deflate="" deflate_level="" description="dry deposition includes gravitational settling, impact scavenging, and turbulent deposition" frequency="mon" label="dryso2" mipTable="AERmon" mipTableSection="AERmon-oth" modeling_realm="aerosol" mtid="MIPtable::AERmon" positive="" prov="AERmon ((isd.003))" provNote="AERmon-oth" rowIndex="-1" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="dry deposition rate of so2" type="float" uid="19bf521e-81b1-11e6-92de-ac72891c3257" vid="e49733975533eeec7407d54d8373b155"></item> 
    48444872<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="H2p" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="PMIP [PMIP-Amon-02]" provNote="" rowIndex="8" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="2H in total precipitation" type="" uid="6f68b074-9acb-11e6-b7ee-ac72891c3257" vid="590e105a-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    49104938<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="mon" label="wetdust" mipTable="AERmon" mipTableSection="AERmon-oth" modeling_realm="aerosol" mtid="MIPtable::AERmon" positive="" prov="AERmon ((isd.003))" provNote="AERmon-oth" rowIndex="-1" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="wet deposition rate of dust" type="float" uid="19be7024-81b1-11e6-92de-ac72891c3257" vid="0f914086f4c1cd76f867eef7cd71154d"></item> 
    49114939<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="monC" label="o3Clim" mipTable="Amon" mipTableSection="Amon_oth" modeling_realm="atmos atmosChem" mtid="MIPtable::Amon" positive="" processing="If O3 does not vary from one year to the next, report 12 months, starting with January.   (Note: include all 12 months even if the values do not vary seasonally.)  When calling CMOR, identify this variable as tro3Clim, not tro3. If the O3 varies from one year to the next,  then report instead the field described in the previous table entry.  Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or should we also require either the vertically integrated mole fraction (or mass?) of this species or the vertically integrated globally averaged mole fraction (or mass?)?" prov="Amon ((isd.003))" provNote="Amon_oth" rowIndex="70" shuffle="" stid="e9f98ed8-c1ce-11e6-8067-ac72891c3257" title="Mole Fraction of O3" type="real" uid="59fc01c6-c77d-11e6-8a33-5404a60d96b5" vid="1d4594c97188efd47935238a429e02e4"></item> 
    4912 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="rsdscsdiff" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="down" prov="GeoMIP [aeroGeo]" provNote="" rowIndex="18" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Surface Diffuse Downwelling Clear Sky Shortwave Radiation" type="" uid="7aff68f4-a220-11e6-a33f-ac72891c3257" vid="6ca9dd8a089b15fb96841e9fe56411cf"></item> 
     4940<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="rsdscsdiff" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="down" prov="GeoMIP [aeroGeo]" provNote="" rowIndex="18" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Surface Diffuse Downwelling Clear Sky Shortwave Radiation" type="real" uid="7aff68f4-a220-11e6-a33f-ac72891c3257" vid="6ca9dd8a089b15fb96841e9fe56411cf"></item> 
    49134941<item defaultPriority="3" deflate="" deflate_level="" description="Pressure levels (3)" frequency="1hrPt" label="wap" mipTable="E1hr" modeling_realm="atmos" mtid="MIPtable::E1hr" positive="" prov="HighResMIP [1hr_energy]" provNote="" rowIndex="15" shuffle="" stid="f7e9888a-562c-11e6-a2a4-ac72891c3257" title="omega (=dp/dt)" type="real" uid="8bb14072-4a5b-11e6-9cd2-ac72891c3257" vid="51fb29dd55442361fa9c5dbe23aca9c6"></item> 
    49144942<item defaultPriority="2" deflate="" deflate_level="" description="sum of phytoplankton carbon component concentrations.  In most (all?) cases this is the sum of phycdiat and phycmisc (i.e., &quot;Diatom Carbon Concentration&quot; and &quot;Non-Diatom Phytoplankton Carbon Concentration&quot;" frequency="yr" label="phyc" mipTable="Oyr" mipTableSection="Oyr_3dtr" modeling_realm="ocnBgChem" mtid="MIPtable::Oyr" positive="" prov="Oyr ((isd.003))" provNote="Oyr_3dtr" rowIndex="10" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" subGroup="Oyr_3dtr" title="Phytoplankton Carbon Concentration" type="real" uid="ba9dc05a-e5dd-11e5-8482-ac72891c3257" vid="54eb2f6651441ff52f9aea4d43a83024"></item> 
     
    49454973<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="utendepfd" mipTable="EmonZ" modeling_realm="atmos" mtid="MIPtable::EmonZ" positive="" prov="HighResMIP [Amon_sparc]" provNote="" rowIndex="33" shuffle="0" stid="f7e94ce4-562c-11e6-a2a4-ac72891c3257" title="Tendency of eastward wind due to Eliassen-Palm Flux divergence" type="" uid="feeaf438-96ec-11e6-b81e-c9e268aff03a" vid="590fa2bc-9e49-11e5-803c-0d0b866b59f3"></item> 
    49464974<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="xgwdparam" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="HighResMIP [Amon_sparc]" provNote="" rowIndex="27" shuffle="0" stid="62eebe98-1617-11e7-a126-5404a60d96b5" title="x_gravity_wave_drag_param" type="" uid="8baf686a-4a5b-11e6-9cd2-ac72891c3257" vid="591472f6-9e49-11e5-803c-0d0b866b59f3"></item> 
     4975<item defaultPriority="1" deflate="" deflate_level="" description="For oceans with more than 1 mesh (e.g. staggered grids), report areas that apply to surface vertical fluxes of energy. If this field is time-dependent then save it instead as one of your Omon and Odec fields" frequency="fx" label="volcello" mipTable="Oyr" modeling_realm="ocean" mtid="MIPtable::Oyr" positive="" processing="a 3-d field: For oceans with more than 1 mesh, report on grid that applies to temperature" prov="Oyr ((isd.003))" provNote="" rowIndex="22" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" title="Ocean Grid-Cell Volume" type="real" uid="ebf66136-e1ab-11e7-9db4-1c4d70487308" vid="4c69515bfc84c5cb5624e94228f58351"></item> 
    49474976<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="sidmassdyn" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="35" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="sea-ice mass change from dynamics" type="" uid="711e3862-faa7-11e6-bfb7-ac72891c3257" vid="591357b8-9e49-11e5-803c-0d0b866b59f3"></item> 
    49484977<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="sndmasssnf" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="43" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="snow mass change through snow fall" type="" uid="71401c0c-faa7-11e6-bfb7-ac72891c3257" vid="59142a3a-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    50815110<item defaultPriority="1" deflate="" deflate_level="" description="i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. This is reported only if it differs from the net downward radiative flux at the top of the atmosphere." frequency="subhrPt" label="rtmt" mipTable="CFsubhr" modeling_realm="atmos" mtid="MIPtable::CFsubhr" positive="down" processing="This table includes the 2-D variables listed in the &quot;Amon&quot; spreadsheet, omitting, however, the daily maximum and minimum temperatures.  All variables should be reported as synoptic fields, not daily means." prov="CFsubhr ((isd.003))" provNote="" rowIndex="1050" shuffle="" stid="63c0a932-15f2-11e7-87e0-5404a60d96b5" title="Net Downward Flux at Top of Model" type="real" uid="8009c7f8-f906-11e6-a176-5404a60d96b5" vid="26328c46dfcc65d454b6fd4c52ccb48f"></item> 
    50825111<item defaultPriority="1" deflate="0" deflate_level="0" description="Total precipitation flux" frequency="1hr" label="pr" mipTable="E1hr" modeling_realm="atmos" mtid="MIPtable::E1hr" positive="" prov="HighResMIP [1hrLev]" provNote="" rowIndex="13" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Precipitation" type="" uid="8baebea6-4a5b-11e6-9cd2-ac72891c3257" vid="62f26742cf240c1b5169a5cd511196b6"></item> 
    5083 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsdcsaf" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="down" prov="RFMIP [aero_irf]" provNote="" rowIndex="20" shuffle="0" stid="f7dcede6-562c-11e6-a2a4-ac72891c3257" title="Downwelling Clean-Clear-Sky Shortwave Radiation at each level" type="" uid="916b917c-267c-11e7-8933-ac72891c3257" vid="ea83846e-a0de-11e6-bc63-ac72891c3257"></item> 
     5112<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsdcsaf" mipTable="E3hrPt" modeling_realm="aerosol" mtid="MIPtable::E3hrPt" positive="down" prov="RFMIP [aero_irf]" provNote="" rowIndex="20" shuffle="0" stid="f7dcede6-562c-11e6-a2a4-ac72891c3257" title="Downwelling Clean-Clear-Sky Shortwave Radiation at each level" type="real" uid="916b917c-267c-11e7-8933-ac72891c3257" vid="ea83846e-a0de-11e6-bc63-ac72891c3257"></item> 
    50845113<item defaultPriority="2" deflate="" deflate_level="" description="Calculated as the mass of convective cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model." frequency="mon" label="clwc" mipTable="CFmon" mipTableSection="CFmon_3dstd" modeling_realm="atmos" mtid="MIPtable::CFmon" positive="" prov="CFmon ((isd.003))" provNote="CFmon_3dstd" rowIndex="41" shuffle="" stid="62eebe98-1617-11e7-a126-5404a60d96b5" subGroup="cfMon_3dstd" title="Mass Fraction of Convective Cloud Liquid Water" type="real" uid="baab0b2a-e5dd-11e5-8482-ac72891c3257" vid="9b75db3b829a01b02dfe952824150a33"></item> 
    50855114<item defaultPriority="2" deflate="" deflate_level="" description="Vertically integrated primary (organic carbon) production by phytoplankton based on nitrate uptake alone" frequency="mon" label="intppnitrate" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocnBgChem" mtid="MIPtable::Omon" positive="" prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="128" shuffle="" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" subGroup="Omon_oth" title="Primary Organic Carbon Production by Phytoplankton Based on Nitrate Uptake Alone" type="real" uid="c91d722e-c5e8-11e6-84e6-5404a60d96b5" vid="c971e98c-c5f0-11e6-ac20-5404a60d96b5"></item> 
     
    51615190<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="mon" label="ua" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="Emon" provNote="" rowIndex="63" shuffle="" stid="6586d31a-6dfc-11e7-81fb-5404a60d96b5" title="Eastward Wind" type="real" uid="ca7f7ade-6e00-11e7-9fbe-5404a60d96b5" vid="21db90c0a12448299f855fdab60930d4"></item> 
    51625191<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="mon" label="wetso2" mipTable="AERmon" mipTableSection="AERmon-oth" modeling_realm="aerosol" mtid="MIPtable::AERmon" positive="" prov="AERmon ((isd.003))" provNote="AERmon-oth" rowIndex="-1" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="wet deposition rate of so2" type="float" uid="19be2ec0-81b1-11e6-92de-ac72891c3257" vid="c670517b02de6212f3091aaa455f60ed"></item> 
    5163 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsuscsbnd" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="up" prov="RFMIP [aero_irf]" provNote="" rowIndex="18" shuffle="0" stid="63c22a14-15f2-11e7-87e0-5404a60d96b5" title="Surface Upwelling Clear-Sky Shortwave Radiation for each band" type="" uid="7b3043b6-a220-11e6-a33f-ac72891c3257" vid="39d8c78e-a0dc-11e6-bc63-ac72891c3257"></item> 
     5192<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsuscsbnd" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="up" prov="RFMIP [aero_irf]" provNote="" rowIndex="18" shuffle="0" stid="63c22a14-15f2-11e7-87e0-5404a60d96b5" title="Surface Upwelling Clear-Sky Shortwave Radiation for each band" type="real" uid="7b3043b6-a220-11e6-a33f-ac72891c3257" vid="39d8c78e-a0dc-11e6-bc63-ac72891c3257"></item> 
    51645193<item defaultPriority="1" deflate="0" deflate_level="0" description="alevel site time1" frequency="subhrPt" label="tntrlcs" mipTable="Esubhr" modeling_realm="atmos" mtid="MIPtable::Esubhr" positive="" prov="CFMIP [CFsubhr_new]" provNote="" rowIndex="19" shuffle="0" stid="f7e790c0-562c-11e6-a2a4-ac72891c3257" title="Tendency of Air Temperature due to Clear Sky Longwave Radiative Heating" type="" uid="8b89f864-4a5b-11e6-9cd2-ac72891c3257" vid="59170a02-9e49-11e5-803c-0d0b866b59f3"></item> 
    51655194<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="thetaot300" mipTable="Emon" modeling_realm="ocean" mtid="MIPtable::Emon" positive="" prov="DCPP [DCPP-mon]" provNote="" rowIndex="35" shuffle="0" stid="63c1f684-15f2-11e7-87e0-5404a60d96b5" title="Depth average potential temperature of upper 300m" type="" uid="8b92450a-4a5b-11e6-9cd2-ac72891c3257" vid="590d2b9a-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    51815210<item defaultPriority="3" deflate="" deflate_level="" description="" frequency="mon" label="dmso" mipTable="Omon" mipTableSection="Omon_3d" modeling_realm="ocnBgChem" mtid="MIPtable::Omon" positive="" prov="Omon ((isd.003))" provNote="Omon_3d" rowIndex="103" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" subGroup="Omon_3d" title="Mole Concentration of Dimethyl Sulphide in sea water" type="real" uid="487c3ad6-2e41-11e6-b631-6f2cd59aa922" vid="bdce9878-233e-11e6-a788-5404a60d96b5"></item> 
    51825211<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="intvadse" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="PMIP [PMIP-Amon-02]" provNote="" rowIndex="25" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Vertically integrated Northward dry transport (cp.T +zg).v (Mass_weighted_vertical integral of the product of northward wind by dry static_energy per mass unit)" type="" uid="6f6916a4-9acb-11e6-b7ee-ac72891c3257" vid="59147b48-9e49-11e5-803c-0d0b866b59f3"></item> 
    5183 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsdcsbnd" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="down" prov="RFMIP [aero_irf]" provNote="" rowIndex="24" shuffle="0" stid="63c353f8-15f2-11e7-87e0-5404a60d96b5" title="Downwelling Clear-Sky Shortwave Radiation at each level for each band" type="" uid="7b3059dc-a220-11e6-a33f-ac72891c3257" vid="ebd63780-a0de-11e6-bc63-ac72891c3257"></item> 
     5212<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsdcsbnd" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="down" prov="RFMIP [aero_irf]" provNote="" rowIndex="24" shuffle="0" stid="63c353f8-15f2-11e7-87e0-5404a60d96b5" title="Downwelling Clear-Sky Shortwave Radiation at each level for each band" type="real" uid="7b3059dc-a220-11e6-a33f-ac72891c3257" vid="ebd63780-a0de-11e6-bc63-ac72891c3257"></item> 
    51845213<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="fNgas" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="PMIP [PMIP-Lmon-02]" provNote="" rowIndex="53" shuffle="0" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Total Nitrogen lost to the atmosphere (sum of NHx, NOx, N2O, N2)" type="" uid="8b8231e2-4a5b-11e6-9cd2-ac72891c3257" vid="5914d462-9e49-11e5-803c-0d0b866b59f3"></item> 
    51855214<item defaultPriority="2" deflate="" deflate_level="" description="" frequency="mon" label="rsdoabsorb" mipTable="Emon" modeling_realm="ocean" mtid="MIPtable::Emon" positive="down" prov="FAFMIP [fafOmonB]" provNote="" rowIndex="62" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" title="net rate of absorption of shortwave energy in ocean layer" type="real" uid="8b9e3c2a-4a5b-11e6-9cd2-ac72891c3257" vid="b2f82090-fbed-11e5-8f03-5404a60d96b5"></item> 
     
    52265255<item defaultPriority="2" deflate="" deflate_level="" description="soot_content_of_surface_snow" frequency="day" label="sootsn" mipTable="Eday" modeling_realm="landIce land" mtid="MIPtable::Eday" positive="" prov="LS3MIP [LWday]" provNote="" rowIndex="52" shuffle="" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Snow Soot Content" type="real" uid="d228d418-4a9f-11e6-b84e-ac72891c3257" vid="d421b6923b396998106a8c1c66ea07f1"></item> 
    52275256<item defaultPriority="2" deflate="" deflate_level="" description="" frequency="mon" label="expcalc" mipTable="Emon" modeling_realm="ocnBgChem" mtid="MIPtable::Emon" positive="down" prov="C4MIP [C_Ocean_T2]" provNote="" rowIndex="48" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" title="Sinking Calcite Flux" type="real" uid="e708cb5a-aa7f-11e6-9a4a-5404a60d96b5" vid="71480abb30ae62d262fcea6cfdd753cf"></item> 
    5228 <item defaultPriority="1" deflate="" deflate_level="" description="2D monthly mean thermal tropopause calculated using WMO tropopause definition on 3d temperature" frequency="mon" label="ztp" mipTable="AERmon" mipTableSection="AERmon-oth" modeling_realm="aerosol" mtid="MIPtable::AERmon" positive="" prov="AERmon ((isd.003))" provNote="AERmon-oth" rowIndex="-1" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Tropopause Altitude" type="float" uid="19be55a8-81b1-11e6-92de-ac72891c3257" vid="228d3ad84f6db126c53ac4ae0a18a014"></item> 
     5257<item defaultPriority="1" deflate="" deflate_level="" description="2D monthly mean thermal tropopause calculated using WMO tropopause definition on 3d temperature" frequency="mon" label="ztp" mipTable="AERmon" mipTableSection="AERmon-oth" modeling_realm="aerosol" mtid="MIPtable::AERmon" positive="" prov="AERmon ((isd.003))" provNote="AERmon-oth" rowIndex="-1" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Tropopause Altitude above Geoid" type="float" uid="19be55a8-81b1-11e6-92de-ac72891c3257" vid="228d3ad84f6db126c53ac4ae0a18a014"></item> 
    52295258<item defaultPriority="1" deflate="" deflate_level="" description="Tendencies from cumulus convection scheme." frequency="mon" label="tnhusc" mipTable="CFmon" mipTableSection="CFmon_3dstd" modeling_realm="atmos" mtid="MIPtable::CFmon" positive="" prov="CFmon ((isd.003))" provNote="CFmon_3dstd" rowIndex="34" shuffle="" stid="62eebe98-1617-11e7-a126-5404a60d96b5" subGroup="cfMon_3dstd" title="Tendency of Specific Humidity due to Convection" type="real" uid="bab9d236-e5dd-11e5-8482-ac72891c3257" vid="a1d576b3fc447c37d782926441428ffd"></item> 
    52305259<item defaultPriority="1" deflate="" deflate_level="" description="Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition." frequency="mon" label="drybc" mipTable="AERmon" mipTableSection="AERmon-oth" modeling_realm="aerosol" mtid="MIPtable::AERmon" positive="" prov="AERmon ((isd.003))" provNote="AERmon-oth" rowIndex="-1" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="dry deposition rate of black carbon aerosol mass" type="float" uid="19bf7604-81b1-11e6-92de-ac72891c3257" vid="f17637206609c6f9e14190d3ac6a1e6b"></item> 
     
    52435272<item defaultPriority="1" deflate="" deflate_level="" description="Ozone tracer intended to map out strat-trop exchange (STE) of ozone." frequency="mon" label="o3ste" mipTable="AERmon" mipTableSection="AERmon-3d" modeling_realm="aerosol" mtid="MIPtable::AERmon" positive="" prov="AERmon ((isd.003))" provNote="AERmon-3d" rowIndex="-1" shuffle="" stid="62eebe98-1617-11e7-a126-5404a60d96b5" title="Ozone volume mixing ratio" type="float" uid="fdb19130-96ec-11e6-b81e-c9e268aff03a" vid="218a6b28-8995-11e6-b63d-5404a60d96b5"></item> 
    52445273<item defaultPriority="1" deflate="" deflate_level="" description="Positive flux implies correction adds water to ocean." frequency="mon" label="wfcorr" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocean" mtid="MIPtable::Omon" positive="down" processing="If this does not vary from one year to the next, report only a single year.  Most models now have zero water flux adjustment, in which case ignore or report zero. Report on native horizontal grid as well as mapped onto sphere." prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="70" shuffle="" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" subGroup="Omon_oth" title="Water Flux Correction" type="real" uid="baa63dd4-e5dd-11e5-8482-ac72891c3257" vid="604242476d85346b48bd6d791ed05583"></item> 
     5274<item defaultPriority="1" deflate="" deflate_level="" description="For oceans with more than 1 mesh (e.g. staggered grids), report areas that apply to surface vertical fluxes of energy. If this field is time-dependent then save it instead as one of your Omon and Odec fields" frequency="fx" label="volcello" mipTable="Omon" modeling_realm="ocean" mtid="MIPtable::Omon" positive="" processing="a 3-d field: For oceans with more than 1 mesh, report on grid that applies to temperature" prov="Omon ((isd.003))" provNote="" rowIndex="22" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" title="Ocean Grid-Cell Volume" type="real" uid="e0739eaa-e1ab-11e7-9db4-1c4d70487308" vid="4c69515bfc84c5cb5624e94228f58351"></item> 
    52455275<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="mon" label="photo1d" mipTable="AERmon" mipTableSection="AERmon-3d" modeling_realm="aerosol" mtid="MIPtable::AERmon" positive="" prov="AERmon ((isd.003))" provNote="AERmon-3d" rowIndex="-1" shuffle="" stid="62eebe98-1617-11e7-a126-5404a60d96b5" title="photolysis rate of O3 to O1d" type="float" uid="19be3a28-81b1-11e6-92de-ac72891c3257" vid="a2609abee6ecd5d535a48e29ae70e852"></item> 
    52465276<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="swsrfcsdust" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="PMIP [PMIP-aero-02]" provNote="" rowIndex="24" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Clear-sky Surface Shortwave radiative flux due to Dust" type="" uid="6f6c0dd2-9acb-11e6-b7ee-ac72891c3257" vid="5917cf46-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    53305360<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="yr" label="yvelsurf" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="21" shuffle="0" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Y-component of land ice surface velocity" type="" uid="d5b3d7de-c78d-11e6-9b25-5404a60d96b5" vid="1427806e-b574-11e6-9ed4-5404a60d96b5"></item> 
    53315361<item defaultPriority="3" deflate="0" deflate_level="0" description="" frequency="yr" label="yvelmean" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="27" shuffle="0" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Y-component of land ice vertical mean velocity" type="" uid="d5b3ede6-c78d-11e6-9b25-5404a60d96b5" vid="14277916-b574-11e6-9ed4-5404a60d96b5"></item> 
    5332 <item defaultPriority="1" deflate="" deflate_level="" description="BC Mass Mixing Ratio" frequency="mon" label="mmrbc" mipTable="Emon" modeling_realm="aerosol" mtid="MIPtable::Emon" positive="" prov="PMIP [PMIP-aero-02]" provNote="" rowIndex="16" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Elemental carbon mass mixing ratio" type="float" uid="6f6be9ce-9acb-11e6-b7ee-ac72891c3257" vid="d63c4dd912d79edc6221c0e09da24a79"></item> 
    53335362<item defaultPriority="1" deflate="" deflate_level="" description="Includes both large-scale and convective cloud.  Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells. Precipitating hydrometeors are included ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model." frequency="mon" label="clw" mipTable="Amon" mipTableSection="Amon_oth" modeling_realm="atmos" mtid="MIPtable::Amon" positive="" processing="Report on model layers (not standard pressures)." prov="Amon ((isd.003))" provNote="Amon_oth" rowIndex="59" shuffle="" stid="62eebe98-1617-11e7-a126-5404a60d96b5" title="Mass Fraction of Cloud Liquid Water" type="real" uid="baab0382-e5dd-11e5-8482-ac72891c3257" vid="86b2b3318a73839edfafa9d46864aadc"></item> 
    53345363<item defaultPriority="1" deflate="" deflate_level="" description="the mass (summed over all all layers) of frozen water." frequency="mon" label="mrfso" mipTable="Lmon" modeling_realm="land landIce" mtid="MIPtable::Lmon" positive="" prov="Lmon ((isd.003))" provNote="" rowIndex="16" shuffle="" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Soil Frozen Water Content" type="real" uid="bab1688a-e5dd-11e5-8482-ac72891c3257" vid="154d00de9ab9aff72373a673df10946a"></item> 
     
    53915420<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="yrPt" label="cProduct" mipTable="Eyr" modeling_realm="land" mtid="MIPtable::Eyr" positive="" prov="LUMIP [Lyr_Lut]" provNote="" rowIndex="11" shuffle="" stid="fa23fd12-267c-11e7-9bed-ac72891c3257" title="Carbon Mass in Products of Land Use Change" type="real" uid="3e26df20-b89b-11e6-be04-ac72891c3257" vid="57c2e414bde585cc60a7b2f980e1f870"></item> 
    53925421<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="sifb" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="28" shuffle="0" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="Sea-ice freeboard" type="" uid="714718d6-faa7-11e6-bfb7-ac72891c3257" vid="590dac64-9e49-11e5-803c-0d0b866b59f3"></item> 
    5393 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsucsafbnd" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="" prov="RFMIP [aero_irf]" provNote="" rowIndex="21" shuffle="0" stid="63c353f8-15f2-11e7-87e0-5404a60d96b5" title="Upwelling Clear-Sky, Aerosol-Free Shortwave Radiation in Bands" type="" uid="916b9528-267c-11e7-8933-ac72891c3257" vid="ead5a730-a0de-11e6-bc63-ac72891c3257"></item> 
     5422<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsucsafbnd" mipTable="E3hrPt" modeling_realm="aerosol" mtid="MIPtable::E3hrPt" positive="" prov="RFMIP [aero_irf]" provNote="" rowIndex="21" shuffle="0" stid="63c353f8-15f2-11e7-87e0-5404a60d96b5" title="Upwelling Clear-Sky, Aerosol-Free Shortwave Radiation in Bands" type="real" uid="916b9528-267c-11e7-8933-ac72891c3257" vid="ead5a730-a0de-11e6-bc63-ac72891c3257"></item> 
    53945423<item defaultPriority="2" deflate="" deflate_level="" description="This is defined as &quot;where ice_free_sea over sea&quot;" frequency="mon" label="hflso" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocean" mtid="MIPtable::Omon" positive="up" processing="Report on native horizontal grid." prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="91" shuffle="" stid="f948921c-80ba-11e6-ab6e-5404a60d96b5" subGroup="Omon_oth" title="Surface Downward Latent Heat Flux" type="real" uid="ada94e1e-b17f-11e6-8975-5404a60d96b5" vid="ad2c59f6784b7b6a8b2a95424a1a642d"></item> 
    53955424<item defaultPriority="1" deflate="" deflate_level="" description="fraction of entire grid cell  that is covered by anthropogenic pasture." frequency="mon" label="pastureFrac" mipTable="Lmon" modeling_realm="land" mtid="MIPtable::Lmon" positive="" processing="add scalar coordinate typepasture and add &quot;pasture&quot; to the CF area type table. Note that if this variable is independent of time, it should be stored only for a single time (user choice)." prov="Lmon ((isd.003))" provNote="" rowIndex="29" shuffle="" stid="fa229896-267c-11e7-9bed-ac72891c3257" title="Anthropogenic Pasture Fraction" type="real" uid="bab30988-e5dd-11e5-8482-ac72891c3257" vid="64c3bc72c46203646eb28fee17f6a5f7"></item> 
     
    54325461<item defaultPriority="1" deflate="" deflate_level="" description="at the top of the atmosphere" frequency="3hrPt" label="rsut" mipTable="CF3hr" mipTableSection="CF3hr_grid" modeling_realm="atmos" mtid="MIPtable::CF3hr" positive="up" prov="CFMIP (CMIP5)" provNote="Amon_2d" rowIndex="242" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" subGroup="Amon_2d" title="TOA Outgoing Shortwave Radiation" type="real" uid="e0ab6a5a-4b7f-11e7-903f-5404a60d96b5" vid="b907fef85d4c9571a9457ee1b259bb8f"></item> 
    54335462<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="yr" label="zfullo" mipTable="Eyr" modeling_realm="ocean" mtid="MIPtable::Eyr" positive="" prov="C4MIP [C_Basic]" provNote="" rowIndex="35" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" title="Depth Below Geoid of Ocean Layer" type="real" uid="90e8026c-267c-11e7-8933-ac72891c3257" vid="44471dd9799293cef70ac63fcdd2476e"></item> 
    5434 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsdscsafbnd" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="down" prov="RFMIP [aero_irf]" provNote="" rowIndex="14" shuffle="0" stid="63c22a14-15f2-11e7-87e0-5404a60d96b5" title="Surface Downwelling Clear-Sky, Aerosol-Free Shortwave Radiation in Bands" type="" uid="916b7b42-267c-11e7-8933-ac72891c3257" vid="386fb33a-a0dc-11e6-bc63-ac72891c3257"></item> 
     5463<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsdscsafbnd" mipTable="E3hrPt" modeling_realm="aerosol" mtid="MIPtable::E3hrPt" positive="down" prov="RFMIP [aero_irf]" provNote="" rowIndex="14" shuffle="0" stid="63c22a14-15f2-11e7-87e0-5404a60d96b5" title="Surface Downwelling Clear-Sky, Aerosol-Free Shortwave Radiation in Bands" type="real" uid="916b7b42-267c-11e7-8933-ac72891c3257" vid="386fb33a-a0dc-11e6-bc63-ac72891c3257"></item> 
    54355464<item defaultPriority="1" deflate="" deflate_level="" description="fraction of entire grid cell that is covered by natural grass." frequency="mon" label="grassFrac" mipTable="Lmon" modeling_realm="land" mtid="MIPtable::Lmon" positive="" processing="add scalar coordinate typegrass and add &quot;natural_grass&quot; to the CF area type table.  Note that if this variable is independent of time, it should be stored only for a single time (user choice)." prov="Lmon ((isd.003))" provNote="" rowIndex="26" shuffle="" stid="fa230ab0-267c-11e7-9bed-ac72891c3257" title="Natural Grass Fraction" type="real" uid="baae910a-e5dd-11e5-8482-ac72891c3257" vid="f972af18f1817a7bb5f961b534641394"></item> 
    54365465<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="snicefreez" mipTable="ImonGre" modeling_realm="landIce" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="17" shuffle="0" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface snow and ice refreeze flux" type="" uid="d5b2af3a-c78d-11e6-9b25-5404a60d96b5" vid="59150216-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    55855614<item defaultPriority="1" deflate="" deflate_level="" description="plev_4" frequency="6hr" label="wap4" mipTable="6hrPlev" modeling_realm="atmos" mtid="MIPtable::6hrPlev" positive="" prov="HighResMIP [6hrPlev_extr_dr]" provNote="" rowIndex="26" shuffle="" stid="70409cbe-f2a0-11e6-9a05-5404a60d96b5" title="omega (=dp/dt)" type="real" uid="8bae5fba-4a5b-11e6-9cd2-ac72891c3257" vid="51fb29dd55442361fa9c5dbe23aca9c6"></item> 
    55865615<item defaultPriority="2" deflate="0" deflate_level="0" description="" frequency="mon" label="uwap" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="HighResMIP [Amon_sparc]" provNote="" rowIndex="22" shuffle="0" stid="62eebe98-1617-11e7-a126-5404a60d96b5" title="eastward_wind_times_omega" type="" uid="8baf4bfa-4a5b-11e6-9cd2-ac72891c3257" vid="591792ce-9e49-11e5-803c-0d0b866b59f3"></item> 
    5587 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsuscsaf" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="up" prov="RFMIP [aero_irf]" provNote="" rowIndex="12" shuffle="0" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" title="Surface Upwelling Clean Clear-Sky Shortwave Radiation" type="" uid="916b73ea-267c-11e7-8933-ac72891c3257" vid="90df05fe3dcd9fe0c9b48aaa74b5e9e"></item> 
     5616<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsuscsaf" mipTable="E3hrPt" modeling_realm="aerosol" mtid="MIPtable::E3hrPt" positive="up" prov="RFMIP [aero_irf]" provNote="" rowIndex="12" shuffle="0" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" title="Surface Upwelling Clean Clear-Sky Shortwave Radiation" type="real" uid="916b73ea-267c-11e7-8933-ac72891c3257" vid="90df05fe3dcd9fe0c9b48aaa74b5e9e"></item> 
    55885617<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="subhrPt" label="rlu" mipTable="CFsubhr" modeling_realm="atmos" mtid="MIPtable::CFsubhr" positive="up" processing="Report on model half-levels (i.e., interfaces between model layers)." prov="CFsubhr ((isd.003))" provNote="" rowIndex="26" shuffle="" stid="f7e4dd1c-562c-11e6-a2a4-ac72891c3257" title="Upwelling Longwave Radiation" type="real" uid="a954ebee-817c-11e6-a4e2-5404a60d96b5" vid="bcfeacf77d49ef51a6ee66a1ab0ebcb4"></item> 
    55895618<item defaultPriority="2" deflate="" deflate_level="" description="sum of particulate organic nitrogen component concentrations" frequency="yr" label="pon" mipTable="Oyr" mipTableSection="Oyr_3dtr" modeling_realm="ocnBgChem" mtid="MIPtable::Oyr" positive="" prov="Oyr ((isd.003))" provNote="Oyr_3dtr" rowIndex="42" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" subGroup="Oyr_3dtr" title="Mole Concentration of Particulate Organic Matter expressed as Nitrogen in sea water" type="real" uid="ba9e4fca-e5dd-11e5-8482-ac72891c3257" vid="14e5a31ac93e26c50f8c01ed9a032168"></item> 
     
    56515680<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="day" label="tasmaxCrop" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="4" shuffle="0" stid="f7e2a074-562c-11e6-a2a4-ac72891c3257" title="Daily Maximum Near-Surface Air Temperature over Crop Tile" type="" uid="2eb1ab6e-b64e-11e6-b9ee-ac72891c3257" vid="170ff384-b622-11e6-bbe2-ac72891c3257"></item> 
    56525681<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="mon" label="fNdep" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="C4MIP [C_LandT1]" provNote="" rowIndex="36" shuffle="0" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Dry and Wet Deposition of Reactive Nitrogen onto Land" type="" uid="8b80d5fe-4a5b-11e6-9cd2-ac72891c3257" vid="5913bfe6-9e49-11e5-803c-0d0b866b59f3"></item> 
    5653 <item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsuscsafbnd" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="up" prov="RFMIP [aero_irf]" provNote="" rowIndex="15" shuffle="0" stid="63c22a14-15f2-11e7-87e0-5404a60d96b5" title="Surface Upwelling Clear-Sky, Aerosol-Free Shortwave Radiation in Bands" type="" uid="916b7eee-267c-11e7-8933-ac72891c3257" vid="38bd2912-a0dc-11e6-bc63-ac72891c3257"></item> 
     5682<item defaultPriority="1" deflate="0" deflate_level="0" description="" frequency="3hrPt" label="rsuscsafbnd" mipTable="E3hrPt" modeling_realm="aerosol" mtid="MIPtable::E3hrPt" positive="up" prov="RFMIP [aero_irf]" provNote="" rowIndex="15" shuffle="0" stid="63c22a14-15f2-11e7-87e0-5404a60d96b5" title="Surface Upwelling Clear-Sky, Aerosol-Free Shortwave Radiation in Bands" type="real" uid="916b7eee-267c-11e7-8933-ac72891c3257" vid="38bd2912-a0dc-11e6-bc63-ac72891c3257"></item> 
    56545683<item defaultPriority="2" deflate="" deflate_level="" description="computed as the iceberg melt water flux into the ocean divided by the area of the ocean portion of the grid cell." frequency="mon" label="ficeberg2d" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocean" mtid="MIPtable::Omon" positive="" processing="If only the vertically integrated melt water flux is available, report as this 2-d field; otherwise the row above should be used." prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="66" shuffle="" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" subGroup="Omon_oth" title="Water Flux into Sea Water From Icebergs" type="real" uid="baa62cea-e5dd-11e5-8482-ac72891c3257" vid="0638f32ebcc32d63faad121d5a83e3be"></item> 
    56555684<item defaultPriority="1" deflate="" deflate_level="" description="" frequency="day" label="vas" mipTable="day" mipTableSection="day_ss" modeling_realm="atmos" mtid="MIPtable::day" positive="" processing="normally, report this at 10 meters above the surface" prov="day ((isd.003))" provNote="day_ss" rowIndex="37" shuffle="" stid="af250420-1e00-11e7-a625-5404a60d96b5" subGroup="day_ss" title="Northward Near-Surface Wind" type="real" uid="babbd25c-e5dd-11e5-8482-ac72891c3257" vid="86b1cd51f370e346ecb20f1e80cb6ea4"></item> 
     
    69817010<item class="missingLink" description="Missing links detected and marked for fixing" label="unset" prov="scanDreq.py:annotate" tattr="sn" tid="5913ad62-9e49-11e5-803c-0d0b866b59f3" title="__unset__" uid="change_over_time_in_thermal_energy_content_of_surface_snow_and_ice"></item> 
    69827011<item class="missingLink" description="Missing links detected and marked for fixing" label="unset" prov="scanDreq.py:annotate" tattr="sn" tid="590eb456-9e49-11e5-803c-0d0b866b59f3" title="__unset__" uid="fire_CO2_emissions_from_all_sources"></item> 
    6983 <item class="missingLink" description="Missing links detected and marked for fixing" label="unset" prov="scanDreq.py:annotate" tattr="sn" tid="180d4bd9a18a9d5ecf3d45690b8e9c75" title="__unset__" uid="integral_wrt_depth_of_product_of_sea_water_density_and_prognostic_salinity"></item> 
    69847012<item class="missingLink" description="Missing links detected and marked for fixing" label="unset" prov="scanDreq.py:annotate" tattr="var.sn" techNote="2" title="__unset__" uid="land_ice_basal_temperature"></item> 
    69857013<item class="missingLink" description="Missing links detected and marked for fixing" label="unset" prov="scanDreq.py:annotate" tattr="sn" tid="590de850-9e49-11e5-803c-0d0b866b59f3" title="__unset__" uid="litter_c13_content"></item> 
     
    85438571<item label="limirrpico" mip="C4MIP" priority="2" title="limirrpico ((isd.006))" uid="1b83c9e4e48b00e5ef38b02661720cbe1920af34" vgid="efc0880a-5629-11e6-9079-ac72891c3257" vid="baa0340c-e5dd-11e5-8482-ac72891c3257"></item> 
    85448572<item label="psl" mip="CMIP5" priority="1" title="psl ((isd.006))" uid="24cc1540370081d2e7d586e836939f208848a9b3" vgid="26d3f07c-7c16-11e6-8a5b-ac72891c3257" vid="bab491f4-e5dd-11e5-8482-ac72891c3257"></item> 
     8573<item label="volcello" mip="CMIP5" priority="3" title="volcello.Oyr" uid="46e79142-e1b0-11e7-9db4-1c4d70487308" vgid="316ca362-b97e-11e6-a189-5404a60d96b5" vid="babcc39c-e5dd-11e5-8482-ac72891c3257"></item> 
    85458574<item label="ua7h" mip="CORDEX" priority="1" title="ua7h ((isd.006))" uid="72543b279f575355b33710420925f29720595b1c" vgid="eb99e9cc-0008-11e7-b43f-5404a60d96b5" vid="713f2efa-faa7-11e6-bfb7-ac72891c3257"></item> 
    85468575<item label="wap" mip="CFMIP" priority="1" title="wap ((isd.005))" uid="88a74cc3ddb13d82299d3190b986eb811471cb87" vgid="efc0f650-5629-11e6-9079-ac72891c3257" vid="babd0906-e5dd-11e5-8482-ac72891c3257"></item> 
     
    1030610335<item label="rldscs" mip="CMIP5" priority="1" title="rldscs ((isd.006))" uid="c735240480f6d356d3e3936c3a7d08d741f4e9a9" vgid="ef12df16-5629-11e6-9079-ac72891c3257" vid="bab55f12-e5dd-11e5-8482-ac72891c3257"></item> 
    1030710336<item label="et" mip="LS3MIP" priority="1" title="et ((isd.006))" uid="c9e35aa435d34d092f7bea7ea46a3bf824118dc3" vgid="efc09566-5629-11e6-9079-ac72891c3257" vid="d22813e8-4a9f-11e6-b84e-ac72891c3257"></item> 
    10308 <item label="mmrbc" mip="PMIP" priority="1" title="mmrbc ((isd.006))" uid="cc2ec99fa092521487223483fe609c8c2bea37b0" vgid="d0e5741a-1ba7-11e7-8b4b-5404a60d96b5" vid="6f6be9ce-9acb-11e6-b7ee-ac72891c3257"></item> 
     10337<item label="mmrbc" mip="PMIP" priority="1" title="mmrbc ((isd.006))" uid="cc2ec99fa092521487223483fe609c8c2bea37b0" vgid="d0e5741a-1ba7-11e7-8b4b-5404a60d96b5" vid="19bf20dc-81b1-11e6-92de-ac72891c3257"></item> 
    1030910338<item label="rsus" mip="VIACSAB" priority="1" title="day: rsus" uid="07ef257a-26b9-11e7-9d3d-ac72891c3257" vgid="6d981ff2-5979-11e6-8fd9-ac72891c3257" vid="bab65ad4-e5dd-11e5-8482-ac72891c3257"></item> 
    1031010339<item label="siconc" mip="CMIP5" priority="1" title="siconc (daily)" uid="6516048f9e1d29c10c44ff5cdd364c7ca78d8789" vgid="26d3ae3c-7c16-11e6-8a5b-ac72891c3257" vid="85c3e888-357c-11e7-8257-5404a60d96b5"></item> 
     
    1088810917<item label="epc100" mip="DCPP" priority="2" title="epc100 ((isd.005))" uid="64f3301aa8157097b492af854424de6cc608f570" vgid="efc0859e-5629-11e6-9079-ac72891c3257" vid="5a35b628-c77d-11e6-8a33-5404a60d96b5"></item> 
    1088910918<item label="pop" mip="CMIP5" priority="3" title="pop ((isd.006))" uid="6a94081f842717237ff64eea0433f19261a7d2c5" vgid="efc143a8-5629-11e6-9079-ac72891c3257" vid="ba9fd8ea-e5dd-11e5-8482-ac72891c3257"></item> 
    10890 <item label="thkcello" mip="CMIP5" priority="1" title="thkcello ((isd.006))" uid="8b0ecf40c005ec67121ea16107e852a346856418" vgid="ef12e542-5629-11e6-9079-ac72891c3257" vid="baa518c8-e5dd-11e5-8482-ac72891c3257"></item> 
     10919<item label="thkcello" mip="CMIP5" priority="3" title="thkcello ((isd.006))" uid="8b0ecf40c005ec67121ea16107e852a346856418" vgid="ef12e542-5629-11e6-9079-ac72891c3257" vid="baa518c8-e5dd-11e5-8482-ac72891c3257"></item> 
    1089110920<item label="ccb" mip="CMIP5" priority="1" title="ccb ((isd.006))" uid="a7c47770b7376092458cf0eddca113c7a2be2e8c" vgid="33b0f666-a27a-11e6-bfbb-ac72891c3257" vid="8009dc3e-f906-11e6-a176-5404a60d96b5"></item> 
    1089210921<item label="nppGrass" mip="C4MIP" priority="2" title="nppGrass ((isd.006))" uid="aa42e32a6594b62e1ad6c0175ba8276721d691b6" vgid="efc0e43a-5629-11e6-9079-ac72891c3257" vid="e70777e6-aa7f-11e6-9a4a-5404a60d96b5"></item> 
     
    1123411263<item label="mrso" mip="VIACSAB" priority="1" title="Lmon: mrso" uid="07f73332-26b9-11e7-9d3d-ac72891c3257" vgid="6d99a9da-5979-11e6-8fd9-ac72891c3257" vid="bab1a782-e5dd-11e5-8482-ac72891c3257"></item> 
    1123511264<item label="mrsofc" mip="CMIP" priority="1" title="ESMVal: fx.mrsofc" uid="0ba22622-26b9-11e7-9d3d-ac72891c3257" vgid="b7d445ce-c16a-11e6-bb6a-ac72891c3257" vid="bab1c08c-e5dd-11e5-8482-ac72891c3257"></item> 
    11236 <item label="fgdms" mip="C4MIP" priority="3" title="fgdms ((isd.006))" uid="32c292830f5b1fc9030361e5bdcb23e25f41e68f" vgid="efc0880a-5629-11e6-9079-ac72891c3257" vid="e708d636-aa7f-11e6-9a4a-5404a60d96b5"></item> 
     11265<item label="fgdms" mip="C4MIP" priority="3" title="fgdms ((isd.006))" uid="32c292830f5b1fc9030361e5bdcb23e25f41e68f" vgid="efc0880a-5629-11e6-9079-ac72891c3257" vid="baa0e906-e5dd-11e5-8482-ac72891c3257"></item> 
    1123711266<item label="ch4" mip="CMIP5" priority="1" title="ch4 ((isd.006))" uid="577943ea490f110f34a2db3027a63ee84c7a45f5" vgid="032f597c-c5ef-11e6-9285-ac72891c3257" vid="fda6dd26-96ec-11e6-b81e-c9e268aff03a"></item> 
    1123811267<item label="epfe100" mip="CMIP5" priority="3" title="epfe100 ((isd.006))" uid="7063ecf9c6da5165778ff8f3f64c488cb867d6ef" vgid="efc143a8-5629-11e6-9079-ac72891c3257" vid="5a35e288-c77d-11e6-8a33-5404a60d96b5"></item> 
     
    1183811867<item label="pod0" mip="AerChemMIP" priority="1" title="AerChemMIP pod0" uid="4768128c7c4045f168ea4d20d97f56274e2a0e7d" vgid="fa8d867e-7e3e-11e6-9b26-f192b4cee584" vid="01d364ca-c792-11e6-aa58-5404a60d96b5"></item> 
    1183911868<item label="od550aerso" mip="PMIP" priority="1" title="od550aerso ((isd.006))" uid="8646caf85bf81a34021154f35b20a0fa13ccc23f" vgid="d0e5741a-1ba7-11e7-8b4b-5404a60d96b5" vid="6f6bc35e-9acb-11e6-b7ee-ac72891c3257"></item> 
     11869<item label="volcello" mip="CMIP5" priority="1" title="volcello.Omon" uid="91de5890-e1ae-11e7-9db4-1c4d70487308" vgid="ef12e542-5629-11e6-9079-ac72891c3257" vid="babcc39c-e5dd-11e5-8482-ac72891c3257"></item> 
    1184011870<item label="masscello" mip="CFMIP" priority="1" title="masscello ((isd.005))" uid="99bd49620cda01189868091e1a38ce6558fa96ad" vgid="efc16608-5629-11e6-9079-ac72891c3257" vid="baa5147c-e5dd-11e5-8482-ac72891c3257"></item> 
    1184111871<item label="cVeg" mip="C4MIP" priority="1" title="cVeg ((isd.005))" uid="af8a8dab89162e1e0de374ce1fba8c277ab449f9" vgid="efc097e6-5629-11e6-9079-ac72891c3257" vid="baa90258-e5dd-11e5-8482-ac72891c3257"></item> 
     
    1213112161<item label="dmso" mip="VIACSAB" priority="1" title="Oyr: dms" uid="07f02290-26b9-11e7-9d3d-ac72891c3257" vgid="6d9835d2-5979-11e6-8fd9-ac72891c3257" vid="ba9e7180-e5dd-11e5-8482-ac72891c3257"></item> 
    1213212162<item label="uo" mip="VIACSAB" priority="1" title="Omon: uo" uid="07f2f506-26b9-11e7-9d3d-ac72891c3257" vgid="6d98bf7a-5979-11e6-8fd9-ac72891c3257" vid="baa586e6-e5dd-11e5-8482-ac72891c3257"></item> 
    12133 <item label="thkcello" mip="CMIP5" priority="1" title="thkcello ((isd.006))" uid="5fdaf828771f5e190aac3d9678155ead5c29d8d9" vgid="efc154f6-5629-11e6-9079-ac72891c3257" vid="baa518c8-e5dd-11e5-8482-ac72891c3257"></item> 
     12163<item label="thkcello" mip="CMIP5" priority="3" title="thkcello ((isd.006))" uid="5fdaf828771f5e190aac3d9678155ead5c29d8d9" vgid="efc154f6-5629-11e6-9079-ac72891c3257" vid="baa518c8-e5dd-11e5-8482-ac72891c3257"></item> 
    1213412164<item label="difvho" mip="FAFMIP" priority="1" title="difvho ((isd.006))" uid="6673a83238d0de805ceb3c35085e3668e656e623" vgid="efc07176-5629-11e6-9079-ac72891c3257" vid="baa4ac8a-e5dd-11e5-8482-ac72891c3257"></item> 
    1213512165<item label="prsn" mip="CMIP5" priority="1" title="prsn ((isd.006))" uid="8c014990f97d307760a4ad5a468836dff28f1b61" vgid="ef12e22c-5629-11e6-9079-ac72891c3257" vid="bab42b88-e5dd-11e5-8482-ac72891c3257"></item> 
     
    1265312683<item label="prsn" mip="LS3MIP" priority="1" title="prsn ((isd.006))" uid="2a3c2aa96883254490e1d1f1a86bc601fe007cfe" vgid="efc09566-5629-11e6-9079-ac72891c3257" vid="bab43b50-e5dd-11e5-8482-ac72891c3257"></item> 
    1265412684<item label="rlut" mip="CFMIP" priority="1" title="rlut ((isd.005))" uid="2c71d6525a4784b14f89c8539191018d91060720" vgid="efc0f650-5629-11e6-9079-ac72891c3257" vid="bab5aad0-e5dd-11e5-8482-ac72891c3257"></item> 
    12655 <item label="mmrss" mip="PMIP" priority="1" title="mmrss ((isd.006))" uid="37d4b9fb10aaacad248c2e5887672d3e5863a207" vgid="d0e5741a-1ba7-11e7-8b4b-5404a60d96b5" vid="6f6beeec-9acb-11e6-b7ee-ac72891c3257"></item> 
     12685<item label="mmrss" mip="PMIP" priority="1" title="mmrss ((isd.006))" uid="37d4b9fb10aaacad248c2e5887672d3e5863a207" vgid="d0e5741a-1ba7-11e7-8b4b-5404a60d96b5" vid="19bed1f4-81b1-11e6-92de-ac72891c3257"></item> 
    1265612686<item label="fescav" mip="CMIP5" priority="3" title="fescav ((isd.006))" uid="59143c5d9e679eca7905d11e6c9c8e83de25b1d7" vgid="316ca362-b97e-11e6-a189-5404a60d96b5" vid="ba9f05e6-e5dd-11e5-8482-ac72891c3257"></item> 
    1265712687<item label="tntrscs" mip="CFMIP" priority="1" title="tntrscs ((isd.006))" uid="693ff174599aeed0a5ed9eed098371e055a27221" vgid="efc081de-5629-11e6-9079-ac72891c3257" vid="8b89fda0-4a5b-11e6-9cd2-ac72891c3257"></item> 
     
    1307313103<item description="alias::number_concentration_of_ambient_aerosol_in_air" label="NumberConcentrationOfAmbientAerosolParticlesInAir" title="Number Concentration of Ambient Aerosol Particles in Air [alias]" uid="number_concentration_of_ambient_aerosol_in_air" units="m-3"></item> 
    1307413104<item description="The swell wave directional spectrum can be written as a  five dimensional function S(t,x,y,f,theta) where t is time, x and y are horizontal coordinates (such as longitude and latitude), f is frequency and theta is direction.  S can be integrated over direction to give S1= integral(S dtheta).  Frequency moments, M(n) of S1 can then be calculated as follows: M(n) = integral(S1 f^n df), where f^n is f to the power of n.  The second wave period, T(m2), is calculated as the square root of the ratio M(0)/M(2)." label="SeaSurfaceSwellWaveMeanPeriodFromVarianceSpectralDensitySecondFrequencyMoment" title="Sea Surface Swell Wave Mean Period from Variance Spectral Density Second Frequency Moment" uid="sea_surface_swell_wave_mean_period_from_variance_spectral_density_second_frequency_moment" units="s"></item> 
     13105<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Dry deposition&quot; is the sum of turbulent deposition and gravitational settling. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfAtmosphereMassContentOfSeaSaltDryAerosolParticlesDueToDryDeposition" title="Tendency of Atmosphere Mass Content of Sea Salt Dry Aerosol Particles due to Dry Deposition" uid="tendency_of_atmosphere_mass_content_of_sea_salt_dry_aerosol_particles_due_to_dry_deposition" units="kg m-2 s-1"></item> 
    1307513106<item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;tendency_of_X&quot; means derivative of X with respect to time. Mass fraction is used in the construction mass_fraction_of_X_in_Y, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X)." label="TendencyOfMassFractionOfCloudLiquidWaterInAirDueToAdvection" title="Tendency of Mass Fraction of Cloud Liquid Water in Air due to Advection" uid="tendency_of_mass_fraction_of_cloud_liquid_water_in_air_due_to_advection" units="s-1"></item> 
    1307613107<item description="" label="Time" title="Time" uid="time" units="s"></item> 
    13077 <item description="alias::atmosphere_absorption_optical_thickness_due_to_seasalt_ambient_aerosol" label="AtmosphereAbsorptionOpticalThicknessDueToSeasaltAmbientAerosolParticles" title="Atmosphere Absorption Optical Thickness due to Seasalt Ambient Aerosol Particles [alias]" uid="atmosphere_absorption_optical_thickness_due_to_seasalt_ambient_aerosol" units="1"></item> 
     13108<item description="alias::atmosphere_absorption_optical_thickness_due_to_seasalt_ambient_aerosol" label="AtmosphereAbsorptionOpticalThicknessDueToSeaSaltAmbientAerosolParticles" title="Atmosphere Absorption Optical Thickness due to Sea Salt Ambient Aerosol Particles [alias]" uid="atmosphere_absorption_optical_thickness_due_to_seasalt_ambient_aerosol" units="1"></item> 
    1307813109<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The chemical symbol for radon is Rn." label="AtmosphereMassContentOfRadon" title="Atmosphere Mass Content of Radon" uid="atmosphere_mass_content_of_radon" units="kg m-2"></item> 
    1307913110<item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, whereX is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for nitric acid is HNO3." label="MassFractionOfNitricAcidInAir" title="Mass Fraction of Nitric Acid in Air" uid="mass_fraction_of_nitric_acid_in_air" units="1"></item> 
     
    1308413115<item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake." label="MassFractionOfDustDryAerosolParticlesInAir" title="Mass Fraction of Dust Dry Aerosol Particles in Air" uid="mass_fraction_of_dust_dry_aerosol_particles_in_air" units="1"></item> 
    1308513116<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula of carbon tetrachloride is CCl4." label="MoleConcentrationOfCarbonTetrachlorideInAir" title="Mole Concentration of Carbon Tetrachloride in Air" uid="mole_concentration_of_carbon_tetrachloride_in_air" units="mol m-3"></item> 
     13117<item description="&quot;y&quot; indicates a vector component along the grid y-axis, positive with increasing y. The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity named by omitting the phrase. Parameterized eddy advection in an ocean model means the part due to a scheme representing parameterized eddy-induced advective effects not included in the resolved model velocity field. Parameterized eddy advection can be represented on various spatial scales and there are standard names for parameterized_mesoscale_eddy_advection and parameterized_submesoscale_eddy_advection which both contribute to the total parameterized eddy advection." label="OceanHeatYTransportDueToParameterizedEddyAdvection" title="Ocean Heat Y Transport due to Parameterized Eddy Advection" uid="ocean_heat_y_transport_due_to_parameterized_eddy_advection" units="W"></item> 
    1308613118<item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. Atmosphere water vapor content is sometimes referred to as &quot;precipitable water&quot;, although this term does not imply the water could all be precipitated." label="TendencyOfAtmosphereMassContentOfWaterVaporDueToConvection" title="Tendency of Atmosphere Mass Content of Water Vapor due to Convection" uid="tendency_of_atmosphere_mass_content_of_water_vapor_due_to_convection" units="kg m-2 s-1"></item> 
    1308713119<item description="Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.) In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="WindMixingEnergyFluxIntoSeaWater" title="Wind Mixing Energy Flux Into Sea Water" uid="wind_mixing_energy_flux_into_sea_water" units="W m-2"></item> 
    1308813120<item description="The effective radius of a size distribution of particles, such as aerosols, cloud droplets or ice crystals,is the area weighted mean radius of particle size. It is calculated as the ratio of the third to the second moment of the particle size distribution. &quot;cloud_top&quot; refers to the top of the  highest cloud. &quot;condensed_water&quot; means liquid and ice." label="EffectiveRadiusOfCloudCondensedWaterParticlesAtCloudTop" title="Effective Radius of Cloud Condensed Water Particles At Cloud Top" uid="effective_radius_of_cloud_condensed_water_particles_at_cloud_top" units="m"></item> 
    1308913121<item description="An auxiliary coordinate variable with a standard name of institution contains string values which specify where the original data, with which the coordinate variable is associated, were produced. The use of institution as the standard name for an auxiliary coordinate variable permits the aggregation of data from multiple institutions within a single data file." label="Institution" title="Institution" uid="institution" units=""></item> 
    13090 <item description="&quot;integral_of_Y_wrt_X&quot; means int Y dX. The data variable should have an axis for X specifying the limits of the integral as bounds. &quot;wrt&quot; means with respect to.  &quot;toa&quot; means top of atmosphere.  &quot;Longwave&quot; means longwave radiation.  The TOA outgoing longwave flux is the upwelling thermal radiative flux, often called the &quot;outgoing longwave radiation&quot; or &quot;OLR&quot;. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="IntegralOfToaOutgoingLongwaveFluxWrtTime" title="Integral of Toa Outgoing Longwave Flux Wrt Time" uid="integral_of_toa_outgoing_longwave_flux_wrt_time" units="W s m-2"></item> 
     13122<item description="alias::integral_of_toa_outgoing_longwave_flux_wrt_time" label="IntegralWrtTimeOfToaOutgoingLongwaveFlux" title="Integral Wrt Time of Toa Outgoing Longwave Flux [alias]" uid="integral_of_toa_outgoing_longwave_flux_wrt_time" units="W s m-2"></item> 
    1309113123<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for nitrogen dioxide is NO2." label="MoleConcentrationOfNitrogenDioxideInAir" title="Mole Concentration of Nitrogen Dioxide in Air" uid="mole_concentration_of_nitrogen_dioxide_in_air" units="mol m-3"></item> 
    1309213124<item description="&quot;Production of carbon&quot; means the production of biomass expressed as the mass of carbon which it contains. Net primary production is the excess of gross primary production (rate of synthesis of biomass from inorganic precursors) by autotrophs (&quot;producers&quot;), for example, photosynthesis in plants or phytoplankton, over the rate at which the autotrophs themselves respire some of this biomass. &quot;Productivity&quot; means production per unit area. &quot;Miscellaneous phytoplankton&quot; are all those phytoplankton that are not diatoms, diazotrophs, calcareous phytoplankton, picophytoplankton or other seperately named components of the phytoplankton population. Phytoplankton are autotrophic prokaryotic or eukaryotic algae that live near the water surface where there is sufficient light to support photosynthesis. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A." label="NetPrimaryMoleProductivityOfBiomassExpressedAsCarbonByMiscellaneousPhytoplankton" title="Net Primary Mole Productivity of Biomass Expressed As Carbon by Miscellaneous Phytoplankton" uid="net_primary_mole_productivity_of_biomass_expressed_as_carbon_by_miscellaneous_phytoplankton" units="mol m-2 s-1"></item> 
     
    1309513127<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for hydrogen peroxide is H2O2." label="TendencyOfAtmosphereMolesOfHydrogenPeroxide" title="Tendency of Atmosphere Moles of Hydrogen Peroxide" uid="tendency_of_atmosphere_moles_of_hydrogen_peroxide" units="mol s-1"></item> 
    1309613128<item description="alias::grid_eastward_wind" label="XWind" title="X Wind [alias]" uid="grid_eastward_wind" units="m s-1"></item> 
    13097 <item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y. A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. &quot;Ambient_aerosol&quot; means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. &quot;Ambient aerosol particles&quot; are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. &quot;Pm10 aerosol&quot; is an air pollutant with an aerodynamic diameter of less than or equal to 10 micrometers. To specify the relative humidity and temperature at which the particle size applies, provide scalar coordinate variables with the standard names of, respectively, &quot;relative_humidity&quot; and &quot;air_temperature.&quot;" label="MassConcentrationOfPm10AmbientAerosolParticlesInAir" title="Mass Concentration of Pm10 Ambient Aerosol Particles in Air" uid="mass_concentration_of_pm10_ambient_aerosol_particles_in_air" units="kg m-3"></item> 
    13098 <item description="Mass fraction is used in the construction &quot;mass_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm10 aerosol&quot; is an air pollutant with an aerodynamic diameter of less than or equal to 10 micrometers. &quot;Primary particulate organic matter&quot; means all organic matter emitted directly to the atmosphere as particles except elemental carbon. The sum of primary_particulate_organic_matter_dry_aerosol and secondary_particulate_organic_matter_dry_aerosol is particulate_organic_matter_dry_aerosol." label="MassFractionOfPm10PrimaryParticulateOrganicMatterDryAerosolParticlesInAir" title="Mass Fraction of Pm10 Primary Particulate Organic Matter Dry Aerosol Particles in Air" uid="mass_fraction_of_pm10_primary_particulate_organic_matter_dry_aerosol_particles_in_air" units="1"></item> 
     13129<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y. A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. &quot;Ambient_aerosol&quot; means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. &quot;Ambient aerosol particles&quot; are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. &quot;Pm10 aerosol&quot; means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. To specify the relative humidity and temperature at which the particle size applies, provide scalar coordinate variables with the standard names of, respectively, &quot;relative_humidity&quot; and &quot;air_temperature.&quot;" label="MassConcentrationOfPm10AmbientAerosolParticlesInAir" title="Mass Concentration of Pm10 Ambient Aerosol Particles in Air" uid="mass_concentration_of_pm10_ambient_aerosol_particles_in_air" units="kg m-3"></item> 
     13130<item description="Mass fraction is used in the construction &quot;mass_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm10 aerosol&quot; means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. &quot;Primary particulate organic matter&quot; means all organic matter emitted directly to the atmosphere as particles except elemental carbon. The sum of primary_particulate_organic_matter_dry_aerosol and secondary_particulate_organic_matter_dry_aerosol is particulate_organic_matter_dry_aerosol." label="MassFractionOfPm10PrimaryParticulateOrganicMatterDryAerosolParticlesInAir" title="Mass Fraction of Pm10 Primary Particulate Organic Matter Dry Aerosol Particles in Air" uid="mass_fraction_of_pm10_primary_particulate_organic_matter_dry_aerosol_particles_in_air" units="1"></item> 
    1309913131<item description="A period is an interval of time, or the time-period of an oscillation. Swell waves are waves on the ocean surface." label="SeaSurfaceSwellWavePeriod" title="Sea Surface Swell Wave Period" uid="sea_surface_swell_wave_period" units="s"></item> 
    1310013132<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Dry deposition&quot; is the sum of turbulent deposition and gravitational settling. The chemical formula for formaldehyde is CH2O. The IUPAC name for formaldehyde is methanal." label="TendencyOfAtmosphereMassContentOfFormaldehydeDueToDryDeposition" title="Tendency of Atmosphere Mass Content of Formaldehyde due to Dry Deposition" uid="tendency_of_atmosphere_mass_content_of_formaldehyde_due_to_dry_deposition" units="kg m-2 s-1"></item> 
    1310113133<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for halon1301 is CBrF3. The IUPAC name for halon1301 is bromo-trifluoro-methane." label="TendencyOfAtmosphereMassContentOfHalon1301DueToEmission" title="Tendency of Atmosphere Mass Content of Halon1301 due to Emission" uid="tendency_of_atmosphere_mass_content_of_halon1301_due_to_emission" units="kg m-2 s-1"></item> 
    1310213134<item description="The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for HCFC22 is CHClF2.  The IUPAC name for HCFC22 is chloro-difluoro-methane." label="AtmosphereMolesOfHcfc22" title="Atmosphere Moles of Hcfc22" uid="atmosphere_moles_of_hcfc22" units="mol"></item> 
     13135<item description="The phrase &quot;integral_wrt_X_of_Y&quot; means int Y dX. The data variable should have an axis for X specifying the limits of the integral as bounds. &quot;wrt&quot; means with respect to. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The air temperature excess is the air temperature minus the air temperature threshold, where only positive values are included in the integral. Its integral with respect to time is often called after its units of &quot;degree-days&quot;. The air_temperature variable, which is the data variable of the integral should have a scalar coordinate variable or a size-one coordinate variable with the standard name of air_temperature_threshold, to indicate the threshold." label="IntegralWrtTimeOfAirTemperatureExcess" title="Integral Wrt Time of Air Temperature Excess" uid="integral_wrt_time_of_air_temperature_excess" units="K s"></item> 
    1310313136<item description="&quot;Land ice&quot; means glaciers, ice-caps and ice-sheets resting on bedrock and also includes ice-shelves." label="LandIceSigmaCoordinate" title="Land Ice Sigma Coordinate" uid="land_ice_sigma_coordinate" units="1"></item> 
    1310413137<item description="alias::mass_fraction_of_ammonium_dry_aerosol_in_air" label="MassFractionOfAmmoniumDryAerosolParticlesInAir" title="Mass Fraction of Ammonium Dry Aerosol Particles in Air [alias]" uid="mass_fraction_of_ammonium_dry_aerosol_in_air" units="1"></item> 
     
    1311013143<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula of CFC113 is CCl2FCClF2. The IUPAC name for CFC113 is 1,1,2-trichloro-1,2,2-trifluoro-ethane." label="MassConcentrationOfCfc113InAir" title="Mass Concentration of Cfc113 in Air" uid="mass_concentration_of_cfc113_in_air" units="kg m-3"></item> 
    1311113144<item description="'Mass concentration' means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical or biological species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The phrase 'expressed_as' is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. 'Flagellates' are a class of single celled organisms that use a flagellum (whip-like structure) for feeding and locomotion. Some flagellates can photosynthesize and others feed on bacteria, with a few flagellatescapable of both." label="MassConcentrationOfFlagellatesExpressedAsNitrogenInSeaWater" title="Mass Concentration of Flagellates Expressed As Nitrogen in Sea Water" uid="mass_concentration_of_flagellates_expressed_as_nitrogen_in_sea_water" units="kg m-3"></item> 
    13112 <item description="alias::mass_fraction_of_pm10_aerosol_in_air" label="MassFractionOfPm10AmbientAerosolParticlesInAir" title="Mass Fraction of Pm10 Ambient Aerosol Particles in Air [alias]" uid="mass_fraction_of_pm10_aerosol_in_air" units="1"></item> 
    1311313145<item description="cloud_top refers to the top of the highest cloud. Model level number should be understood as equivalent to layer number. Convective cloud is that produced by the convection schemes in an atmosphere model." label="ModelLevelNumberAtConvectiveCloudTop" title="Model Level Number At Convective Cloud Top" uid="model_level_number_at_convective_cloud_top" units="1"></item> 
    1311413146<item description="Air temperature is the bulk temperature of the air, not the surface (skin) temperature. In an atmosphere model, stratiform cloud is that produced by large-scale convergence (not the convection schemes). The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfAirTemperatureDueToStratiformPrecipitation" title="Tendency of Air Temperature due to Stratiform Precipitation" uid="tendency_of_air_temperature_due_to_stratiform_precipitation" units="K s-1"></item> 
     
    1311613148<item description="toa_outgoing_radiance_per_unit_wavenumber_stdev_within_collocation_scene is the standard deviation of observations of the quantity with standard name toa_outgoing_radiance_per_unit_wavenumber from a sensor's adjacent field-of-views within a collocation scene. &quot;toa&quot; means top of atmosphere. The TOA outgoing radiance is the upwelling radiance, i.e., toward outer space. Radiance is the radiative flux in a particular direction, per unit of solid angle. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics. The &quot;collocation scene&quot; is a grouping of a sensor's adjacent field-of-views centered on a collocation target. The size of the collocation scene is typically about twice that of the collocation target. The &quot;collocation target&quot; is an area on the Earth's surface at which observations from at least two sensors are collected. Its size is defined by the sensor with the largest field-of-view footprint. Two events are deemed to be collocated based on some set of spatial, temporal, and viewing geometry criteria." label="ToaOutgoingRadiancePerUnitWavenumberStdevWithinCollocationScene" title="Toa Outgoing Radiance Per Unit Wavenumber Stdev Within Collocation Scene" uid="toa_outgoing_radiance_per_unit_wavenumber_stdev_within_collocation_scene" units="W m-2 sr-1 (m-1)-1"></item> 
    1311713149<item description="alias::atmosphere_mass_content_of_black_carbon_dry_aerosol" label="AtmosphereMassContentOfElementalCarbonDryAerosolParticles" title="Atmosphere Mass Content of Elemental Carbon Dry Aerosol Particles [alias]" uid="atmosphere_mass_content_of_black_carbon_dry_aerosol" units="kg m-2"></item> 
     13150<item description="alias::mass_fraction_of_pm10_aerosol_in_air" label="MassFractionOfPm10AmbientAerosolParticlesInAir" title="Mass Fraction of Pm10 Ambient Aerosol Particles in Air [alias]" uid="mass_fraction_of_pm10_aerosol_in_air" units="1"></item> 
    1311813151<item description="&quot;Eastward&quot; indicates a vector component which is positive when directed eastward (negative westward). Transport across_unit_distance means expressed per unit distance normal to the direction of transport." label="EastwardAtmosphereWaterVaporTransportAcrossUnitDistance" title="Eastward Atmosphere Water Vapor Transport Across Unit Distance" uid="eastward_atmosphere_water_vapor_transport_across_unit_distance" units="kg m-1 s-1"></item> 
    1311913152<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for nitric acid is HNO3." label="MoleConcentrationOfNitricAcidInAir" title="Mole Concentration of Nitric Acid in Air" uid="mole_concentration_of_nitric_acid_in_air" units="mol m-3"></item> 
     
    1314513178<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The chemical symbol for atomic bromine is Br." label="AtmosphereMassContentOfAtomicBromine" title="Atmosphere Mass Content of Atomic Bromine" uid="atmosphere_mass_content_of_atomic_bromine" units="kg m-2"></item> 
    1314613179<item description="In ocean modelling, diazotrophs are phytoplankton of the phylum cyanobacteria distinct from other phytoplankton groups in their ability to fix nitrogen gas in addition to nitrate and ammonium. Phytoplankton are algae that grow where there is sufficient light to support photosynthesis. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Irradiance&quot; means the power per unit area (called radiative flux in other standard names), the area being normal to the direction of flow of the radiant energy. Solar irradiance is essential to the photosynthesis reaction and its presence promotes the growth of phytoplankton populations. &quot;Growth limitation due to solar irradiance&quot; means the ratio of the growth rate of a species population in the environment (where the amount of sunlight reaching a location may be limited) to the theoretical growth rate if there were no such limit on solar irradiance." label="GrowthLimitationOfDiazotrophsDueToSolarIrradiance" title="Growth Limitation of Diazotrophs due to Solar Irradiance" uid="growth_limitation_of_diazotrophs_due_to_solar_irradiance" units="1"></item> 
    13147 <item description="alias::large_scale_rainfall_flux" label="StratiformRainfallFlux" title="Stratiform Rainfall Flux [alias]" uid="large_scale_rainfall_flux" units="kg m-2 s-1"></item> 
     13180<item description="Steric sea level change is caused by changes in sea water density due to changes in temperature (thermosteric) and salinity (halosteric). &quot;Mean sea level&quot; means the time mean of sea surface elevation at a given location over an arbitrary period sufficient to eliminate the tidal signals. Zero mean sea level change is an arbitrary level. The sum of the quantities with standard names thermosteric_change_in_mean_sea_level and halosteric_change_in_mean_sea_level has the standard name steric_change_in_mean_sea_level." label="StericChangeInMeanSeaLevel" title="Steric Change in Mean Sea Level" uid="steric_change_in_mean_sea_level" units="m"></item> 
    1314813181<item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. Atmosphere water vapor content is sometimes referred to as &quot;precipitable water&quot;, although this term does not imply the water could all be precipitated." label="TendencyOfAtmosphereMassContentOfWaterVaporDueToAdvection" title="Tendency of Atmosphere Mass Content of Water Vapor due to Advection" uid="tendency_of_atmosphere_mass_content_of_water_vapor_due_to_advection" units="kg m-2 s-1"></item> 
    1314913182<item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;tendency_of_X&quot; means derivative of X with respect to time. Speed is the magnitude of velocity. Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.) The wind speed is the magnitude of the wind velocity." label="TendencyOfWindSpeedDueToGravityWaveDrag" title="Tendency of Wind Speed due to Gravity Wave Drag" uid="tendency_of_wind_speed_due_to_gravity_wave_drag" units="m s-2"></item> 
    1315013183<item description="&quot;Water&quot; means water in all phases. The water flux into sea water is the freshwater entering as a result of precipitation, evaporation, river inflow, sea ice effects and water flux relaxation and correction (if applied). In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="WaterFluxIntoSeaWater" title="Water Flux Into Sea Water" uid="water_flux_into_sea_water" units="kg m-2 s-1"></item> 
     13184<item description="alias::large_scale_rainfall_flux" label="StratiformRainfallFlux" title="Stratiform Rainfall Flux [alias]" uid="large_scale_rainfall_flux" units="kg m-2 s-1"></item> 
    1315113185<item description="Convective(ly) available potential energy (often abbreviated CAPE) is a stability measure calculated by integrating the positive temperature difference between the surrounding atmosphere and a parcel of air lifted adiabatically from a given starting height to its equilibrium level. A coordinate variable of original_air_pressure_of_lifted_parcel should be specified to indicate the starting height of the lifted parcel. CAPE exists under conditions of potential instability, and measures the potential energy per unit mass that would be released by the unstable parcel if it were able to convect upwards to equilibrium." label="AtmosphereConvectiveAvailablePotentialEnergy" title="Atmosphere Convective Available Potential Energy" uid="atmosphere_convective_available_potential_energy" units="J kg-1"></item> 
    1315213186<item description="The diameter of an aerosol particle as selected by its electrical mobility." label="ElectricalMobilityParticleDiameter" title="Electrical Mobility Particle Diameter" uid="electrical_mobility_particle_diameter" units="m"></item> 
     
    1316113195<item description="alias::atmosphere_mass_content_of_sulfate_dry_aerosol" label="AtmosphereMassContentOfSulfateDryAerosolParticles" title="Atmosphere Mass Content of Sulfate Dry Aerosol Particles [alias]" uid="atmosphere_mass_content_of_sulfate_dry_aerosol" units="kg m-2"></item> 
    1316213196<item description="Sound pressure is the difference from the local ambient pressure caused by a sound wave at a particular location and time." label="SoundPressureInAir" title="Sound Pressure in Air" uid="sound_pressure_in_air" units="Pa"></item> 
    13163 <item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. &quot;tendency_of_X&quot; means derivative of X with respect to time. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;wet_deposition&quot; means deposition by precipitation. &quot;Nitrogen&quot; summarizes all chemical species containing nitrogen atoms. Usually, particle bound and gaseous nitrogen compounds, such as atomic nitrogen (N), nitrogen monoxide (NO), nitrogen dioxide (NO2), dinitrogen pentoxide (N2O5), nitric acid (HNO3), nitrage (NO3-), peroxynitric acid (HNO4), ammoina (NH3), ammonium (NH4+), bromine nitrate (BrONO2), chlorine nitrate (ClONO2) and organic nitrates (most notably peroxyacetyl nitrate, sometimes referred to as PAN, (CH3COO2NO2)) are included. The list of individual species that are included in this quantity can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute." label="TendencyOfAtmosphereMassContentOfNitrogenDueToWetDeposition" title="Tendency of Atmosphere Mass Content of Nitrogen due to Wet Deposition" uid="tendency_of_atmosphere_mass_content_of_nitrogen_due_to_wet_deposition" units="kg m-2 s-1"></item> 
     13197<item description="alias::tendency_of_atmosphere_mass_content_of_nitrogen_due_to_wet_deposition" label="TendencyOfAtmosphereMassContentOfNitrogenCompoundsExpressedAsNitrogenDueToWetDeposition" title="Tendency of Atmosphere Mass Content of Nitrogen Compounds Expressed As Nitrogen due to Wet Deposition [alias]" uid="tendency_of_atmosphere_mass_content_of_nitrogen_due_to_wet_deposition" units="kg m-2 s-1"></item> 
    1316413198<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for toluene is C6H5CH3. Toluene has the same structure as benzene, except that one of the hydrogen atoms is replaced by a methyl group. The systematic name for toluene is methylbenzene. The &quot;maritime transport&quot; sector includes fuel combustion activities related to maritime transport. &quot;Maritime transport&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 1A3d as defined in the 2006 IPCC guidelines for national greenhouse gas Inventories&quot;." label="TendencyOfAtmosphereMassContentOfTolueneDueToEmissionFromMaritimeTransport" title="Tendency of Atmosphere Mass Content of Toluene due to Emission from Maritime Transport" uid="tendency_of_atmosphere_mass_content_of_toluene_due_to_emission_from_maritime_transport" units="kg m-2 s-1"></item> 
    1316513199<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for xylene is C6H4C2H6. In chemistry, xylene is a generic term for a group of three isomers of dimethylbenzene. The IUPAC names for the isomers are 1,2-dimethylbenzene, 1,3-dimethylbenzene and 1,4-dimethylbenzene. Xylene is an aromatic hydrocarbon. There are standard names that refer to aromatic_compounds as a group, as well as those for individual species. The &quot;solvent production and use&quot; sector comprises industrial processes related to the consumption of halocarbons, SF6, solvent and other product use. &quot;Solvent production and use&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 2F and 3 as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfXyleneDueToEmissionFromSolventProductionAndUse" title="Tendency of Atmosphere Mass Content of Xylene due to Emission from Solvent Production And Use" uid="tendency_of_atmosphere_mass_content_of_xylene_due_to_emission_from_solvent_production_and_use" units="kg m-2 s-1"></item> 
    1316613200<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for xylene is C6H4C2H6. In chemistry, xylene is a generic term for a group of three isomers of dimethylbenzene. The IUPAC names for the isomers are 1,2-dimethylbenzene, 1,3-dimethylbenzene and 1,4-dimethylbenzene. Xylene is an aromatic hydrocarbon. There are standard names that refer to aromatic_compounds as a group, as well as those for individual species." label="TendencyOfAtmosphereMolesOfXylene" title="Tendency of Atmosphere Moles of Xylene" uid="tendency_of_atmosphere_moles_of_xylene" units="mol s-1"></item> 
    1316713201<item description="The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for halon1211 is CBrClF2. The IUPAC name for halon1211 is bromo-chloro-difluoro-methane." label="AtmosphereMolesOfHalon1211" title="Atmosphere Moles of Halon1211" uid="atmosphere_moles_of_halon1211" units="mol"></item> 
    13168 <item description="The optical thickness is the integral along the path of radiation of a volume scattering/absorption/attenuation coefficient. The radiative flux is reduced by a factor exp(-optical_thickness) on traversing the path. The atmosphere optical thickness applies to radiation passing through the entire atmosphere. A coordinate variable of radiation_wavelength or radiation_frequency can be specified to indicate that the optical thickness applies at specific wavelengths or frequencies. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. &quot;Ambient_aerosol&quot; means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. &quot;Ambient aerosol particles&quot; are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. &quot;Pm2p5 aerosol&quot; is an air pollutant with an aerodynamic diameter of less than or equal to 2.5 micrometers. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase." label="AtmosphereOpticalThicknessDueToPm2P5AmbientAerosolParticles" title="Atmosphere Optical Thickness due to Pm2P5 Ambient Aerosol Particles" uid="atmosphere_optical_thickness_due_to_pm2p5_ambient_aerosol_particles" units="1"></item> 
     13202<item description="The optical thickness is the integral along the path of radiation of a volume scattering/absorption/attenuation coefficient. The radiative flux is reduced by a factor exp(-optical_thickness) on traversing the path. The atmosphere optical thickness applies to radiation passing through the entire atmosphere. A coordinate variable of radiation_wavelength or radiation_frequency can be specified to indicate that the optical thickness applies at specific wavelengths or frequencies. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. &quot;Ambient_aerosol&quot; means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. &quot;Ambient aerosol particles&quot; are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. &quot;Pm2p5 aerosol&quot; means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase." label="AtmosphereOpticalThicknessDueToPm2P5AmbientAerosolParticles" title="Atmosphere Optical Thickness due to Pm2P5 Ambient Aerosol Particles" uid="atmosphere_optical_thickness_due_to_pm2p5_ambient_aerosol_particles" units="1"></item> 
    1316913203<item description="&quot;X_area_fraction&quot; means the fraction of horizontal area occupied by X. &quot;X_area&quot; means the horizontal area occupied by X within the grid cell. &quot;Burned area&quot; means the area of burned vegetation." label="BurnedAreaFraction" title="Burned Area Fraction" uid="burned_area_fraction" units="1"></item> 
    1317013204<item description="Downwelling radiation is radiation from above. It does not mean &quot;net downward&quot;.  When thought of as being incident on a surface, a radiative flux is sometimes called &quot;irradiance&quot;. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called &quot;vector irradiance&quot;. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics. A coordinate variable for radiation wavelength should be given the standard name radiation_wavelength." label="DownwellingRadiativeFluxPerUnitWavelengthInSeaWater" title="Downwelling Radiative Flux Per Unit Wavelength in Sea Water" uid="downwelling_radiative_flux_per_unit_wavelength_in_sea_water" units="W m-2 m-1"></item> 
     
    1318413218<item description="&quot;Layer&quot; means any layer with upper and lower boundaries that have constant values in some vertical coordinate. There must be a vertical coordinate variable indicating the extent of the layer(s). If the layers are model layers, the vertical coordinate can be &quot;model_level_number&quot;, but it is recommended to specify a physical coordinate (in a scalar or auxiliary coordinate variable) as well. &quot;X_area_fraction&quot; means the fraction of horizontal area occupied by X. Cloud area fraction is also called &quot;cloud amount&quot; and &quot;cloud cover&quot;. The chemical formula for water is H2O." label="LiquidWaterCloudAreaFractionInAtmosphereLayer" title="Liquid Water Cloud Area Fraction in Atmosphere Layer" uid="liquid_water_cloud_area_fraction_in_atmosphere_layer" units="1"></item> 
    1318513219<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for formaldehyde is CH2O. The IUPAC name for formaldehyde is methanal." label="MassConcentrationOfFormaldehydeInAir" title="Mass Concentration of Formaldehyde in Air" uid="mass_concentration_of_formaldehyde_in_air" units="kg m-3"></item> 
     13220<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm2p5 aerosol&quot; means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Dry deposition&quot; is the sum of turbulent deposition and gravitational settling. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfAtmosphereMassContentOfPm2P5SeaSaltDryAerosolParticlesDueToDryDeposition" title="Tendency of Atmosphere Mass Content of Pm2P5 Sea Salt Dry Aerosol Particles due to Dry Deposition" uid="tendency_of_atmosphere_mass_content_of_pm2p5_sea_salt_dry_aerosol_particles_due_to_dry_deposition" units="kg m-2 s-1"></item> 
    1318613221<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for xylene is C6H4C2H6. In chemistry, xylene is a generic term for a group of three isomers of dimethylbenzene. The IUPAC names for the isomers are 1,2-dimethylbenzene, 1,3-dimethylbenzene and 1,4-dimethylbenzene. Xylene is an aromatic hydrocarbon. There are standard names that refer to aromatic_compounds as a group, as well as those for individual species. The &quot;forest fires&quot; sector comprises the burning (natural and human-induced) of living or dead vegetation in forests. &quot;Forest fires&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 5 as defined in the 2006 IPCC guidelines for national greenhouse gas Inventories&quot;." label="TendencyOfAtmosphereMassContentOfXyleneDueToEmissionFromForestFires" title="Tendency of Atmosphere Mass Content of Xylene due to Emission from Forest Fires" uid="tendency_of_atmosphere_mass_content_of_xylene_due_to_emission_from_forest_fires" units="kg m-2 s-1"></item> 
    1318713222<item description="toa_brightness_temperature_bias_at_standard_scene_due_to_intercalibration is the difference between top-of-atmosphere (TOA) brightness temperature of the reference sensor and TOA brightness temperature of the monitored sensor. This TOA brightness temperature difference is a measure of the calibration difference between the monitored and reference sensors. The standard scene is a target area with typical Earth surface and atmospheric conditions that is accepted as a reference. Brightness temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area at a given wavenumber. TOA brightness temperature of the standard scene is calculated using a radiative transfer simulation for a given viewing geometry. The resultant top-of-atmosphere spectral radiance is then integrated with each sensor's spectral response function and converted to equivalent brightness temperature. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase." label="ToaBrightnessTemperatureBiasAtStandardSceneDueToIntercalibration" title="Toa Brightness Temperature Bias At Standard Scene due to Intercalibration" uid="toa_brightness_temperature_bias_at_standard_scene_due_to_intercalibration" units="K"></item> 
     
    1320013235<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Net chemical production&quot; means the net result of all chemical reactions within the atmosphere that produce or destroy a particular species. &quot;Aqueous phase net chemical production&quot; means the net result of all aqueous chemical processes in fog and clouds that produce or destroy a species, as opposed to chemical processes in the gaseous phase. &quot;tendency_of_X&quot; means derivative of X with respect to time. The chemical formula for the sulfate anion is SO4(2-)." label="TendencyOfAtmosphereMassContentOfSulfateDryAerosolParticlesDueToAqueousPhaseNetChemicalProduction" title="Tendency of Atmosphere Mass Content of Sulfate Dry Aerosol Particles due to Aqueous Phase Net Chemical Production" uid="tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_particles_due_to_aqueous_phase_net_chemical_production" units="kg m-2 s-1"></item> 
    1320113236<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for formic acid is HCOOH.  The IUPAC name for formic acid is methanoic acid." label="TendencyOfAtmosphereMolesOfFormicAcid" title="Tendency of Atmosphere Moles of Formic Acid" uid="tendency_of_atmosphere_moles_of_formic_acid" units="mol s-1"></item> 
    13202 <item description="cloud_base refers to the base of the lowest cloud." label="AirPressureAtCloudBase" title="Air Pressure At Cloud Base" uid="air_pressure_at_cloud_base" units="Pa"></item> 
     13237<item description="The phrase &quot;cloud_base&quot; refers to the base of the lowest cloud. Air pressure is the force per unit area which would be exerted when the moving gas molecules of which the air is composed strike a theoretical surface of any orientation." label="AirPressureAtCloudBase" title="Air Pressure At Cloud Base" uid="air_pressure_at_cloud_base" units="Pa"></item> 
    1320313238<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The chemical formula for methyl_peroxy_radical is CH3O2. In chemistry, a 'radical' is a highly reactive, and therefore shortlived, species." label="AtmosphereMassContentOfMethylPeroxyRadical" title="Atmosphere Mass Content of Methyl Peroxy Radical" uid="atmosphere_mass_content_of_methyl_peroxy_radical" units="kg m-2"></item> 
    1320413239<item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). &quot;Mass_fraction_of_nitrate&quot; means that the mass is expressed as mass of NO3. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake." label="MassFractionOfNitrateDryAerosolParticlesInAir" title="Mass Fraction of Nitrate Dry Aerosol Particles in Air" uid="mass_fraction_of_nitrate_dry_aerosol_particles_in_air" units="1"></item> 
    13205 <item description="&quot;moisture&quot; means water in all phases contained in soil. &quot;Content&quot; indicates a quantity per unit area. &quot;Layer&quot; means any layer with upper and lower boundaries that have constant values in some vertical coordinate. There must be a vertical coordinate variable indicating the extent of the layer(s). If the layers are model layers, the vertical coordinate can be model_level_number, but it is recommended to specify a physical coordinate (in a scalar or auxiliary coordinate variable) as well. Quantities defined for a soil layer must have a vertical coordinate variable with boundaries indicating the extent of the layer(s)." label="MoistureContentOfSoilLayer" title="Moisture Content of Soil Layer" uid="moisture_content_of_soil_layer" units="kg m-2"></item> 
     13240<item description="alias::moisture_content_of_soil_layer" label="MassContentOfWaterInSoilLayer" title="Mass Content of Water in Soil Layer [alias]" uid="moisture_content_of_soil_layer" units="kg m-2"></item> 
    1320613241<item description="Mole fraction is used in the construction mole_fraction_of_X_in_Y, whereX is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemicalformula for methyl_peroxy_radical is CH3O2. In chemistry, a 'radical' is a highly reactive, and therefore shortlived, species." label="MoleFractionOfMethylPeroxyRadicalInAir" title="Mole Fraction of Methyl Peroxy Radical in Air" uid="mole_fraction_of_methyl_peroxy_radical_in_air" units="1"></item> 
    1320713242<item description="&quot;Northward&quot; indicates a vector component which is positive when directed northward (negative southward)." label="NorthwardTransformedEulerianMeanAirVelocity" title="Northward Transformed Eulerian Mean Air Velocity" uid="northward_transformed_eulerian_mean_air_velocity" units="m s-1"></item> 
     
    1325413289<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y. A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake." label="MassConcentrationOfDustDryAerosolParticlesInAir" title="Mass Concentration of Dust Dry Aerosol Particles in Air" uid="mass_concentration_of_dust_dry_aerosol_particles_in_air" units="kg m-3"></item> 
    1325513290<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for nitrous acid is HNO2." label="MassConcentrationOfNitrousAcidInAir" title="Mass Concentration of Nitrous Acid in Air" uid="mass_concentration_of_nitrous_acid_in_air" units="kg m-3"></item> 
    13256 <item description="&quot;X_area_fraction&quot; means the fraction of horizontal area occupied by X. &quot;X_area&quot; means the horizontal area occupied by X within the grid cell. Sea ice area fraction is area of the sea surface occupied by sea ice. It is also called &quot;sea ice concentration&quot;." label="SeaIceAreaFraction" title="Sea Ice Area Fraction" uid="sea_ice_area_fraction" units="1"></item> 
    1325713291<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for formaldehyde is CH2O. The IUPAC name for formaldehyde is methanal." label="TendencyOfAtmosphereMassContentOfFormaldehydeDueToEmission" title="Tendency of Atmosphere Mass Content of Formaldehyde due to Emission" uid="tendency_of_atmosphere_mass_content_of_formaldehyde_due_to_emission" units="kg m-2 s-1"></item> 
    1325813292<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;nmvoc&quot; means non methane volatile organic compounds; &quot;nmvoc&quot; is the term used in standard names to describe the group of chemical species having this classification that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. The &quot;forest fires&quot; sector comprises the burning (natural and human-induced) of living or dead vegetation in forests. &quot;Forest fires&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 5 as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfNmvocDueToEmissionFromForestFires" title="Tendency of Atmosphere Mass Content of Nmvoc due to Emission from Forest Fires" uid="tendency_of_atmosphere_mass_content_of_nmvoc_due_to_emission_from_forest_fires" units="kg m-2 s-1"></item> 
     13293<item description="&quot;X_area_fraction&quot; means the fraction of horizontal area occupied by X. &quot;X_area&quot; means the horizontal area occupied by X within the grid cell. Sea ice area fraction is area of the sea surface occupied by sea ice. It is also called &quot;sea ice concentration&quot;." label="SeaIceAreaFraction" title="Sea Ice Area Fraction" uid="sea_ice_area_fraction" units="1"></item> 
    1325913294<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. Terpenes are hydrocarbons, that is, they contain only hydrogen and carbon combined in the general proportions (C5H8)n where n is an integer greater than on equal to one. The term &quot;terpenes&quot; is used in standard names to describe the group of chemical species having this common structure that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. Standard names exist for some individual terpene species, e.g., isoprene and limonene. The &quot;savanna and grassland fires&quot; sector comprises the burning (natural and human-induced) of living or dead vegetation in non-forested areas. It excludes field burning of agricultural residues. &quot;Savanna and grassland fires&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 5 as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfTerpenesDueToEmissionFromSavannaAndGrasslandFires" title="Tendency of Atmosphere Mass Content of Terpenes due to Emission from Savanna And Grassland Fires" uid="tendency_of_atmosphere_mass_content_of_terpenes_due_to_emission_from_savanna_and_grassland_fires" units="kg m-2 s-1"></item> 
    13260 <item description="cloud_base refers to the base of the lowest cloud. Convective cloud is that produced by the convection schemes in an atmosphere model." label="AirPressureAtConvectiveCloudBase" title="Air Pressure At Convective Cloud Base" uid="air_pressure_at_convective_cloud_base" units="Pa"></item> 
     13295<item description="The phrase &quot;cloud_base&quot; refers to the base of the lowest cloud. Convective cloud is that produced by the convection schemes in an atmosphere model. Air pressure is the force per unit area which would be exerted when the moving gas molecules of which the air is composed strike a theoretical surface of any orientation." label="AirPressureAtConvectiveCloudBase" title="Air Pressure At Convective Cloud Base" uid="air_pressure_at_convective_cloud_base" units="Pa"></item> 
    1326113296<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for dimethyl sulfide is (CH3)2S.  Dimethyl sulfide is sometimes referred to as DMS." label="MassConcentrationOfDimethylSulfideInAir" title="Mass Concentration of Dimethyl Sulfide in Air" uid="mass_concentration_of_dimethyl_sulfide_in_air" units="kg m-3"></item> 
    1326213297<item description="alias::ocean_mixed_layer_thickness_defined_by_vertical_tracer_diffusivity" label="OceanMixedLayerThicknessDefinedByVerticalTracerDiffusivityDeficit" title="Ocean Mixed Layer Thickness Defined by Vertical Tracer Diffusivity Deficit [alias]" uid="ocean_mixed_layer_thickness_defined_by_vertical_tracer_diffusivity" units="m"></item> 
     
    1326713302<item description="&quot;Land ice&quot; means glaciers, ice-caps and ice-sheets resting on bedrock and also includes ice-shelves. Runoff is the liquid water which drains from land. If not specified, &quot;runoff&quot; refers to the sum of surface runoff and subsurface drainage. Runoff flux over land ice is the difference between any available liquid water in the snowpack due to rainfall and melting minus any refreezing and liquid water retained in the snowpack. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="LandIceRunoffFlux" title="Land Ice Runoff Flux" uid="land_ice_runoff_flux" units="kg m-2 s-1"></item> 
    1326813303<item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, whereX is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for ethanol isC2H5OH." label="MassFractionOfEthanolInAir" title="Mass Fraction of Ethanol in Air" uid="mass_fraction_of_ethanol_in_air" units="1"></item> 
     13304<item description="Diffusivity is also sometimes known as the coefficient of diffusion. Diffusion occurs as a result of a gradient in the spatial distribution of mass concentration, temperature or momentum. The diffusivity may be very different in the vertical and horizontal directions. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Parameterized eddy advection in an ocean model means the part due to a scheme representing parameterized eddy-induced advective effects not included in the resolved model velocity field. Parameterized mesoscale eddy advection occurs on a spatial scale of many tens of kilometres and an evolutionary time of weeks. Reference: James C. McWilliams 2016, Submesoscale currents in the ocean, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, volume 472, issue 2189. DOI: 10.1098/rspa.2016.0117. Parameterized mesoscale eddy advection is represented in ocean models using schemes such as the Gent-McWilliams scheme. There are also standard names for parameterized_submesoscale_eddy_advection which, along with parameterized_mesoscale_eddy_advection, contributes to the total parameterized eddy advection." label="OceanTracerDiffusivityDueToParameterizedMesoscaleEddyAdvection" title="Ocean Tracer Diffusivity due to Parameterized Mesoscale Eddy Advection" uid="ocean_tracer_diffusivity_due_to_parameterized_mesoscale_eddy_advection" units="m2 s-1"></item> 
    1326913305<item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. The surface temperature is the temperature at the interface, not the bulk temperature of the medium above or below. Unless indicated in the cell_methods attribute, a quantity is assumed to apply to the whole area of each horizontal grid box. Previously, the qualifier where_type was used to specify that the quantity applies only to the part of the grid box of the named type.  Names containing the where_type qualifier are deprecated and newly created data should use the cell_methods attribute to indicate the horizontal area to which the quantity applies." label="SurfaceTemperature" title="Surface Temperature" uid="surface_temperature" units="K"></item> 
    1327013306<item description="The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for HCFC142b is CH3CClF2. The IUPAC name for HCFC142b is 1-chloro-1,1-difluoroethane." label="AtmosphereMolesOfHcfc142B" title="Atmosphere Moles of Hcfc142B" uid="atmosphere_moles_of_hcfc142b" units="mol"></item> 
     
    1327813314<item description="Transport &quot;across_line&quot; means that which crosses a particular line on the Earth's surface; formally this means the integral along the line of the normal component of the transport." label="OceanVolumeTransportAcrossLine" title="Ocean Volume Transport Across Line" uid="ocean_volume_transport_across_line" units="m3 s-1"></item> 
    1327913315<item description="Standard names for &quot;platform&quot; describe the motion and orientation of the vehicle from which observations are made e.g. aeroplane, ship or satellite. Platform zenith angle is the the angle between the line of sight to the platform and the local zenith at the observation target. This angle is measured starting from directly overhead and its range is from zero (directly overhead the observation target) to 180 degrees (directly below the observation target). Local zenith is a line perpendicular to the Earth's surface at a given location. &quot;Observation target&quot; means a location on the Earth defined by the sensor performing the observations. A standard name also exists for sensor_zenith_angle. For some viewing geometries the sensor and the platform cannot be assumed to be close enough to neglect the difference in calculated zenith angle." label="PlatformZenithAngle" title="Platform Zenith Angle" uid="platform_zenith_angle" units="degree"></item> 
     13316<item description="The phrase &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Parameterized eddy advection in an ocean model means the part due to a scheme representing parameterized eddy-induced advective effects not included in the resolved model velocity field. Parameterized eddy advection can be represented on various spatial scales and there are standard names for parameterized_mesoscale_eddy_advection and parameterized_submesoscale_eddy_advection which both contribute to the total parameterized eddy advection. Additionally, when the parameterized advective process is represented in the model as a skew-diffusion rather than an advection, then the parameterized skew diffusion should be included in this diagnostic. The convergence of a skew-flux is identical (in the continuous formulation) to the convergence of an advective flux, making their tendencies the same." label="TendencyOfSeaWaterSalinityExpressedAsSaltContentDueToParameterizedEddyAdvection" title="Tendency of Sea Water Salinity Expressed As Salt Content due to Parameterized Eddy Advection" uid="tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_eddy_advection" units="kg m-2 s-1"></item> 
     13317<item description="Air pressure at sea level is the quantity often abbreviated as MSLP or PMSL. Air pressure is the force per unit area which would be exerted when the moving gas molecules of which the air is composed strike a theoretical surface of any orientation. &quot;Mean sea level&quot; means the time mean of sea surface elevation at a given location over an arbitrary period sufficient to eliminate the tidal signals." label="AirPressureAtMeanSeaLevel" title="Air Pressure At Mean Sea Level" uid="air_pressure_at_mean_sea_level" units="Pa"></item> 
    1328013318<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol takes up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the aerosol. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Primary particulate organic matter &quot; means all organic matter emitted directly to the atmosphere as particles except elemental carbon. The sum of primary_particulate_organic_matter_dry_aerosol and secondary_particulate_organic_matter_dry_aerosol is particulate_organic_matter_dry_aerosol. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The &quot;savanna and grassland fires&quot; sector comprises the burning (natural and human-induced) of living or dead vegetation in non-forested areas. It excludes field burning of agricultural residues. &quot;Savanna and grassland fires&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 5 as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfParticulateOrganicMatterDryAerosolParticlesExpressedAsCarbonDueToEmissionFromSavannaAndGrasslandFires" title="Tendency of Atmosphere Mass Content of Particulate Organic Matter Dry Aerosol Particles Expressed As Carbon due to Emission from Savanna And Grassland Fires" uid="tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_particles_expressed_as_carbon_due_to_emission_from_savanna_and_grassland_fires" units="kg m-2 s-1"></item> 
    1328113319<item description="alias::upwelling_spectral_radiative_flux_in_air" label="UpwellingRadiativeFluxPerUnitWavelengthInAir" title="Upwelling Radiative Flux Per Unit Wavelength in Air [alias]" uid="upwelling_spectral_radiative_flux_in_air" units="W m-2 m-1"></item> 
     
    1329513333<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'." label="MoleConcentrationOfPhosphateInSeaWater" title="Mole Concentration of Phosphate in Sea Water" uid="mole_concentration_of_phosphate_in_sea_water" units="mol m-3"></item> 
    1329613334<item description="alias::net_primary_mole_productivity_of_carbon_by_miscellaneous_phytoplankton" label="NetPrimaryMoleProductivityOfBiomassExpressedAsCarbonByMiscellaneousPhytoplankton" title="Net Primary Mole Productivity of Biomass Expressed As Carbon by Miscellaneous Phytoplankton [alias]" uid="net_primary_mole_productivity_of_carbon_by_miscellaneous_phytoplankton" units="mol m-2 s-1"></item> 
    13297 <item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. The sum of turbulent deposition and gravitational settling is dry deposition. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfAtmosphereMassContentOfSeasaltDryAerosolParticlesDueToGravitationalSettling" title="Tendency of Atmosphere Mass Content of Seasalt Dry Aerosol Particles due to Gravitational Settling" uid="tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_particles_due_to_gravitational_settling" units="kg m-2 s-1"></item> 
     13335<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. &quot;tendency_of_X&quot; means derivative of X with respect to time. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;dry_deposition&quot; is the sum of turbulent deposition and gravitational settling. &quot;Nitrogen compounds&quot; summarizes all chemical species containing nitrogen atoms. Usually, particle bound and gaseous nitrogen compounds, such as atomic nitrogen (N), nitrogen monoxide (NO), nitrogen dioxide (NO2), dinitrogen pentoxide (N2O5), nitric acid (HNO3), nitrate (NO3-), peroxynitric acid (HNO4), ammonia (NH3), ammonium (NH4+), bromine nitrate (BrONO2), chlorine nitrate (ClONO2) and organic nitrates (most notably peroxyacetyl nitrate, sometimes referred to as PAN, (CH3COO2NO2)) are included. The list of individual species that are included in this quantity can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute." label="TendencyOfAtmosphereMassContentOfNitrogenCompoundsExpressedAsNitrogenDueToDryDeposition" title="Tendency of Atmosphere Mass Content of Nitrogen Compounds Expressed As Nitrogen due to Dry Deposition" uid="tendency_of_atmosphere_mass_content_of_nitrogen_compounds_expressed_as_nitrogen_due_to_dry_deposition" units="kg m-2 s-1"></item> 
     13336<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. &quot;Pm10 aerosol&quot; means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Dry deposition&quot; is the sum of turbulent deposition and gravitational settling. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfAtmosphereMassContentOfPm10SeaSaltDryAerosolParticlesDueToDryDeposition" title="Tendency of Atmosphere Mass Content of Pm10 Sea Salt Dry Aerosol Particles due to Dry Deposition" uid="tendency_of_atmosphere_mass_content_of_pm10_sea_salt_dry_aerosol_particles_due_to_dry_deposition" units="kg m-2 s-1"></item> 
     13337<item description="alias::tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_particles_due_to_gravitational_settling" label="TendencyOfAtmosphereMassContentOfSeaSaltDryAerosolParticlesDueToGravitationalSettling" title="Tendency of Atmosphere Mass Content of Sea Salt Dry Aerosol Particles due to Gravitational Settling [alias]" uid="tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_particles_due_to_gravitational_settling" units="kg m-2 s-1"></item> 
    1329813338<item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. &quot;Layer&quot; means any layer with upper and lower boundaries that have constant values in some vertical coordinate. There must be a vertical coordinate variable indicating the extent of the layer(s). If the layers are model layers, the vertical coordinate can be model_level_number, but it is recommended to specify a physical coordinate (in a scalar or auxiliary coordinate variable) as well. Potential energy is the sum of the gravitational potential energy relative to the geoid and the centripetal potential energy. (The geopotential is the specific potential energy.)" label="TendencyOfPotentialEnergyContentOfOceanLayerDueToDiffusion" title="Tendency of Potential Energy Content of Ocean Layer due to Diffusion" uid="tendency_of_potential_energy_content_of_ocean_layer_due_to_diffusion" units="W m-2"></item> 
    1329913339<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Vertical mixing&quot; means any vertical transport other than by advection and bolus advection, represented by a combination of vertical diffusion, turbulent mixing and convection in ocean models. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Sea water temperature is the in situ temperature of the sea water. For observed data, depending on the period during which the observation was made, the measured in situ temperature was recorded against standard &quot;scales&quot;. These historical scales include the International Practical Temperature Scale of 1948 (IPTS-48; 1948-1967), the International Practical Temperature Scale of 1968 (IPTS-68, Barber, 1969; 1968-1989) and the International Temperature Scale of 1990 (ITS-90, Saunders 1990; 1990 onwards). Conversion of data between these scales follows t68 = t48 - (4.4 x 10e-6) * t48(100 - t - 48); t90 = 0.99976 * t68. Observations made prior to 1948 (IPTS-48) have not been documented and therefore a conversion cannot be certain. Differences between t90 and t68 can be up to 0.01 at temperatures of 40 C and above; differences of 0.002-0.007 occur across the standard range of ocean temperatures (-10 - 30 C). The International Equation of State of Seawater 1980 (EOS-80, UNESCO, 1981) and the Practical Salinity Scale (PSS-78) were both based on IPTS-68, while the Thermodynamic Equation of Seawater 2010 (TEOS-10) is based on ITS-90. References: Barber, 1969, doi: 10.1088/0026-1394/5/2/001; UNESCO, 1981; Saunders, 1990, WOCE Newsletter, 10, September 1990." label="TendencyOfSeaWaterTemperatureDueToVerticalMixing" title="Tendency of Sea Water Temperature due to Vertical Mixing" uid="tendency_of_sea_water_temperature_due_to_vertical_mixing" units="K s-1"></item> 
     
    1330513345<item description="Sea water density is the in-situ density (not the potential density). If 1000 kg m-3 is subtracted, the standard name &quot;sea_water_sigma_t&quot; should be chosen instead. &quot;change_over_time_in_X&quot; means change in a quantity X over a time-interval, which should be defined by the bounds of the time coordinate." label="ChangeOverTimeInSeaWaterDensity" title="Change Over Time in Sea Water Density" uid="change_over_time_in_sea_water_density" units="kg m-3"></item> 
    1330613346<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. Terpenes are hydrocarbons, that is, they contain only hydrogen and carbon combined in the general proportions (C5H8)n where n is an integer greater than on equal to one. The term &quot;terpenes&quot; is used in standard names to describe the group of chemical species having this common structure that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models.  Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute.  Standard names exist for some individual terpene species, e.g., isoprene and limonene." label="MassConcentrationOfTerpenesInAir" title="Mass Concentration of Terpenes in Air" uid="mass_concentration_of_terpenes_in_air" units="kg m-3"></item> 
     13347<item description="Mass fraction is used in the construction &quot;mass_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The phrase &quot;sea_salt_cation&quot; is the term used in standard names to describe collectively the group of cationic species that occur in sea salt. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Sea salt cations are mainly sodium (Na+), but also include potassium (K+), magnesium (Mg2+), calcium (Ca2+) and rarer cations. Where possible, the data variable should be accompanied by a complete description of the ions represented, for example, by using a comment attribute." label="MassFractionOfSeaSaltDryAerosolParticlesExpressedAsCationsInAir" title="Mass Fraction of Sea Salt Dry Aerosol Particles Expressed As Cations in Air" uid="mass_fraction_of_sea_salt_dry_aerosol_particles_expressed_as_cations_in_air" units="1"></item> 
    1330713348<item description="&quot;Number concentration&quot; means the number of particles or other specified objects per unit volume. cloud_top refers to the top of the highest cloud." label="NumberConcentrationOfCloudLiquidWaterParticlesInAirAtLiquidWaterCloudTop" title="Number Concentration of Cloud Liquid Water Particles in Air At Liquid Water Cloud Top" uid="number_concentration_of_cloud_liquid_water_particles_in_air_at_liquid_water_cloud_top" units="m-3"></item> 
    1330813349<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for ethane is C2H6. Ethane is a member of the group of hydrocarbons known as alkanes. There are standard names for the alkane group as well as for some of the individual species. The &quot;waste treatment and disposal&quot; sector comprises solid waste disposal on land, wastewater handling, waste incineration and other waste disposal. &quot;Waste treatment and disposal&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 6A, 6B, 6C and 6D as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfEthaneDueToEmissionFromWasteTreatmentAndDisposal" title="Tendency of Atmosphere Mass Content of Ethane due to Emission from Waste Treatment And Disposal" uid="tendency_of_atmosphere_mass_content_of_ethane_due_to_emission_from_waste_treatment_and_disposal" units="kg m-2 s-1"></item> 
     
    1331413355<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical symbol for atomic bromine is Br." label="MoleConcentrationOfAtomicBromineInAir" title="Mole Concentration of Atomic Bromine in Air" uid="mole_concentration_of_atomic_bromine_in_air" units="mol m-3"></item> 
    1331513356<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction &quot;mole_concentration_of_X_in_Y&quot;, where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. The chemical formula of the carbonate anion is CO3 with an electrical charge of minus two. Calcite is a mineral that is a polymorph of calcium carbonate. The chemical formula of calcite is CaCO3. At a given salinity, the thermodynamic equilibrium is that between dissolved carbonate ion and solid calcite. Standard names also exist for aragonite, another polymorph of calcium carbonate." label="MoleConcentrationOfCarbonateExpressedAsCarbonAtEquilibriumWithPureCalciteInSeaWater" title="Mole Concentration of Carbonate Expressed As Carbon At Equilibrium With Pure Calcite in Sea Water" uid="mole_concentration_of_carbonate_expressed_as_carbon_at_equilibrium_with_pure_calcite_in_sea_water" units="mol m-3"></item> 
    13316 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol takes up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the aerosol. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The &quot;maritime transport&quot; sector includes fuel combustion activities related to maritime transport. &quot;Maritime transport&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 1A3d as defined in the 2006 IPCC guidelines for national greenhouse gas Inventories&quot;. Chemically, 'elemental carbon' is the carbonaceous fraction of particulate matter that is thermally stable in an inert atmosphere to high temperatures near 4000K and can only be gasified by oxidation starting at temperatures above 340 C. It is assumed to be inert and non-volatile under atmospheric conditions and insoluble in any solvent (Ogren and Charlson, 1983)." label="TendencyOfAtmosphereMassContentOfElementalCarbonDryAerosolParticlesDueToEmissionFromMaritimeTransport" title="Tendency of Atmosphere Mass Content of Elemental Carbon Dry Aerosol Particles due to Emission from Maritime Transport" uid="tendency_of_atmosphere_mass_content_of_elemental_carbon_dry_aerosol_particles_due_to_emission_from_maritime_transport" units="kg m-2 s-1"></item> 
     13357<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol takes up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the aerosol. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The &quot;maritime transport&quot; sector includes fuel combustion activities related to maritime transport. &quot;Maritime transport&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 1A3d as defined in the 2006 IPCC guidelines for national greenhouse gas Inventories&quot;. Chemically, &quot;elemental carbon&quot; is the carbonaceous fraction of particulate matter that is thermally stable in an inert atmosphere to high temperatures near 4000K and can only be gasified by oxidation starting at temperatures above 340 C. It is assumed to be inert and non-volatile under atmospheric conditions and insoluble in any solvent (Ogren and Charlson, 1983)." label="TendencyOfAtmosphereMassContentOfElementalCarbonDryAerosolParticlesDueToEmissionFromMaritimeTransport" title="Tendency of Atmosphere Mass Content of Elemental Carbon Dry Aerosol Particles due to Emission from Maritime Transport" uid="tendency_of_atmosphere_mass_content_of_elemental_carbon_dry_aerosol_particles_due_to_emission_from_maritime_transport" units="kg m-2 s-1"></item> 
    1331713358<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. Esters in organic chemistry are chemical compounds derived by reacting an oxoacid with a hydroxyl compound such as an alcohol or phenol. Esters are usually derived from an inorganic acid or organic acid in which at least one -OH (hydroxyl) group is replaced by an -O-alkyl (alkoxy) group, and most commonly from carboxylic acids and alcohols. That is, esters are formed by condensing an acid with an alcohol. In standard names &quot;esters&quot; is the term used to describe the group of ester species that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. The &quot;waste treatment and disposal&quot; sector comprises solid waste disposal on land, wastewater handling, waste incineration and other waste disposal. &quot;Waste treatment and disposal&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 6A, 6B, 6C and 6D as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfEstersDueToEmissionFromWasteTreatmentAndDisposal" title="Tendency of Atmosphere Mass Content of Esters due to Emission from Waste Treatment And Disposal" uid="tendency_of_atmosphere_mass_content_of_esters_due_to_emission_from_waste_treatment_and_disposal" units="kg m-2 s-1"></item> 
    1331813359<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Dry deposition&quot; is the sum of turbulent deposition and gravitational settling. The chemical formula for formic acid is HCOOH.  The IUPAC name for formic acid is methanoic acid." label="TendencyOfAtmosphereMassContentOfFormicAcidDueToDryDeposition" title="Tendency of Atmosphere Mass Content of Formic Acid due to Dry Deposition" uid="tendency_of_atmosphere_mass_content_of_formic_acid_due_to_dry_deposition" units="kg m-2 s-1"></item> 
    1331913360<item description="&quot;X_area_fraction&quot; means the fraction of horizontal area occupied by X. &quot;X_area&quot; means the horizontal area occupied by X within the grid cell. A coordinate variable of solar_zenith_angle indicating the night extent should be specified." label="AreaFractionOfNightDefinedBySolarZenithAngle" title="Area Fraction of Night Defined by Solar Zenith Angle" uid="area_fraction_of_night_defined_by_solar_zenith_angle" units="1"></item> 
     13361<item description="The phrase &quot;integral_wrt_X_of_Y&quot; means int Y dX. The data variable should have an axis for X specifying the limits of the integral as bounds. The phrase &quot;wrt&quot; means &quot;with respect to&quot;. Depth is the vertical distance below the surface. The phrase &quot;product_of_X_and_Y&quot; means X*Y. Sea water density is the in-situ density (not the potential density). For Boussinesq models, density is the constant Boussinesq reference density, a quantity which has the standard name reference_sea_water_density_for_boussinesq_approximation. Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the &quot;heat content&quot; of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033&lt;0945:PEACOV>2.0.CO;2." label="IntegralWrtDepthOfProductOfSeaWaterDensityAndConservativeTemperature" title="Integral Wrt Depth of Product of Sea Water Density And Conservative Temperature" uid="integral_wrt_depth_of_product_of_sea_water_density_and_conservative_temperature" units="kg degree_C m-2"></item> 
    1332013362<item description="&quot;lwe&quot; means liquid water equivalent. &quot;Amount&quot; means mass per unit area. The construction lwe_thickness_of_X_amount or _content means the vertical extent of a layer of liquid water having the same mass per unit area." label="LweThicknessOfConvectiveSnowfallAmount" title="Lwe Thickness of Convective Snowfall Amount" uid="lwe_thickness_of_convective_snowfall_amount" units="m"></item> 
     13363<item description="&quot;x&quot; indicates a vector component along the grid x-axis, positive with increasing x. The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity named by omitting the phrase. Parameterized eddy advection in an ocean model means the part due to a scheme representing parameterized eddy-induced advective effects not included in the resolved model velocity field. Parameterized eddy advection can be represented on various spatial scales and there are standard names for parameterized_mesoscale_eddy_advection and parameterized_submesoscale_eddy_advection which both contribute to the total parameterized eddy advection." label="OceanHeatXTransportDueToParameterizedEddyAdvection" title="Ocean Heat X Transport due to Parameterized Eddy Advection" uid="ocean_heat_x_transport_due_to_parameterized_eddy_advection" units="W"></item> 
    1332113364<item description="Sea surface density is the density of sea water near the surface (including the part under sea-ice, if any)." label="SeaSurfaceDensity" title="Sea Surface Density" uid="sea_surface_density" units="kg m-3"></item> 
    1332213365<item description="Stratiform precipitation, whether liquid or frozen, is precipitation that formed in stratiform cloud.  &quot;Amount&quot; means mass per unit area." label="StratiformPrecipitationAmount" title="Stratiform Precipitation Amount" uid="stratiform_precipitation_amount" units="kg m-2"></item> 
    13323 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol takes up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the aerosol. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The &quot;industrial processes and combustion&quot; sector comprises fuel combustion activities related to manufacturing industries and construction, industrial processes related to mineral products, the chemical industry, metal production, the production of pulp, paper, food and drink, and non-energy industry use of lubricants and waxes. It may also include any not-classified or &quot;other&quot; combustion, which is commonly included in industry-related inventory data. &quot;Industrial processes and combustion&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 1A2, 2A, 2B, 2C, 2D and 2G as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;. Chemically, 'elemental carbon' is the carbonaceous fraction of particulate matter that is thermally stable in an inert atmosphere to high temperatures near 4000K and can only be gasified by oxidation starting at temperatures above 340 C. It is assumed to be inert and non-volatile under atmospheric conditions and insoluble in any solvent (Ogren and Charlson, 1983)." label="TendencyOfAtmosphereMassContentOfElementalCarbonDryAerosolParticlesDueToEmissionFromIndustrialProcessesAndCombustion" title="Tendency of Atmosphere Mass Content of Elemental Carbon Dry Aerosol Particles due to Emission from Industrial Processes And Combustion" uid="tendency_of_atmosphere_mass_content_of_elemental_carbon_dry_aerosol_particles_due_to_emission_from_industrial_processes_and_combustion" units="kg m-2 s-1"></item> 
     13366<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol takes up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the aerosol. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The &quot;industrial processes and combustion&quot; sector comprises fuel combustion activities related to manufacturing industries and construction, industrial processes related to mineral products, the chemical industry, metal production, the production of pulp, paper, food and drink, and non-energy industry use of lubricants and waxes. It may also include any not-classified or &quot;other&quot; combustion, which is commonly included in industry-related inventory data. &quot;Industrial processes and combustion&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 1A2, 2A, 2B, 2C, 2D and 2G as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;. Chemically, &quot;elemental carbon&quot; is the carbonaceous fraction of particulate matter that is thermally stable in an inert atmosphere to high temperatures near 4000K and can only be gasified by oxidation starting at temperatures above 340 C. It is assumed to be inert and non-volatile under atmospheric conditions and insoluble in any solvent (Ogren and Charlson, 1983)." label="TendencyOfAtmosphereMassContentOfElementalCarbonDryAerosolParticlesDueToEmissionFromIndustrialProcessesAndCombustion" title="Tendency of Atmosphere Mass Content of Elemental Carbon Dry Aerosol Particles due to Emission from Industrial Processes And Combustion" uid="tendency_of_atmosphere_mass_content_of_elemental_carbon_dry_aerosol_particles_due_to_emission_from_industrial_processes_and_combustion" units="kg m-2 s-1"></item> 
    1332413367<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction &quot;mole_concentration_of_X_in_Y&quot;, where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Phytoplankton are autotrophic prokaryotic or eukaryotic algae that live near the water surface where there is sufficient light to support photosynthesis. &quot;Grazing of phytoplankton&quot; means the grazing of phytoplankton by zooplankton." label="TendencyOfMoleConcentrationOfParticulateOrganicMatterExpressedAsCarbonInSeaWaterDueToGrazingOfPhytoplankton" title="Tendency of Mole Concentration of Particulate Organic Matter Expressed As Carbon in Sea Water due to Grazing of Phytoplankton" uid="tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_grazing_of_phytoplankton" units="mol m-3 s-1"></item> 
    1332513368<item description="In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="TranspirationFlux" title="Transpiration Flux" uid="transpiration_flux" units="kg m-2 s-1"></item> 
     
    1332713370<item description="&quot;x&quot; indicates a vector component along the grid x-axis, positive with increasing x. &quot;Downward&quot; indicates a vector component which is positive when directed downward (negative upward). The surface called &quot;surface&quot; means the lower boundary of the atmosphere. A downward x stress is a downward flux of momentum towards the positive direction of the model's x-axis." label="SurfaceDownwardXStressCorrection" title="Surface Downward X Stress Correction" uid="surface_downward_x_stress_correction" units="Pa"></item> 
    1332813371<item description="&quot;Amount&quot; means mass per unit area.  The surface called &quot;surface&quot; means the lower boundary of the atmosphere.  The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfSeaIceAmountDueToSurfaceMelting" title="Tendency of Sea Ice Amount due to Surface Melting" uid="tendency_of_sea_ice_amount_due_to_surface_melting" units="kg m-2 s-1"></item> 
     13372<item description="The phrase &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The phrase &quot;expressed_as_heat_content&quot; means that this quantity is calculated as the specific heat capacity times density of sea water multiplied by the potential temperature of the sea water in the grid cell. Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Parameterized eddy advection in an ocean model means the part due to a scheme representing parameterized eddy-induced advective effects not included in the resolved model velocity field. Parameterized submesoscale eddy advection occurs on a spatial scale of the order of 1 km horizontally. Reference: James C. McWilliams 2016, Submesoscale currents in the ocean, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, volume 472, issue 2189. DOI: 10.1098/rspa.2016.0117. There are also standard names for parameterized_mesoscale_eddy_advection which, along with parameterized_submesoscale_eddy_advection, contributes to the total parameterized eddy advection. Additionally, when the parameterized advective process is represented in the model as a skew-diffusion rather than an advection, then the parameterized skew diffusion should be included in this diagnostic. The convergence of a skew-flux is identical (in the continuous formulation) to the convergence of an advective flux, making their tendencies the same." label="TendencyOfSeaWaterPotentialTemperatureExpressedAsHeatContentDueToParameterizedSubmesoscaleEddyAdvection" title="Tendency of Sea Water Potential Temperature Expressed As Heat Content due to Parameterized Submesoscale Eddy Advection" uid="tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_submesoscale_eddy_advection" units="W m-2"></item> 
    1332913373<item description="A variable with the standard name of sensor_band_identifier contains strings which give the alphanumeric identifier of a sensor band. These strings have not yet been standardised. " label="SensorBandIdentifier" title="Sensor Band Identifier" uid="sensor_band_identifier" units=""></item> 
    1333013374<item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;shortwave&quot; means shortwave radiation. Air temperature is the bulk temperature of the air, not the surface (skin) temperature." label="TendencyOfAirTemperatureDueToShortwaveHeatingAssumingClearSky" title="Tendency of Air Temperature due to Shortwave Heating Assuming Clear Sky" uid="tendency_of_air_temperature_due_to_shortwave_heating_assuming_clear_sky" units="K s-1"></item> 
     
    1334013384<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for methyl bromide is CH3Br. The IUPAC name for methyl bromide is bromomethane." label="MoleConcentrationOfMethylBromideInAir" title="Mole Concentration of Methyl Bromide in Air" uid="mole_concentration_of_methyl_bromide_in_air" units="mol m-3"></item> 
    1334113385<item description="Mole fraction is used in the construction mole_fraction_of_X_in_Y, where X is a material constituent of Y." label="MoleFractionOfPropeneInAir" title="Mole Fraction of Propene in Air" uid="mole_fraction_of_propene_in_air" units="1"></item> 
     13386<item description="&quot;Northward&quot; indicates a vector component which is positive when directed northward (negative southward). The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Parameterized eddy advection in an ocean model means the part due to a scheme representing parameterized eddy-induced advective effects not included in the resolved model velocity field. Parameterized mesoscale eddy advection occurs on a spatial scale of many tens of kilometres and an evolutionary time of weeks. Reference: James C. McWilliams 2016, Submesoscale currents in the ocean, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, volume 472, issue 2189. DOI: 10.1098/rspa.2016.0117. Parameterized eddy advection can be represented on various spatial scales and there are standard names for parameterized_mesoscale_eddy_advection and parameterized_submesoscale_eddy_advection which both contribute to the total parameterized eddy advection." label="NorthwardOceanHeatTransportDueToParameterizedEddyAdvection" title="Northward Ocean Heat Transport due to Parameterized Eddy Advection" uid="northward_ocean_heat_transport_due_to_parameterized_eddy_advection" units="W"></item> 
     13387<item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. &quot;shortwave&quot; means shortwave radiation. Downwelling radiation is radiation from above. It does not mean &quot;net downward&quot;. Surface downwelling shortwave is the sum of direct and diffuse solar radiation incident on the surface, and is sometimes called &quot;global radiation&quot;. When thought of as being incident on a surface, a radiative flux is sometimes called &quot;irradiance&quot;. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called &quot;vector irradiance&quot;. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="SurfaceDownwellingShortwaveFluxInAirAssumingClearSky" title="Surface Downwelling Shortwave Flux in Air Assuming Clear Sky" uid="surface_downwelling_shortwave_flux_in_air_assuming_clear_sky" units="W m-2"></item> 
     13388<item description="The phrase &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Parameterized eddy advection in an ocean model means the part due to a scheme representing parameterized eddy-induced advective effects not included in the resolved model velocity field. Parameterized submesoscale eddy advection occurs on a spatial scale of the order of 1 km horizontally. Reference: James C. McWilliams 2016, Submesoscale currents in the ocean, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, volume 472, issue 2189. DOI: 10.1098/rspa.2016.0117. There are also standard names for parameterized_mesoscale_eddy_advection which, along with parameterized_submesoscale_eddy_advection, contributes to the total parameterized eddy advection. Additionally, when the parameterized advective process is represented in the model as a skew-diffusion rather than an advection, then the parameterized skew diffusion should be included in this diagnostic. The convergence of a skew-flux is identical (in the continuous formulation) to the convergence of an advective flux, making their tendencies the same." label="TendencyOfSeaWaterSalinityExpressedAsSaltContentDueToParameterizedSubmesoscaleEddyAdvection" title="Tendency of Sea Water Salinity Expressed As Salt Content due to Parameterized Submesoscale Eddy Advection" uid="tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_submesoscale_eddy_advection" units="kg m-2 s-1"></item> 
     13389<item description="&quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The sensible heat flux, also called &quot;turbulent&quot; heat flux, is the exchange of heat caused by the motion of air. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="UpwardSensibleHeatFluxInAir" title="Upward Sensible Heat Flux in Air" uid="upward_sensible_heat_flux_in_air" units="W m-2"></item> 
    1334213390<item description="alias::northward_eliassen_palm_flux" label="NorthwardEliassenPalmFluxInAir" title="Northward Eliassen Palm Flux in Air [alias]" uid="northward_eliassen_palm_flux" units="m3 s-2"></item> 
    13343 <item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. &quot;shortwave&quot; means shortwave radiation. Downwelling radiation is radiation from above. It does not mean &quot;net downward&quot;. Surface downwelling shortwave is the sum of direct and diffuse solar radiation incident on the surface, and is sometimes called &quot;global radiation&quot;. When thought of as being incident on a surface, a radiative flux is sometimes called &quot;irradiance&quot;. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called &quot;vector irradiance&quot;. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="SurfaceDownwellingShortwaveFluxInAirAssumingClearSky" title="Surface Downwelling Shortwave Flux in Air Assuming Clear Sky" uid="surface_downwelling_shortwave_flux_in_air_assuming_clear_sky" units="W m-2"></item> 
    13344 <item description="&quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The sensible heat flux, also called &quot;turbulent&quot; heat flux, is the exchange of heat caused by the motion of air. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="UpwardSensibleHeatFluxInAir" title="Upward Sensible Heat Flux in Air" uid="upward_sensible_heat_flux_in_air" units="W m-2"></item> 
    1334513391<item description="Stratiform precipitation, whether liquid or frozen, is precipitation that formed in stratiform cloud.  &quot;lwe&quot; means liquid water equivalent." label="LweStratiformSnowfallRate" title="Lwe Stratiform Snowfall Rate" uid="lwe_stratiform_snowfall_rate" units="m s-1"></item> 
    1334613392<item description="&quot;specific&quot; means per unit mass. Specific humidity is the mass fraction of water vapor in (moist) air." label="SpecificHumidity" title="Specific Humidity" uid="specific_humidity" units="1"></item> 
     
    1336913415<item description="alias::surface_downwelling_spectral_photon_flux_in_sea_water" label="SurfaceDownwellingPhotonFluxPerUnitWavelengthInSeaWater" title="Surface Downwelling Photon Flux Per Unit Wavelength in Sea Water [alias]" uid="surface_downwelling_spectral_photon_flux_in_sea_water" units="mol m-2 s-1 m-1"></item> 
    1337013416<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for nitrogen dioxide is NO2. The &quot;forest fires&quot; sector comprises the burning (natural and human-induced) of living or dead vegetation in forests. &quot;Forest fires&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 5 as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfNitrogenDioxideDueToEmissionFromForestFires" title="Tendency of Atmosphere Mass Content of Nitrogen Dioxide due to Emission from Forest Fires" uid="tendency_of_atmosphere_mass_content_of_nitrogen_dioxide_due_to_emission_from_forest_fires" units="kg m-2 s-1"></item> 
     13417<item description="The phrase &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The phrase &quot;expressed_as_heat_content&quot; means that this quantity is calculated as the specific heat capacity times density of sea water multiplied by the conservative temperature of the sea water in the grid cell. Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the &quot;heat content&quot; of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033&lt;0945:PEACOV>2.0.CO;2. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Parameterized eddy advection in an ocean model means the part due to a scheme representing parameterized eddy-induced advective effects not included in the resolved model velocity field. Parameterized submesoscale eddy advection occurs on a spatial scale of the order of 1 km horizontally. Reference: James C. McWilliams 2016, Submesoscale currents in the ocean, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, volume 472, issue 2189. DOI: 10.1098/rspa.2016.0117. There are also standard names for parameterized_mesoscale_eddy_advection which, along with parameterized_submesoscale_eddy_advection, contributes to the total parameterized eddy advection. Additionally, when the parameterized advective process is represented in the model as a skew-diffusion rather than an advection, then the parameterized skew diffusion should be included in this diagnostic. The convergence of a skew-flux is identical (in the continuous formulation) to the convergence of an advective flux, making their tendencies the same." label="TendencyOfSeaWaterConservativeTemperatureExpressedAsHeatContentDueToParameterizedSubmesoscaleEddyAdvection" title="Tendency of Sea Water Conservative Temperature Expressed As Heat Content due to Parameterized Submesoscale Eddy Advection" uid="tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_submesoscale_eddy_advection" units="W m-2"></item> 
    1337113418<item description="The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for peroxyacetyl nitrate, sometimes referred to as PAN, is CH3COO2NO2.  The IUPAC name for peroxyacetyl_nitrate is nitroethaneperoxoate." label="AtmosphereMolesOfPeroxyacetylNitrate" title="Atmosphere Moles of Peroxyacetyl Nitrate" uid="atmosphere_moles_of_peroxyacetyl_nitrate" units="mol"></item> 
    1337213419<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. &quot;HOx&quot; means a combination of two radical species containing hydrogen and oxygen: OH and HO2. The phrase 'expressed_as' is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A." label="MassConcentrationOfHoxExpressedAsHydrogenInAir" title="Mass Concentration of Hox Expressed As Hydrogen in Air" uid="mass_concentration_of_hox_expressed_as_hydrogen_in_air" units="kg m-3"></item> 
    1337313420<item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, whereX is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for methyl chloride is CH3Cl. The IUPAC name for methyl chloride is chloromethane." label="MassFractionOfMethylChlorideInAir" title="Mass Fraction of Methyl Chloride in Air" uid="mass_fraction_of_methyl_chloride_in_air" units="1"></item> 
    1337413421<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical or biological species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'.The phrase 'expressed_as' is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. Organic detritus are particles of debris from decaying plants and animals." label="MoleConcentrationOfOrganicDetritusExpressedAsCarbonInSeaWater" title="Mole Concentration of Organic Detritus Expressed As Carbon in Sea Water" uid="mole_concentration_of_organic_detritus_expressed_as_carbon_in_sea_water" units="mol m-3"></item> 
     13422<item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. A velocity is a vector quantity. &quot;Northward&quot; indicates a vector component which is positive when directed northward (negative southward). &quot;Geostrophic&quot; indicates that geostrophic balance is assumed, i.e. that the pressure gradient force and the Coriolis force are balanced and the large scale fluid flow is parallel to the isobars. The quantity with standard name surface_geostrophic_northward_sea_water_velocity is the sum of a variable part, surface_geostrophic_northward_sea_water_velocity_assuming_mean_sea_level_for_geoid, and a constant part due to the stationary component of ocean circulation." label="SurfaceGeostrophicNorthwardSeaWaterVelocity" title="Surface Geostrophic Northward Sea Water Velocity" uid="surface_geostrophic_northward_sea_water_velocity" units="m s-1"></item> 
    1337513423<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for alpha_pinene is C10H16. The IUPAC name for alpha-pinene is (1S,5S)-2,6,6-trimethylbicyclo[3.1.1]hept-2-ene." label="TendencyOfAtmosphereMolesOfAlphaPinene" title="Tendency of Atmosphere Moles of Alpha Pinene" uid="tendency_of_atmosphere_moles_of_alpha_pinene" units="mol s-1"></item> 
    13376 <item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. A velocity is a vector quantity. &quot;Northward&quot; indicates a vector component which is positive when directed northward (negative southward). &quot;Geostrophic&quot; indicates that geostrophic balance is assumed, i.e. that the pressure gradient force and the Coriolis force are balanced and the large scale fluid flow is parallel to the isobars. surface_geostrophic_northward_sea_water_velocity is the sum of a variable part, surface_geostrophic_northward_sea_water_velocity_assuming_sea_level_for_geoid, and a constant part due to the stationary component of ocean circulation." label="SurfaceGeostrophicNorthwardSeaWaterVelocity" title="Surface Geostrophic Northward Sea Water Velocity" uid="surface_geostrophic_northward_sea_water_velocity" units="m s-1"></item> 
    1337713424<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The chemical symbol for atomic nitrogen is N." label="AtmosphereMassContentOfAtomicNitrogen" title="Atmosphere Mass Content of Atomic Nitrogen" uid="atmosphere_mass_content_of_atomic_nitrogen" units="kg m-2"></item> 
    1337813425<item description="&quot;condensed_water&quot; means liquid and ice. Convective cloud is that produced by the convection schemes in an atmosphere model.  &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used." label="AtmosphereMassContentOfConvectiveCloudCondensedWater" title="Atmosphere Mass Content of Convective Cloud Condensed Water" uid="atmosphere_mass_content_of_convective_cloud_condensed_water" units="kg m-2"></item> 
     
    1339913446<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The chemical formula for hydrogen peroxide is H2O2." label="AtmosphereMassContentOfHydrogenPeroxide" title="Atmosphere Mass Content of Hydrogen Peroxide" uid="atmosphere_mass_content_of_hydrogen_peroxide" units="kg m-2"></item> 
    1340013447<item description="alias::lwe_thickness_of_large_scale_precipitation_amount" label="LweThicknessOfStratiformPrecipitationAmount" title="Lwe Thickness of Stratiform Precipitation Amount [alias]" uid="lwe_thickness_of_large_scale_precipitation_amount" units="m"></item> 
     13448<item description="&quot;Height_above_X&quot; means the vertical distance above the named surface X. The surface called &quot;surface&quot; means the lower boundary of the atmosphere. The &quot;geopotential datum&quot; is any estimated surface of constant geopotential used as a datum i.e. a reference level; for the geoid as a datum, specific standard names are available. To specify which geoid or geopotential datum is being used as a reference level, a grid_mapping variable should be attached to the data variable as described in Chapter 5.6 of the CF Convention." label="SurfaceHeightAboveGeopotentialDatum" title="Surface Height Above Geopotential Datum" uid="surface_height_above_geopotential_datum" units="m"></item> 
    1340113449<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for methane is CH4. Methane is a member of the group of hydrocarbons known as alkanes. There are standard names for the alkane group as well as for some of the individual species. The &quot;residential and commercial combustion&quot; sector comprises fuel combustion activities related to the commercial/institutional sector, the residential sector and the agriculture/forestry/fishing sector. It may also include any not-classified or &quot;other&quot; combustion, which is commonly included in the inventory data. &quot;Residential and commercial combustion&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 1A4a, 1A4b and 1A4c as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfMethaneDueToEmissionFromResidentialAndCommercialCombustion" title="Tendency of Atmosphere Mass Content of Methane due to Emission from Residential And Commercial Combustion" uid="tendency_of_atmosphere_mass_content_of_methane_due_to_emission_from_residential_and_commercial_combustion" units="kg m-2 s-1"></item> 
    1340213450<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. &quot;tendency_of_X&quot; means derivative of X with respect to time. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Dry deposition&quot; is the sum of turbulent deposition and gravitational settling. &quot;Noy&quot; describes a family of chemical species. The family usually includes atomic nitrogen (N), nitrogen monoxide (NO), nitrogen dioxide (NO2), dinitrogen pentoxide (N2O5), nitric acid (HNO3), peroxynitric acid (HNO4), bromine nitrate (BrONO2), chlorine nitrate (ClONO2) and organic nitrates (most notably peroxyacetyl nitrate, sometimes referred to as PAN, (CH3COO2NO2)). The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute." label="TendencyOfAtmosphereMassContentOfNoyExpressedAsNitrogenDueToDryDeposition" title="Tendency of Atmosphere Mass Content of Noy Expressed As Nitrogen due to Dry Deposition" uid="tendency_of_atmosphere_mass_content_of_noy_expressed_as_nitrogen_due_to_dry_deposition" units="kg m-2 s-1"></item> 
    13403 <item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Wet deposition&quot; means deposition by precipitation. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfAtmosphereMassContentOfSeasaltDryAerosolParticlesDueToWetDeposition" title="Tendency of Atmosphere Mass Content of Seasalt Dry Aerosol Particles due to Wet Deposition" uid="tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_particles_due_to_wet_deposition" units="kg m-2 s-1"></item> 
     13451<item description="alias::tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_particles_due_to_wet_deposition" label="TendencyOfAtmosphereMassContentOfSeaSaltDryAerosolParticlesDueToWetDeposition" title="Tendency of Atmosphere Mass Content of Sea Salt Dry Aerosol Particles due to Wet Deposition [alias]" uid="tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_particles_due_to_wet_deposition" units="kg m-2 s-1"></item> 
     13452<item description="The phrase &quot;integral_wrt_X_of_Y&quot; means int Y dX. The data variable should have an axis for X specifying the limits of the integral as bounds. &quot;wrt&quot; means with respect to. The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Northward&quot; indicates a vector component which is positive when directed northward (negative southward). &quot;Downward&quot; indicates a vector component which is positive when directed downward (negative upward). &quot;Downward northward&quot; indicates the ZY component of a tensor. A downward northward stress is a downward flux of northward momentum, which accelerates the lower medium northward and the upper medium southward. The surface downward stress is the wind stress on the surface." label="IntegralWrtTimeOfSurfaceDownwardNorthwardStress" title="Integral Wrt Time of Surface Downward Northward Stress" uid="integral_wrt_time_of_surface_downward_northward_stress" units="Pa s"></item> 
    1340413453<item description="&quot;Minus one times&quot; means that the quantity described takes the opposite sign convention  to that for the quantity which has the same standard name apart from this phrase, i.e. the two quantities differ from one another by a factor of -1.  Shortwave means shortwave radiation. &quot;toa&quot; means top of atmosphere. The TOA outgoing shortwave flux is the reflected and scattered solar radiative flux i.e. the &quot;upwelling&quot; TOA shortwave flux, sometimes called the &quot;outgoing shortwave radiation&quot; or &quot;OSR&quot;. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="MinusOneTimesToaOutgoingShortwaveFlux" title="Minus One Times Toa Outgoing Shortwave Flux" uid="minus_one_times_toa_outgoing_shortwave_flux" units="W m-2"></item> 
    13405 <item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Dry deposition&quot; is the sum of turbulent deposition and gravitational settling. &quot;tendency_of_X&quot; means derivative of X  with respect to time. Chemically, 'elemental carbon' is the carbonaceous fraction of particulate matter that is thermally stable in an inert atmosphere to high temperatures near 4000K and can only be gasified by oxidation starting at temperatures above 340 C. It is assumed to be inert and non-volatile under atmospheric conditions and insoluble in any solvent (Ogren and Charlson, 1983)." label="TendencyOfAtmosphereMassContentOfElementalCarbonDryAerosolParticlesDueToDryDeposition" title="Tendency of Atmosphere Mass Content of Elemental Carbon Dry Aerosol Particles due to Dry Deposition" uid="tendency_of_atmosphere_mass_content_of_elemental_carbon_dry_aerosol_particles_due_to_dry_deposition" units="kg m-2 s-1"></item> 
     13454<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Dry deposition&quot; is the sum of turbulent deposition and gravitational settling. &quot;tendency_of_X&quot; means derivative of X  with respect to time. Chemically, &quot;elemental carbon&quot; is the carbonaceous fraction of particulate matter that is thermally stable in an inert atmosphere to high temperatures near 4000K and can only be gasified by oxidation starting at temperatures above 340 C. It is assumed to be inert and non-volatile under atmospheric conditions and insoluble in any solvent (Ogren and Charlson, 1983)." label="TendencyOfAtmosphereMassContentOfElementalCarbonDryAerosolParticlesDueToDryDeposition" title="Tendency of Atmosphere Mass Content of Elemental Carbon Dry Aerosol Particles due to Dry Deposition" uid="tendency_of_atmosphere_mass_content_of_elemental_carbon_dry_aerosol_particles_due_to_dry_deposition" units="kg m-2 s-1"></item> 
    1340613455<item description="&quot;Water&quot; means water in all phases, including frozen i.e. ice and snow.  &quot;Downward&quot; indicates a vector component which is positive when directed downward (negative upward).  The surface water flux is the result of precipitation and evaporation.  The water flux into sea water is the freshwater entering as a result of precipitation, evaporation, river inflow, sea ice effects and water flux correction (if applied).  The water flux or volume transport into sea water from rivers is the inflow to the ocean, often applied to the surface in ocean models.  In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics.  The surface called &quot;surface&quot; means the lower boundary of the atmosphere." label="WaterFluxIntoSeaWaterFromRiversAndSurfaceDownwardWaterFlux" title="Water Flux Into Sea Water from Rivers And Surface Downward Water Flux" uid="water_flux_into_sea_water_from_rivers_and_surface_downward_water_flux" units="kg m-2 s-1"></item> 
    1340713456<item description="The flood_water_thickness is the vertical distance between the surface of the flood water and the surface of the solid ground, as measured at a given point in space. The standard name ground_level_altitude is used for a data variable giving the geometric height of the ground surface above the geoid. &quot;Flood water&quot; is water that covers land which is normally not covered by water." label="FloodWaterThickness" title="Flood Water Thickness" uid="flood_water_thickness" units="m"></item> 
     
    1341613465<item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;shortwave&quot; means shortwave radiation. Upwelling radiation is radiation from below. It does not mean &quot;net upward&quot;. When thought of as being incident on a surface, a radiative flux is sometimes called &quot;irradiance&quot;. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called &quot;vector irradiance&quot;. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="SurfaceUpwellingShortwaveFluxInAir" title="Surface Upwelling Shortwave Flux in Air" uid="surface_upwelling_shortwave_flux_in_air" units="W m-2"></item> 
    1341713466<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;nmvoc&quot; means non methane volatile organic compounds; &quot;nmvoc&quot; is the term used in standard names to describe the group of chemical species having this classification that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. The &quot;solvent production and use&quot; sector comprises industrial processes related to the consumption of halocarbons, SF6, solvent and other product use. &quot;Solvent production and use&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 2F and 3 as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfNmvocDueToEmissionFromSolventProductionAndUse" title="Tendency of Atmosphere Mass Content of Nmvoc due to Emission from Solvent Production And Use" uid="tendency_of_atmosphere_mass_content_of_nmvoc_due_to_emission_from_solvent_production_and_use" units="kg m-2 s-1"></item> 
     13467<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;troposphere_moles_of_X&quot; means the total number of moles of X contained in the troposphere, i.e, summed over that part of the atmospheric column and over the entire globe.  The chemical formula of methyl chloride is CH3Cl. The IUPAC name for methyl chloride is chloromethane." label="TendencyOfTroposphereMolesOfMethylChloride" title="Tendency of Troposphere Moles of Methyl Chloride" uid="tendency_of_troposphere_moles_of_methyl_chloride" units="mol s-1"></item> 
    1341813468<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X  with respect to time.  &quot;Dry deposition&quot;is the sum of turbulent deposition and gravitational settling." label="TendencyOfAtmosphereMassContentOfNitrogenDioxideDueToDryDeposition" title="Tendency of Atmosphere Mass Content of Nitrogen Dioxide due to Dry Deposition" uid="tendency_of_atmosphere_mass_content_of_nitrogen_dioxide_due_to_dry_deposition" units="kg m-2 s-1"></item> 
    1341913469<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfOceanBarotropicStreamfunction" title="Tendency of Ocean Barotropic Streamfunction" uid="tendency_of_ocean_barotropic_streamfunction" units="m3 s-2"></item> 
    13420 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;troposphere_moles_of_X&quot; means the total number of moles of X contained in the troposphere, i.e, summed over that part of the atmospheric column and over the entire globe.  The chemical formula of methyl chloride is CH3Cl. The IUPAC name for methyl chloride is chloromethane." label="TendencyOfTroposphereMolesOfMethylChloride" title="Tendency of Troposphere Moles of Methyl Chloride" uid="tendency_of_troposphere_moles_of_methyl_chloride" units="mol s-1"></item> 
    1342113470<item description="&quot;Amount&quot; means mass per unit area. The construction thickness_of_[X_]snowfall_amount means the accumulated &quot;depth&quot; of snow which fell i.e. the thickness of the layer of snow at its own density. There are corresponding standard names for liquid water equivalent (lwe) thickness.  Stratiform precipitation, whether liquid or frozen, is precipitation that formed in stratiform cloud." label="ThicknessOfStratiformSnowfallAmount" title="Thickness of Stratiform Snowfall Amount" uid="thickness_of_stratiform_snowfall_amount" units="m"></item> 
    1342213471<item description="&quot;shortwave&quot; means shortwave radiation. &quot;toa&quot; means top of atmosphere. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). Net upward radiation is the difference between radiation from below (upwelling) and radiation from above (downwelling). In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="ToaNetUpwardShortwaveFlux" title="Toa Net Upward Shortwave Flux" uid="toa_net_upward_shortwave_flux" units="W m-2"></item> 
    1342313472<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The chemical formula for xylene is C6H4C2H6. In chemistry, xylene is a generic term for a group of three isomers of dimethylbenzene. The IUPAC names for the isomers are 1,2-dimethylbenzene, 1,3-dimethylbenzene and 1,4-dimethylbenzene. Xylene is an aromatic hydrocarbon. There are standard names that refer to aromatic_compounds as a group, as well as those for individual species." label="AtmosphereMassContentOfXylene" title="Atmosphere Mass Content of Xylene" uid="atmosphere_mass_content_of_xylene" units="kg m-2"></item> 
    1342413473<item description="The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for dimethyl sulfide is (CH3)2S.  Dimethyl sulfide is sometimes referred to as DMS." label="AtmosphereMolesOfDimethylSulfide" title="Atmosphere Moles of Dimethyl Sulfide" uid="atmosphere_moles_of_dimethyl_sulfide" units="mol"></item> 
    13425 <item description="&quot;direction_of_X&quot; means direction of a vector, a bearing. A velocity is a vector quantity." label="DirectionOfSeaWaterVelocity" title="Direction of Sea Water Velocity" uid="direction_of_sea_water_velocity" units="degree"></item> 
    13426 <item description="Mass fraction is used in the construction &quot;mass_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm10 aerosol&quot; is an air pollutant with an aerodynamic diameter of less than or equal to 10 micrometers. The term &quot;particulate_organic_matter_dry_aerosol&quot; means all particulate organic matter dry aerosol except elemental carbon. It is the sum of primary_particulate_organic_matter_dry_aerosol and secondary_particulate_organic_matter_dry_aerosol." label="MassFractionOfPm10ParticulateOrganicMatterDryAerosolParticlesExpressedAsCarbonInAir" title="Mass Fraction of Pm10 Particulate Organic Matter Dry Aerosol Particles Expressed As Carbon in Air" uid="mass_fraction_of_pm10_particulate_organic_matter_dry_aerosol_particles_expressed_as_carbon_in_air" units="1"></item> 
     13474<item description="alias::direction_of_sea_water_velocity" label="SeaWaterToDirection" title="Sea Water to Direction [alias]" uid="direction_of_sea_water_velocity" units="degree"></item> 
     13475<item description="Mass fraction is used in the construction &quot;mass_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm10 aerosol&quot; means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. The term &quot;particulate_organic_matter_dry_aerosol&quot; means all particulate organic matter dry aerosol except elemental carbon. It is the sum of primary_particulate_organic_matter_dry_aerosol and secondary_particulate_organic_matter_dry_aerosol." label="MassFractionOfPm10ParticulateOrganicMatterDryAerosolParticlesExpressedAsCarbonInAir" title="Mass Fraction of Pm10 Particulate Organic Matter Dry Aerosol Particles Expressed As Carbon in Air" uid="mass_fraction_of_pm10_particulate_organic_matter_dry_aerosol_particles_expressed_as_carbon_in_air" units="1"></item> 
    1342713476<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Dry deposition&quot; is the sum of turbulent deposition and gravitational settling. The chemical formula for aceto-nitrile is CH3CN. The IUPAC name for aceto-nitrile is ethanenitrile." label="TendencyOfAtmosphereMassContentOfAcetoNitrileDueToDryDeposition" title="Tendency of Atmosphere Mass Content of Aceto Nitrile due to Dry Deposition" uid="tendency_of_atmosphere_mass_content_of_aceto_nitrile_due_to_dry_deposition" units="kg m-2 s-1"></item> 
    1342813477<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. Terpenes are hydrocarbons, that is, they contain only hydrogen and carbon combined in the general proportions (C5H8)n where n is an integer greater than on equal to one. The term &quot;terpenes&quot; is used in standard names to describe the group of chemical species having this common structure that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. Standard names exist for some individual terpene species, e.g., isoprene and limonene. The &quot;forest fires&quot; sector comprises the burning (natural and human-induced) of living or dead vegetation in forests. &quot;Forest fires&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 5 as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfTerpenesDueToEmissionFromForestFires" title="Tendency of Atmosphere Mass Content of Terpenes due to Emission from Forest Fires" uid="tendency_of_atmosphere_mass_content_of_terpenes_due_to_emission_from_forest_fires" units="kg m-2 s-1"></item> 
     
    1344513494<item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. Upwelling radiation is radiation from below. It does not mean &quot;net upward&quot;. &quot;Photosynthetic&quot; radiation is the part of the spectrum which is used in photosynthesis e.g. 400-700 nm. The range of wavelengths could be specified precisely by the bounds of a coordinate of radiation_wavelength. A photon flux is specified in terms of numbers of photons expressed in moles. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="SurfaceUpwellingPhotosyntheticPhotonFluxInAir" title="Surface Upwelling Photosynthetic Photon Flux in Air" uid="surface_upwelling_photosynthetic_photon_flux_in_air" units="mol m-2 s-1"></item> 
    1344613495<item description="&quot;X_area_fraction&quot; means the fraction of horizontal area occupied by X. &quot;X_area&quot; means the horizontal area occupied by X within the grid cell. A coordinate variable of solar_zenith_angle indicating the day extent should be specified." label="AreaFractionOfDayDefinedBySolarZenithAngle" title="Area Fraction of Day Defined by Solar Zenith Angle" uid="area_fraction_of_day_defined_by_solar_zenith_angle" units="1"></item> 
    13447 <item description="&quot;integral_of_Y_wrt_X&quot; means int Y dX. The data variable should have an axis for X specifying the limits of the integral as bounds. &quot;wrt&quot; means with respect to. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The air temperature excess is the air temperature minus the air temperature threshold, where only positive values are included in the integral. Its integral with respect to time is often called after its units of &quot;degree-days&quot;. The air_temperature variable, which is the data variable of the integral should have a scalar coordinate variable or a size-one coordinate variable with the standard name of air_temperature_threshold, to indicate the threshold." label="IntegralOfAirTemperatureExcessWrtTime" title="Integral of Air Temperature Excess Wrt Time" uid="integral_of_air_temperature_excess_wrt_time" units="K s"></item> 
     13496<item description="alias::integral_of_air_temperature_excess_wrt_time" label="IntegralWrtTimeOfAirTemperatureExcess" title="Integral Wrt Time of Air Temperature Excess [alias]" uid="integral_of_air_temperature_excess_wrt_time" units="K s"></item> 
    1344813497<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for butane is C4H10. Butane is a member of the group of hydrocarbons known as alkanes. There are standard names for the alkane group as well as for some of the individual species. The &quot;residential and commercial combustion&quot; sector comprises fuel combustion activities related to the commercial/institutional sector, the residential sector and the agriculture/forestry/fishing sector. It may also include any not-classified or &quot;other&quot; combustion, which is commonly included in the inventory data. &quot;Residential and commercial combustion&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 1A4a, 1A4b and 1A4c as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfButaneDueToEmissionFromResidentialAndCommercialCombustion" title="Tendency of Atmosphere Mass Content of Butane due to Emission from Residential And Commercial Combustion" uid="tendency_of_atmosphere_mass_content_of_butane_due_to_emission_from_residential_and_commercial_combustion" units="kg m-2 s-1"></item> 
    1344913498<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;nmvoc&quot; means non methane volatile organic compounds. &quot;nmvoc&quot; is the term used in standard names to describe the group of chemical species having this classification that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute." label="TendencyOfAtmosphereMassContentOfNmvocExpressedAsCarbonDueToEmission" title="Tendency of Atmosphere Mass Content of Nmvoc Expressed As Carbon due to Emission" uid="tendency_of_atmosphere_mass_content_of_nmvoc_expressed_as_carbon_due_to_emission" units="kg m-2 s-1"></item> 
     
    1345613505<item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. The chemical formula for carbon dioxide is CO2. In ocean biogeochemistry models, a &quot;natural analogue&quot; is used to simulate the effect on a modelled variable of imposing preindustrial atmospheric carbon dioxide concentrations, even when the model as a whole may be subjected to varying forcings. The partial pressure of a gaseous constituent of air is the pressure which it alone would exert with unchanged temperature and number of moles per unit volume. The partial pressure of a dissolved gas in sea water is the partial pressure in air with which it would be in equilibrium. The partial pressure difference between sea water and air is positive when the partial pressure of the dissolved gas in sea water is greater than the partial pressure in air." label="SurfaceCarbonDioxideNaturalAnaloguePartialPressureDifferenceBetweenSeaWaterAndAir" title="Surface Carbon Dioxide Natural Analogue Partial Pressure Difference Between Sea Water And Air" uid="surface_carbon_dioxide_natural_analogue_partial_pressure_difference_between_sea_water_and_air" units="Pa"></item> 
    1345713506<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. &quot;Divalent mercury&quot; means all compounds in which the mercury has two binding sites to other ion(s) in a salt or to other atom(s) in a molecule. The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface).  &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names." label="TendencyOfAtmosphereMassContentOfGaseousDivalentMercuryDueToEmission" title="Tendency of Atmosphere Mass Content of Gaseous Divalent Mercury due to Emission" uid="tendency_of_atmosphere_mass_content_of_gaseous_divalent_mercury_due_to_emission" units="kg m-2 s-1"></item> 
     13507<item description="alias::water_volume_transport_into_ocean_from_rivers" label="WaterVolumeTransportIntoSeaWaterFromRivers" title="Water Volume Transport Into Sea Water from Rivers [alias]" uid="water_volume_transport_into_ocean_from_rivers" units="m3 s-1"></item> 
    1345813508<item description="&quot;Specific&quot; means per unit mass. &quot;Turbulent kinetic energy&quot; is the kinetic energy of chaotic fluctuations of the fluid flow. The dissipation of kinetic energy arises in ocean models as a result of the viscosity of sea water." label="SpecificTurbulentKineticEnergyDissipationInSeaWater" title="Specific Turbulent Kinetic Energy Dissipation in Sea Water" uid="specific_turbulent_kinetic_energy_dissipation_in_sea_water" units="W kg-1"></item> 
    1345913509<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for hexachlorobiphenyl is C12H4Cl6.  This structure of this species consists of two linked benzene rings, each of which is additionally bonded to three chlorine atoms." label="TendencyOfAtmosphereMolesOfHexachlorobiphenyl" title="Tendency of Atmosphere Moles of Hexachlorobiphenyl" uid="tendency_of_atmosphere_moles_of_hexachlorobiphenyl" units="mol s-1"></item> 
    13460 <item description="alias::water_volume_transport_into_ocean_from_rivers" label="WaterVolumeTransportIntoSeaWaterFromRivers" title="Water Volume Transport Into Sea Water from Rivers [alias]" uid="water_volume_transport_into_ocean_from_rivers" units="m3 s-1"></item> 
    1346113510<item description="&quot;Age of stratospheric air&quot; means an estimate of the time since a parcel of stratospheric air was last in contact with the troposphere." label="AgeOfStratosphericAir" title="Age of Stratospheric Air" uid="age_of_stratospheric_air" units="s"></item> 
    1346213511<item description="alias::atmosphere_surface_drag_coefficient_of_heat" label="SurfaceDragCoefficientForHeatInAir" title="Surface Drag Coefficient For Heat in Air [alias]" uid="atmosphere_surface_drag_coefficient_of_heat" units="1"></item> 
     
    1346813517<item description="Downwelling radiation is radiation from above. It does not mean &quot;net downward&quot;. Radiative flux is the sum of shortwave and longwave radiative fluxes. When thought of as being incident on a surface, a radiative flux is sometimes called &quot;irradiance&quot;. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called &quot;vector irradiance&quot;. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics. The volume scattering/absorption/attenuation coefficient is the fractional change of radiative flux per unit path length due to the stated process. Coefficients with canonical units of m2 s-1 i.e. multiplied by density have standard names with specific_ instead of volume_. The scattering/absorption/attenuation coefficient is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength is included to specify the wavelength. Attenuation is the sum of absorption and scattering. Attenuation is sometimes called &quot;extinction&quot;. Also called &quot;diffuse&quot; attenuation, the attenuation of downwelling radiative flux refers to the decrease with decreasing height or increasing depth of the downwelling component of radiative flux, regardless of incident direction." label="VolumeAttenuationCoefficientOfDownwellingRadiativeFluxInSeaWater" title="Volume Attenuation Coefficient of Downwelling Radiative Flux in Sea Water" uid="volume_attenuation_coefficient_of_downwelling_radiative_flux_in_sea_water" units="m-1"></item> 
    1346913518<item description="alias::water_content_of_atmosphere_layer" label="MassContentOfWaterInAtmosphereLayer" title="Mass Content of Water in Atmosphere Layer [alias]" uid="water_content_of_atmosphere_layer" units="kg m-2"></item> 
    13470 <item description="Convective inhibition is the amount of energy per unit mass required to overcome the negatively buoyant energy exerted by the environment on a parcel of air.  Convective inhibition is often abbreviated as &quot;CIN&quot; or &quot;CINH&quot;.  It is calculated by integrating the negative temperature difference between the surrounding atmosphere and a parcel of air lifted adiabatically from a given starting height to its equilibrium level. A coordinate variable of original_air_pressure_of_lifted_parcel should be specified to indicate the starting height of the lifted parcel. " label="AtmosphereConvectiveInhibition" title="Atmosphere Convective Inhibition" uid="atmosphere_convective_inhibition" units="J kg -1"></item> 
     13519<item description="Convective inhibition is the amount of energy per unit mass required to overcome the negatively buoyant energy exerted by the environment on a parcel of air.  Convective inhibition is often abbreviated as &quot;CIN&quot; or &quot;CINH&quot;.  It is calculated by integrating the negative temperature difference between the surrounding atmosphere and a parcel of air lifted adiabatically from a given starting height to its equilibrium level. A coordinate variable of original_air_pressure_of_lifted_parcel should be specified to indicate the starting height of the lifted parcel." label="AtmosphereConvectiveInhibition" title="Atmosphere Convective Inhibition" uid="atmosphere_convective_inhibition" units="J kg -1"></item> 
    1347113520<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. &quot;Inorganic chlorine&quot;, sometimes referred to as Cly, describes a family of chemical species which result from the degradation of source gases containing chlorine (CFCs, HCFCs, VSLS) and natural inorganic chlorine sources such as seasalt and other aerosols. &quot;Inorganic chlorine&quot; is the term used in standard names for all species belonging to the family that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models.  Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. Standard names that use the term &quot;clox&quot; are used for quantities that contain all inorganic chlorine species except HCl and ClONO2." label="MassConcentrationOfInorganicChlorineInAir" title="Mass Concentration of Inorganic Chlorine in Air" uid="mass_concentration_of_inorganic_chlorine_in_air" units="kg m-3"></item> 
    1347213521<item description="Mole fraction is used in the construction mole_fraction_of_X_in_Y, where X is a material constituent of Y." label="MoleFractionOfCarbonMonoxideInAir" title="Mole Fraction of Carbon Monoxide in Air" uid="mole_fraction_of_carbon_monoxide_in_air" units="1"></item> 
     
    1348113530<item description="A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. &quot;shortwave&quot; means shortwave radiation. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). Net upward radiation is the difference between radiation from below (upwelling) and radiation from above (downwelling). In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="NetUpwardShortwaveFluxInAirAssumingClearSky" title="Net Upward Shortwave Flux in Air Assuming Clear Sky" uid="net_upward_shortwave_flux_in_air_assuming_clear_sky" units="W m-2"></item> 
    1348213531<item description="&quot;product_of_X_and_Y&quot; means X*Y. &quot;specific&quot; means per unit mass. Specific humidity is the mass fraction of water vapor in (moist) air. &quot;omegaX&quot; is used for brevity to mean &quot;lagrangian_tendency_of_air_pressure in standard names constructed as a combination of omega with some other quantity." label="ProductOfOmegaAndSpecificHumidity" title="Product of Omega And Specific Humidity" uid="product_of_omega_and_specific_humidity" units="Pa s-1"></item> 
    13483 <item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. The sea surface skin temperature is the temperature measured by an infrared radiometer typically operating at wavelengths in the range 3.7 - 12 micrometers. It represents the temperature within the conductive diffusion-dominated sub-layer at a depth of approximately 10 - 20 micrometers below the air-sea interface. Measurements of this quantity are subject to a large potential diurnal cycle including cool skin layer effects (especially at night under clear skies and low wind speed conditions) and warm layer effects in the daytime." label="SeaSurfaceSkinTemperature" title="Sea Surface Skin Temperature" uid="sea_surface_skin_temperature" units="K"></item> 
     13532<item description="The sea surface skin temperature is the temperature measured by an infrared radiometer typically operating at wavelengths in the range 3.7 - 12 micrometers. It represents the temperature within the conductive diffusion-dominated sub-layer at a depth of approximately 10 - 20 micrometers below the air-sea interface. Measurements of this quantity are subject to a large potential diurnal cycle including cool skin layer effects (especially at night under clear skies and low wind speed conditions) and warm layer effects in the daytime." label="SeaSurfaceSkinTemperature" title="Sea Surface Skin Temperature" uid="sea_surface_skin_temperature" units="K"></item> 
    1348413533<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;nmvoc&quot; means non methane volatile organic compounds; &quot;nmvoc&quot; is the term used in standard names to describe the group of chemical species having this classification that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. The &quot;waste treatment and disposal&quot; sector comprises solid waste disposal on land, wastewater handling, waste incineration and other waste disposal. &quot;Waste treatment and disposal&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 6A, 6B, 6C and 6D as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfNmvocDueToEmissionFromWasteTreatmentAndDisposal" title="Tendency of Atmosphere Mass Content of Nmvoc due to Emission from Waste Treatment And Disposal" uid="tendency_of_atmosphere_mass_content_of_nmvoc_due_to_emission_from_waste_treatment_and_disposal" units="kg m-2 s-1"></item> 
    13485 <item description="alias::tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_gravitational_settling" label="TendencyOfAtmosphereMassContentOfSeasaltDryAerosolParticlesDueToGravitationalSettling" title="Tendency of Atmosphere Mass Content of Seasalt Dry Aerosol Particles due to Gravitational Settling [alias]" uid="tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_gravitational_settling" units="kg m-2 s-1"></item> 
    13486 <item description="Global average sea level change is due to change in volume of the water in the ocean, caused by mass and/or density change, or to change in the volume of the ocean basins, caused by tectonics etc. It is sometimes called &quot;eustatic&quot;, which is a term that also has other definitions. It differs from the change in the global average sea surface height relative to the centre of the Earth by the global average vertical movement of the ocean floor. Zero sea level change is an arbitrary level." label="GlobalAverageSeaLevelChange" title="Global Average Sea Level Change" uid="global_average_sea_level_change" units="m"></item> 
     13534<item description="alias::tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_gravitational_settling" label="TendencyOfAtmosphereMassContentOfSeaSaltDryAerosolParticlesDueToGravitationalSettling" title="Tendency of Atmosphere Mass Content of Sea Salt Dry Aerosol Particles due to Gravitational Settling [alias]" uid="tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_gravitational_settling" units="kg m-2 s-1"></item> 
     13535<item description="The optical thickness is the integral along the path of radiation of a volume scattering/absorption/attenuation coefficient. The radiative flux is reduced by a factor exp(-optical_thickness) on traversing the path. A coordinate variable of radiation_wavelength or radiation_frequency can be specified to indicate that the optical thickness applies at specific wavelengths or frequencies. &quot;Absorption optical thickness&quot; means that part of the atmosphere optical thickness that is caused by the absorption of incident radiation. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. &quot;Ambient_aerosol&quot; means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. &quot;Ambient aerosol particles&quot; are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase." label="AtmosphereAbsorptionOpticalThicknessDueToSeaSaltAmbientAerosolParticles" title="Atmosphere Absorption Optical Thickness due to Sea Salt Ambient Aerosol Particles" uid="atmosphere_absorption_optical_thickness_due_to_sea_salt_ambient_aerosol_particles" units="1"></item> 
     13536<item description="Global average sea level change is due to change in volume of the water in the ocean, caused by mass and/or density change, or to change in the volume of the ocean basins, caused by tectonics etc. It is sometimes called &quot;eustatic&quot;, which is a term that also has other definitions. It differs from the change in the global average sea surface height relative to the centre of the Earth by the global average vertical movement of the ocean floor. Zero sea level change is an arbitrary level. Because global average sea level change quantifies the change in volume of the world ocean, it is not calculated necessarily by considering local changes in mean sea level." label="GlobalAverageSeaLevelChange" title="Global Average Sea Level Change" uid="global_average_sea_level_change" units="m"></item> 
     13537<item description="Mass concentration means mass per unit volume and is used in the construction &quot;mass_concentration_of_X_in_Y&quot;, where X is a material constituent of Y. A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm2p5 aerosol&quot; means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers." label="MassConcentrationOfPm2P5SeaSaltDryAerosolParticlesInAir" title="Mass Concentration of Pm2P5 Sea Salt Dry Aerosol Particles in Air" uid="mass_concentration_of_pm2p5_sea_salt_dry_aerosol_particles_in_air" units="kg m-3"></item> 
    1348713538<item description="&quot;square_of_X&quot; means X*X. Air temperature is the bulk temperature of the air, not the surface (skin) temperature." label="SquareOfAirTemperature" title="Square of Air Temperature" uid="square_of_air_temperature" units="K2"></item> 
     13539<item description="The phrase &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Eddy dianeutral mixing&quot; means dianeutral mixing, i.e. mixing across neutral directions caused by the unresolved turbulent motion of eddies of all types (e.g., breaking gravity waves, boundary layer turbulence, etc.)." label="TendencyOfSeaWaterSalinityExpressedAsSaltContentDueToParameterizedEddyDianeutralMixing" title="Tendency of Sea Water Salinity Expressed As Salt Content due to Parameterized Eddy Dianeutral Mixing" uid="tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_eddy_dianeutral_mixing" units="kg m-2 s-1"></item> 
    1348813540<item description="The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula of CFC113a CCl3CF3.  The IUPAC name for CFC113a is 1,1,1-trichloro-2,2,2-trifluoro-ethane." label="AtmosphereMolesOfCfc113A" title="Atmosphere Moles of Cfc113A" uid="atmosphere_moles_of_cfc113a" units="mol"></item> 
    1348913541<item description="&quot;Eastward&quot; indicates a vector component which is positive when directed eastward (negative westward). Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.)" label="EastwardWind" title="Eastward Wind" uid="eastward_wind" units="m s-1"></item> 
     
    1349313545<item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. Unless indicated in the cell_methods attribute, a quantity is assumed to apply to the whole area of each horizontal grid box. Previously, the qualifier where_type was used to specify that the quantity applies only to the part of the grid box of the named type.  Names containing the where_type qualifier are deprecated and newly created data should use the cell_methods attribute to indicate the horizontal area to which the quantity applies." label="SurfaceSnowThickness" title="Surface Snow Thickness" uid="surface_snow_thickness" units="m"></item> 
    1349413546<item description="alias::tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_emission_from_residential_and_commercial_combustion" label="TendencyOfAtmosphereMassContentOfElementalCarbonDryAerosolParticlesDueToEmissionFromResidentialAndCommercialCombustion" title="Tendency of Atmosphere Mass Content of Elemental Carbon Dry Aerosol Particles due to Emission from Residential And Commercial Combustion [alias]" uid="tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_emission_from_residential_and_commercial_combustion" units="kg m-2 s-1"></item> 
    13495 <item description="A velocity is a vector quantity. &quot;y&quot; indicates a vector component along the grid y-axis, positive with increasing y. Bolus velocity in an ocean model means the velocity due to a scheme representing eddy-induced effects which are not resolved on the grid scale of the model. bolus_sea_water_y_velocity is used in some parameterisations of lateral diffusion in the ocean." label="BolusSeaWaterYVelocity" title="Bolus Sea Water Y Velocity" uid="bolus_sea_water_y_velocity" units="m s-1"></item> 
     13547<item description="alias::bolus_sea_water_y_velocity" label="SeaWaterYVelocityDueToParameterizedMesoscaleEddies" title="Sea Water Y Velocity due to Parameterized Mesoscale Eddies [alias]" uid="bolus_sea_water_y_velocity" units="m s-1"></item> 
    1349613548<item description="alias::floating_ice_sheet_area_fraction" label="FloatingIceShelfAreaFraction" title="Floating Ice Shelf Area Fraction [alias]" uid="floating_ice_sheet_area_fraction" units="1"></item> 
    1349713549<item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Vertical tracer diffusivity&quot; means the vertical component of the diffusivity of tracers, i.e. heat and salinity, due to motion which is not resolved on the grid scale of the model." label="OceanVerticalTracerDiffusivityDueToWindMixing" title="Ocean Vertical Tracer Diffusivity due to Wind Mixing" uid="ocean_vertical_tracer_diffusivity_due_to_wind_mixing" units="m2 s-1"></item> 
    1349813550<item description="&quot;Sea water age since surface contact&quot; means the length of time elapsed since the sea water in a grid cell was last in the surface level of an ocean model." label="SeaWaterAgeSinceSurfaceContact" title="Sea Water Age Since Surface Contact" uid="sea_water_age_since_surface_contact" units="year"></item> 
    13499 <item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. A velocity is a vector quantity. &quot;Eastward&quot; indicates a vector component which is positive when directed eastward (negative westward). &quot;Geostrophic&quot; indicates that geostrophic balance is assumed, i.e. that the pressure gradient force and the Coriolis force are balanced and the large scale fluid flow is parallel to the isobars. &quot;sea_level&quot; means mean sea level. The geoid is a surface of constant geopotential with which mean sea level would coincide if the ocean were at rest. (The volume enclosed between the geoid and the sea floor equals the mean volume of water in the ocean.) In an ocean GCM the geoid is the surface of zero depth, or the rigid lid if the model uses that approximation. surface_geostrophic_eastward_sea_water_velocity_assuming_sea_level_for_geoid is the variable part of surface_geostrophic_eastward_sea_water_velocity. The assumption that sea level is equal to the geoid means that the stationary component of ocean circulation is equal to zero." label="SurfaceGeostrophicEastwardSeaWaterVelocityAssumingSeaLevelForGeoid" title="Surface Geostrophic Eastward Sea Water Velocity Assuming Sea Level For Geoid" uid="surface_geostrophic_eastward_sea_water_velocity_assuming_sea_level_for_geoid" units="m s-1"></item> 
     13551<item description="alias::surface_geostrophic_eastward_sea_water_velocity_assuming_sea_level_for_geoid" label="SurfaceGeostrophicEastwardSeaWaterVelocityAssumingMeanSeaLevelForGeoid" title="Surface Geostrophic Eastward Sea Water Velocity Assuming Mean Sea Level For Geoid [alias]" uid="surface_geostrophic_eastward_sea_water_velocity_assuming_sea_level_for_geoid" units="m s-1"></item> 
    1350013552<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Content&quot; indicates a quantity per unit area.  &quot;Wet deposition&quot; means deposition by precipitation." label="TendencyOfAtmosphereMassContentOfGaseousElementalMercuryDueToWetDeposition" title="Tendency of Atmosphere Mass Content of Gaseous Elemental Mercury due to Wet Deposition" uid="tendency_of_atmosphere_mass_content_of_gaseous_elemental_mercury_due_to_wet_deposition" units="kg m-2 s-1"></item> 
    1350113553<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. Dry static energy is the sum of enthalpy and potential energy (itself the sum of gravitational and centripetal potential energy). Enthalpy can be written either as (1) CpT, where Cp is heat capacity at constant pressure, T is absolute temperature, or (2) U+pV, where U is internal energy, p is pressure and V is volume." label="AtmosphereDryStaticEnergyContent" title="Atmosphere Dry Static Energy Content" uid="atmosphere_dry_static_energy_content" units="J m-2"></item> 
     
    1350613558<item description="&quot;square_of_X&quot; means X*X. A velocity is a vector quantity. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). Upward air velocity is the vertical component of the 3D air velocity vector." label="SquareOfUpwardAirVelocity" title="Square of Upward Air Velocity" uid="square_of_upward_air_velocity" units="m2 s-2"></item> 
    1350713559<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for ethane is C2H6. Ethane is a member of the group of hydrocarbons known as alkanes. There are standard names for the alkane group as well as for some of the individual species. The &quot;industrial processes and combustion&quot; sector comprises fuel combustion activities related to manufacturing industries and construction, industrial processes related to mineral products, the chemical industry, metal production, the production of pulp, paper, food and drink, and non-energy industry use of lubricants and waxes. It may also include any not-classified or &quot;other&quot; combustion, which is commonly included in industry-related inventory data. &quot;Industrial processes and combustion&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 1A2, 2A, 2B, 2C, 2D and 2G as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfEthaneDueToEmissionFromIndustrialProcessesAndCombustion" title="Tendency of Atmosphere Mass Content of Ethane due to Emission from Industrial Processes And Combustion" uid="tendency_of_atmosphere_mass_content_of_ethane_due_to_emission_from_industrial_processes_and_combustion" units="kg m-2 s-1"></item> 
     13560<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. &quot;tendency_of_X&quot; means derivative of X with respect to time. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Wet deposition&quot; means deposition by precipitation. &quot;Reduced nitrogen compounds&quot; means all chemical species containing nitrogen atoms with an oxidation state less than zero. Usually, particle bound and gaseous nitrogen compounds, primarily ammonium (NH4+) and ammonia (NH3), are included. The list of individual species that are included in this quantity can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A." label="TendencyOfAtmosphereMassContentOfReducedNitrogenCompoundsExpressedAsNitrogenDueToWetDeposition" title="Tendency of Atmosphere Mass Content of Reduced Nitrogen Compounds Expressed As Nitrogen due to Wet Deposition" uid="tendency_of_atmosphere_mass_content_of_reduced_nitrogen_compounds_expressed_as_nitrogen_due_to_wet_deposition" units="kg m-2 s-1"></item> 
    1350813561<item description="&quot;cloud_top&quot; refers to the top of the highest cloud. &quot;Water&quot; means water in all phases. A variable with the standard name of thermodynamic_phase_of_cloud_water_particles_at_cloud_top contains integers which can be translated to strings using flag_values and flag_meanings attributes. Alternatively, the data variable may contain strings which indicate the thermodynamic phase. These strings are standardised. Values must be chosen from the following list: liquid; ice; mixed; clear_sky; super_cooled_liquid_water; unknown." label="ThermodynamicPhaseOfCloudWaterParticlesAtCloudTop" title="Thermodynamic Phase of Cloud Water Particles At Cloud Top" uid="thermodynamic_phase_of_cloud_water_particles_at_cloud_top" units="1"></item> 
    1350913562<item description="&quot;Land ice&quot; means glaciers, ice-caps and ice-sheets resting on bedrock and also includes ice-shelves. &quot;Specific mass flux due to calving&quot; means the change in land ice mass per unit area resulting from iceberg calving. A negative value means loss of ice. For an area-average, the cell_methods attribute should be used to specify whether the average is over the area of the whole grid cell or the area of land ice only. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase." label="LandIceSpecificMassFluxDueToCalving" title="Land Ice Specific Mass Flux due to Calving" uid="land_ice_specific_mass_flux_due_to_calving" units="kg m-2 s-1"></item> 
     
    1351413567<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The chemical formula for bromine monoxide is BrO." label="AtmosphereMassContentOfBromineMonoxide" title="Atmosphere Mass Content of Bromine Monoxide" uid="atmosphere_mass_content_of_bromine_monoxide" units="kg m-2"></item> 
    1351513568<item description="cloud_base refers to the base of the lowest cloud. Altitude is the (geometric) height above the geoid, which is the reference geopotential surface. The geoid is similar to mean sea level." label="CloudBaseAltitude" title="Cloud Base Altitude" uid="cloud_base_altitude" units="m"></item> 
     13569<item description="The phrase &quot;integral_wrt_X_of_Y&quot; means int Y dX. The data variable should have an axis for X specifying the limits of the integral as bounds. &quot;wrt&quot; means with respect to. &quot;toa&quot; means top of atmosphere. &quot;Longwave&quot; means longwave radiation. The TOA outgoing longwave flux is the upwelling thermal radiative flux, often called the &quot;outgoing longwave radiation&quot; or &quot;OLR&quot;. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="IntegralWrtTimeOfToaOutgoingLongwaveFlux" title="Integral Wrt Time of Toa Outgoing Longwave Flux" uid="integral_wrt_time_of_toa_outgoing_longwave_flux" units="W s m-2"></item> 
    1351613570<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical symbol for atomic nitrogen is N." label="MassConcentrationOfAtomicNitrogenInAir" title="Mass Concentration of Atomic Nitrogen in Air" uid="mass_concentration_of_atomic_nitrogen_in_air" units="kg m-3"></item> 
    1351713571<item description="" label="RainfallRate" title="Rainfall Rate" uid="rainfall_rate" units="m s-1"></item> 
    1351813572<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Dry deposition&quot; is the sum of turbulent deposition and gravitational settling. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfAtmosphereMassContentOfMercuryDryAerosolParticlesDueToDryDeposition" title="Tendency of Atmosphere Mass Content of Mercury Dry Aerosol Particles due to Dry Deposition" uid="tendency_of_atmosphere_mass_content_of_mercury_dry_aerosol_particles_due_to_dry_deposition" units="kg m-2 s-1"></item> 
    13519 <item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. &quot;Pm10 aerosol&quot; is an air pollutant with an aerodynamic diameter of less than or equal to 10 micrometers. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfAtmosphereMassContentOfPm10DryAerosolParticlesDueToEmission" title="Tendency of Atmosphere Mass Content of Pm10 Dry Aerosol Particles due to Emission" uid="tendency_of_atmosphere_mass_content_of_pm10_dry_aerosol_particles_due_to_emission" units="kg m-2 s-1"></item> 
    13520 <item description="'Mole concentration' means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Dissolved inorganic silicon&quot; means the sum of all silicon in solution (including silicic acid and its first dissociated anion SiO(OH)3-)." label="TendencyOfMoleConcentrationOfDissolvedInorganicSiliconInSeaWaterDueToBiologicalProcesses" title="Tendency of Mole Concentration of Dissolved Inorganic Silicon in Sea Water due to Biological Processes" uid="tendency_of_mole_concentration_of_dissolved_inorganic_silicon_in_sea_water_due_to_biological_processes" units="mol m-3 s-1"></item> 
     13573<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm10 aerosol&quot; means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfAtmosphereMassContentOfPm10DryAerosolParticlesDueToEmission" title="Tendency of Atmosphere Mass Content of Pm10 Dry Aerosol Particles due to Emission" uid="tendency_of_atmosphere_mass_content_of_pm10_dry_aerosol_particles_due_to_emission" units="kg m-2 s-1"></item> 
     13574<item description="'Mole concentration' means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Dissolved inorganic silicon&quot; means the sum of all inorganic silicon in solution (including silicic acid and its first dissociated anion SiO(OH)3-)." label="TendencyOfMoleConcentrationOfDissolvedInorganicSiliconInSeaWaterDueToBiologicalProcesses" title="Tendency of Mole Concentration of Dissolved Inorganic Silicon in Sea Water due to Biological Processes" uid="tendency_of_mole_concentration_of_dissolved_inorganic_silicon_in_sea_water_due_to_biological_processes" units="mol m-3 s-1"></item> 
    1352113575<item description="Attenuation is the sum of absorption and scattering. Attenuation is sometimes called &quot;extinction&quot;.  The attenuated backwards scattering function includes the effects of two-way attenuation by the medium between a radar source and receiver. The volume scattering function is the fraction of incident radiative flux scattered into unit solid angle per unit path length.  Backwards scattering refers to the sum of scattering into all backward angles i.e. scattering_angle exceeding pi/2 radians. A scattering_angle should not be specified with this quantity." label="VolumeAttenuatedBackwardsScatteringFunctionInAir" title="Volume Attenuated Backwards Scattering Function in Air" uid="volume_attenuated_backwards_scattering_function_in_air" units="m-1 sr-1"></item> 
    1352213576<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  Aromatic compounds in organic chemistry are compounds that contain at least one benzene ring of six carbon atoms joined by alternating single and double covalent bonds.  The simplest aromatic compound is benzene itself.  In standard names &quot;aromatic_compounds&quot; is the term used to describe the group of aromatic chemical species that  are represented within a given model.  The list of individual species that are included in a quantity having a group chemical standard name can vary between models.  Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute.  Standard names exist for some individual aromatic species, e.g. benzene and xylene." label="AtmosphereMassContentOfAromaticCompounds" title="Atmosphere Mass Content of Aromatic Compounds" uid="atmosphere_mass_content_of_aromatic_compounds" units="kg m-2"></item> 
     
    1352513579<item description="&quot;Eastward&quot; indicates a vector component which is positive when directed eastward (negative westward). &quot;Downward&quot; indicates a vector component which is positive when directed downward (negative upward). &quot;Downward eastward&quot; indicates the ZX component of a tensor. A downward eastward stress is a downward flux of eastward momentum, which accelerates the lower medium eastward and the upper medium westward." label="DownwardEastwardStressAtSeaIceBase" title="Downward Eastward Stress At Sea Ice Base" uid="downward_eastward_stress_at_sea_ice_base" units="Pa"></item> 
    1352613580<item description="Fractional saturation is the ratio of some measure of concentration to the saturated value of the same quantity." label="FractionalSaturationOfOxygenInSeaWater" title="Fractional Saturation of Oxygen in Sea Water" uid="fractional_saturation_of_oxygen_in_sea_water" units="1"></item> 
    13527 <item description="Global average sea level change is due to change in volume of the water in the ocean, caused by mass and/or density change, or to change in the volume of the ocean basins, caused by tectonics etc. It is sometimes called &quot;eustatic&quot;, which is a term that also has other definitions. It differs from the change in the global average sea surface height relative to the centre of the Earth by the global average vertical movement of the ocean floor. Zero sea level change is an arbitrary level. Phase is the initial angle of a wave modelled by a sinusoidal function. A coordinate variable of harmonic_period should be used to specify the period of the sinusoidal wave." label="PhaseOfGlobalAverageSeaLevelChange" title="Phase of Global Average Sea Level Change" uid="phase_of_global_average_sea_level_change" units="degree"></item> 
     13581<item description="Global average sea level change is due to change in volume of the water in the ocean, caused by mass and/or density change, or to change in the volume of the ocean basins, caused by tectonics etc. It is sometimes called &quot;eustatic&quot;, which is a term that also has other definitions. It differs from the change in the global average sea surface height relative to the centre of the Earth by the global average vertical movement of the ocean floor. Zero sea level change is an arbitrary level. Phase is the initial angle of a wave modelled by a sinusoidal function. A coordinate variable of harmonic_period should be used to specify the period of the sinusoidal wave. Because global average sea level change quantifies the change in volume of the world ocean, it is not calculated necessarily by considering local changes in mean sea level." label="PhaseOfGlobalAverageSeaLevelChange" title="Phase of Global Average Sea Level Change" uid="phase_of_global_average_sea_level_change" units="degree"></item> 
     13582<item description="&quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward).  Plant respiration is the sum of respiration by parts of plants both above and below the soil. Plants which photosynthesise are autotrophs i.e.&quot;producers&quot; of the biomass which they respire from inorganic precursors using sunlight for energy.  In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics.  The surface called &quot;surface&quot; means the lower boundary of the atmosphere.  The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase." label="SurfaceUpwardCarbonMassFluxDueToPlantRespirationForBiomassMaintenance" title="Surface Upward Carbon Mass Flux due to Plant Respiration For Biomass Maintenance" uid="surface_upward_carbon_mass_flux_due_to_plant_respiration_for_biomass_maintenance" units="kg m-2 s-1"></item> 
    1352813583<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for nitrogen dioxide is NO2. The &quot;savanna and grassland fires&quot; sector comprises the burning (natural and human-induced) of living or dead vegetation in non-forested areas. It excludes field burning of agricultural residues. &quot;Savanna and grassland fires&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 5 as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfNitrogenDioxideDueToEmissionFromSavannaAndGrasslandFires" title="Tendency of Atmosphere Mass Content of Nitrogen Dioxide due to Emission from Savanna And Grassland Fires" uid="tendency_of_atmosphere_mass_content_of_nitrogen_dioxide_due_to_emission_from_savanna_and_grassland_fires" units="kg m-2 s-1"></item> 
    1352913584<item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;tendency_of_X&quot; means derivative of X with respect to time. Speed is the magnitude of velocity. Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.) The wind speed is the magnitude of the wind velocity." label="TendencyOfWindSpeedDueToConvection" title="Tendency of Wind Speed due to Convection" uid="tendency_of_wind_speed_due_to_convection" units="m s-2"></item> 
    13530 <item description="&quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward).  Plant respiration is the sum of respiration by parts of plants both above and below the soil. Plants which photosynthesise are autotrophs i.e.&quot;producers&quot; of the biomass which they respire from inorganic precursors using sunlight for energy.  In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics.  The surface called &quot;surface&quot; means the lower boundary of the atmosphere.  The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase." label="SurfaceUpwardCarbonMassFluxDueToPlantRespirationForBiomassMaintenance" title="Surface Upward Carbon Mass Flux due to Plant Respiration For Biomass Maintenance" uid="surface_upward_carbon_mass_flux_due_to_plant_respiration_for_biomass_maintenance" units="kg m-2 s-1"></item> 
    1353113585<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. &quot;Volcanic_ash&quot; means the fine-grained products of explosive volcanic eruptions, such as minerals or crystals, older fragmented rock (e.g. andesite), and glass. Particles within a volcanic ash cloud have diameters less than 2 mm. &quot;Volcanic_ash&quot; does not include non-volcanic dust. " label="AtmosphereMassContentOfVolcanicAsh" title="Atmosphere Mass Content of Volcanic Ash" uid="atmosphere_mass_content_of_volcanic_ash" units="kg m-2"></item> 
    1353213586<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for ammonia is NH3." label="MassConcentrationOfAmmoniaInAir" title="Mass Concentration of Ammonia in Air" uid="mass_concentration_of_ammonia_in_air" units="kg m-3"></item> 
     
    1354913603<item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;magnitude_of_X&quot; means magnitude of a vector X. &quot;Downward&quot; indicates a vector component which is positive when directed downward (negative upward)." label="MagnitudeOfSurfaceDownwardStress" title="Magnitude of Surface Downward Stress" uid="magnitude_of_surface_downward_stress" units="Pa"></item> 
    1355013604<item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, whereX is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The term &quot;peroxy_radicals&quot; means all organic and inorganic peroxy radicals. This includes HO2 and all organic peroxyradicals, sometimes referred to as RO2. In chemistry, a 'radical' is a highly reactive, and therefore shortlived, species." label="MassFractionOfPeroxyRadicalsInAir" title="Mass Fraction of Peroxy Radicals in Air" uid="mass_fraction_of_peroxy_radicals_in_air" units="1"></item> 
    13551 <item description="Mass fraction is used in the construction &quot;mass_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm10 aerosol&quot; is an air pollutant with an aerodynamic diameter of less than or equal to 10 micrometers." label="MassFractionOfPm10SeaSaltDryAerosolParticlesInAir" title="Mass Fraction of Pm10 Sea Salt Dry Aerosol Particles in Air" uid="mass_fraction_of_pm10_sea_salt_dry_aerosol_particles_in_air" units="1"></item> 
    13552 <item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction &quot;mole_concentration_of_X_in_Y&quot;, where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Dissolved inorganic silicon&quot; means the sum of all silicon in solution (including silicic acid and its first dissociated anion SiO(OH)3-)." label="MoleConcentrationOfDissolvedInorganicSiliconInSeaWater" title="Mole Concentration of Dissolved Inorganic Silicon in Sea Water" uid="mole_concentration_of_dissolved_inorganic_silicon_in_sea_water" units="mol m-3"></item> 
     13605<item description="Mass fraction is used in the construction &quot;mass_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm10 aerosol&quot; means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 10 micrometers." label="MassFractionOfPm10SeaSaltDryAerosolParticlesInAir" title="Mass Fraction of Pm10 Sea Salt Dry Aerosol Particles in Air" uid="mass_fraction_of_pm10_sea_salt_dry_aerosol_particles_in_air" units="1"></item> 
     13606<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction &quot;mole_concentration_of_X_in_Y&quot;, where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Dissolved inorganic silicon&quot; means the sum of all inorganic silicon in solution (including silicic acid and its first dissociated anion SiO(OH)3-)." label="MoleConcentrationOfDissolvedInorganicSiliconInSeaWater" title="Mole Concentration of Dissolved Inorganic Silicon in Sea Water" uid="mole_concentration_of_dissolved_inorganic_silicon_in_sea_water" units="mol m-3"></item> 
    1355313607<item description="Wave height is defined as the vertical distance from a wave trough to the following wave crest. The height of the highest tenth is defined as the mean of the highest ten per cent of trough to crest distances measured during the observation period." label="SeaSurfaceWaveMeanHeightOfHighestTenth" title="Sea Surface Wave Mean Height of Highest Tenth" uid="sea_surface_wave_mean_height_of_highest_tenth" units="m"></item> 
    1355413608<item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for ammonia is NH3." label="MassFractionOfAmmoniaInAir" title="Mass Fraction of Ammonia in Air" uid="mass_fraction_of_ammonia_in_air" units="1"></item> 
     
    1355813612<item description="Picophytoplankton are phytoplankton of less than 2 micrometers in size. Phytoplankton are algae that grow where there is sufficient light to support photosynthesis. &quot;Iron growth limitation&quot; means the ratio of the growth rate of a species population in the environment (where there is a finite availability of iron) to the theoretical growth rate if there were no such limit on iron availability." label="IronGrowthLimitationOfPicophytoplankton" title="Iron Growth Limitation of Picophytoplankton" uid="iron_growth_limitation_of_picophytoplankton" units="1"></item> 
    1355913613<item description="X_binary_mask has 1 where condition X is met, 0 elsewhere. 1 = land, 0 = sea." label="LandBinaryMask" title="Land Binary Mask" uid="land_binary_mask" units="1"></item> 
    13560 <item description="Mass fraction is used in the construction &quot;mass_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm2p5 aerosol&quot; is an air pollutant with an aerodynamic diameter of less than or equal to 2.5 micrometers." label="MassFractionOfPm2P5SeaSaltDryAerosolParticlesInAir" title="Mass Fraction of Pm2P5 Sea Salt Dry Aerosol Particles in Air" uid="mass_fraction_of_pm2p5_sea_salt_dry_aerosol_particles_in_air" units="1"></item> 
    13561 <item description="alias::moles_of_halon2402_in_atmosphere" label="AtmosphereMolesOfHalon2402" title="Atmosphere Moles of Halon2402 [alias]" uid="moles_of_halon2402_in_atmosphere" units="mol"></item> 
    13562 <item description="Diffusivity is also sometimes known as the coefficient of diffusion. Diffusion occurs as a result of a gradient in the spatial distribution of mass concentration, temperature or momentum.  The diffusivity may be very different in the vertical and horizontal directions. &quot;Bolus diffusivity&quot; means a lateral diffusivity. &quot;biharmonicdiffusivity&quot; means diffusivity for use with a biharmonic diffusion operator." label="OceanTracerBolusBiharmonicDiffusivity" title="Ocean Tracer Bolus Biharmonic Diffusivity" uid="ocean_tracer_bolus_biharmonic_diffusivity" units="m4 s-1"></item> 
     13614<item description="Mass fraction is used in the construction &quot;mass_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm2p5 aerosol&quot; means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers." label="MassFractionOfPm2P5SeaSaltDryAerosolParticlesInAir" title="Mass Fraction of Pm2P5 Sea Salt Dry Aerosol Particles in Air" uid="mass_fraction_of_pm2p5_sea_salt_dry_aerosol_particles_in_air" units="1"></item> 
    1356313615<item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Vertical tracer diffusivity&quot; means the vertical component of the diffusivity of tracers, i.e. heat and salinity, due to motion which is not resolved on the grid scale of the model.  Convective mixing in the ocean is sometimes modelled as an enhanced diffusivity." label="OceanVerticalTracerDiffusivityDueToConvection" title="Ocean Vertical Tracer Diffusivity due to Convection" uid="ocean_vertical_tracer_diffusivity_due_to_convection" units="m2 s-1"></item> 
     13616<item description="&quot;product_of_X_and_Y&quot; means X*Y. Geopotential is the sum of the specific gravitational potential energy relative to the geoid and the specific centripetal potential energy. Geopotential height is the geopotential divided by the standard acceleration due to gravity. It is numerically similar to the altitude (or geometric height) and not to the quantity with standard name height, which is relative to the surface. &quot;Eastward&quot; indicates a vector component which is positive when directed eastward (negative westward). Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.)" label="ProductOfEastwardWindAndGeopotentialHeight" title="Product of Eastward Wind And Geopotential Height" uid="product_of_eastward_wind_and_geopotential_height" units="m2 s-1"></item> 
    1356413617<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for butane is C4H10. Butane is a member of the group of hydrocarbons known as alkanes. There are standard names for the alkane group as well as for some of the individual species. The &quot;agricultural production&quot; sector comprises the agricultural processes of enteric fermentation, manure management, rice cultivation, agricultural soils and other. It may also include any not-classified or &quot;other&quot; combustion, which is commonly included in agriculture-related inventory data. &quot;Agricultural production&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 4A, 4B, 4C, 4D and 4G as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfButaneDueToEmissionFromAgriculturalProduction" title="Tendency of Atmosphere Mass Content of Butane due to Emission from Agricultural Production" uid="tendency_of_atmosphere_mass_content_of_butane_due_to_emission_from_agricultural_production" units="kg m-2 s-1"></item> 
    1356513618<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. Ethers are a class of organic compounds that contain an ether group - an oxygen atom connected to two alkyl or aryl groups - of general formula R-O-R. In standard names &quot;ethers&quot; is the term used to describe the group of ether species that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute.   The &quot;waste treatment and disposal&quot; sector comprises solid waste disposal on land, wastewater handling, waste incineration and other waste disposal. &quot;Waste treatment and disposal&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 6A, 6B, 6C and 6D as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfEthersDueToEmissionFromWasteTreatmentAndDisposal" title="Tendency of Atmosphere Mass Content of Ethers due to Emission from Waste Treatment And Disposal" uid="tendency_of_atmosphere_mass_content_of_ethers_due_to_emission_from_waste_treatment_and_disposal" units="kg m-2 s-1"></item> 
    1356613619<item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. Evaporation is the conversion of liquid or solid into vapor.  In an atmosphere model, stratiform cloud is that produced by large-scale convergence (not the convection schemes).  The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;shortwave&quot; means shortwave radiation." label="TendencyOfMassFractionOfStratiformCloudLiquidWaterInAirDueToCondensationAndEvaporationFromShortwaveHeating" title="Tendency of Mass Fraction of Stratiform Cloud Liquid Water in Air due to Condensation And Evaporation from Shortwave Heating" uid="tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_condensation_and_evaporation_from_shortwave_heating" units="s-1"></item> 
    13567 <item description="&quot;product_of_X_and_Y&quot; means X*Y. Geopotential is the sum of the specific gravitational potential energy relative to the geoid and the specific centripetal potential energy. Geopotential height is the geopotential divided by the standard acceleration due to gravity. It is numerically similar to the altitude (or geometric height) and not to the quantity with standard name height, which is relative to the surface. &quot;Eastward&quot; indicates a vector component which is positive when directed eastward (negative westward). Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.)" label="ProductOfEastwardWindAndGeopotentialHeight" title="Product of Eastward Wind And Geopotential Height" uid="product_of_eastward_wind_and_geopotential_height" units="m2 s-1"></item> 
     13620<item description="alias::moles_of_halon2402_in_atmosphere" label="AtmosphereMolesOfHalon2402" title="Atmosphere Moles of Halon2402 [alias]" uid="moles_of_halon2402_in_atmosphere" units="mol"></item> 
     13621<item description="alias::ocean_tracer_bolus_biharmonic_diffusivity" label="OceanTracerBiharmonicDiffusivityDueToParameterizedMesoscaleEddyAdvection" title="Ocean Tracer Biharmonic Diffusivity due to Parameterized Mesoscale Eddy Advection [alias]" uid="ocean_tracer_bolus_biharmonic_diffusivity" units="m4 s-1"></item> 
    1356813622<item description="&quot;Amount&quot; means mass per unit area. The construction thickness_of_[X_]rainfall_amount means the accumulated &quot;depth&quot; of rainfall i.e. the thickness of a layer of liquid water having the same mass per unit area as the rainfall amount." label="ThicknessOfConvectiveRainfallAmount" title="Thickness of Convective Rainfall Amount" uid="thickness_of_convective_rainfall_amount" units="m"></item> 
    1356913623<item description="Downwelling radiation is radiation from above. It does not mean &quot;net downward&quot;. A photon flux is specified in terms of numbers of photons expressed in moles. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="DownwellingPhotonFluxInSeaWater" title="Downwelling Photon Flux in Sea Water" uid="downwelling_photon_flux_in_sea_water" units="mol m-2 s-1"></item> 
    1357013624<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for methyl hydroperoxide is CH3OOH." label="MoleConcentrationOfMethylHydroperoxideInAir" title="Mole Concentration of Methyl Hydroperoxide in Air" uid="mole_concentration_of_methyl_hydroperoxide_in_air" units="mol m-3"></item> 
    13571 <item description="&quot;Vertical heat diffusivity&quot; means the vertical component of the diffusivity of heat due to motion which is not resolved on the grid scale of the model." label="OceanVerticalHeatDiffusivity" title="Ocean Vertical Heat Diffusivity" uid="ocean_vertical_heat_diffusivity" units="m2 s-1"></item> 
    13572 <item description="Sound pressure is the difference from the local ambient pressure caused by a sound wave at a particular location and time. Sound pressure level in air is expressed on a logarithmic scale with reference to a sound pressure of 2e-5 Pa. Lp = 20 log10(p/p0) where Lp is the sound pressure level, p is the rms sound pressure and p0 is the reference sound pressure." label="SoundPressureLevelInAir" title="Sound Pressure Level in Air" uid="sound_pressure_level_in_air" units="dB"></item> 
    13573 <item description="&quot;square_of_X&quot; means X*X. Geopotential is the sum of the specific gravitational potential energy relative to the geoid and the specific centripetal potential energy. Geopotential height is the geopotential divided by the standard acceleration due to gravity. It is numerically similar to the altitude (or geometric height) and not to the quantity with standard name height, which is relative to the surface." label="SquareOfGeopotentialHeight" title="Square of Geopotential Height" uid="square_of_geopotential_height" units="m2"></item> 
    13574 <item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Water&quot; means water in all phases, including frozen i.e. ice and snow. Downwelling radiation is radiation from above. It does not mean &quot;net downward&quot;. Photon spherical irradiance is the photon flux incident on unit area of a hemispherical (or &quot;2-pi&quot;) collector. A photon flux is specified in terms of numbers of photons expressed in moles. A coordinate variable for radiation wavelength should be given the standard name radiation_wavelength." label="SurfaceDownwellingPhotonSphericalIrradiancePerUnitWavelengthInSeaWater" title="Surface Downwelling Photon Spherical Irradiance Per Unit Wavelength in Sea Water" uid="surface_downwelling_photon_spherical_irradiance_per_unit_wavelength_in_sea_water" units="mol m-2 s-1 m-1"></item> 
    13575 <item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Wet deposition&quot; means deposition by precipitation. &quot;tendency_of_X&quot; means derivative of X with respect to time. Aldehydes are organic compounds with a CHO group; &quot;aldehydes&quot; is the term used in standard names to describe the group of chemical species having this common structure that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. Standard names exist for some individual aldehyde species, e.g., formaldehyde and acetyladehyde." label="TendencyOfAtmosphereMassContentOfAldehydesDueToWetDeposition" title="Tendency of Atmosphere Mass Content of Aldehydes due to Wet Deposition" uid="tendency_of_atmosphere_mass_content_of_aldehydes_due_to_wet_deposition" units="kg m-2 s-1"></item> 
    1357613625<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. In organic chemistry, a ketone is a compound with the structure RC(=O)R', where R and R' can be a variety of atoms and groups of atoms. It features a carbonyl group (C=O) bonded to two other carbon atoms. Acetone is the simplest example of a ketone. In standard names &quot;ketones&quot; is the term used to describe the group of ketone species that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. The &quot;savanna and grassland fires&quot; sector comprises the burning (natural and human-induced) of living or dead vegetation in non-forested areas. It excludes field burning of agricultural residues. &quot;Savanna and grassland fires&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 5 as defined in the 2006 IPCC guidelines for national greenhouse gas Inventories&quot;." label="TendencyOfAtmosphereMassContentOfKetonesDueToEmissionFromSavannaAndGrasslandFires" title="Tendency of Atmosphere Mass Content of Ketones due to Emission from Savanna And Grassland Fires" uid="tendency_of_atmosphere_mass_content_of_ketones_due_to_emission_from_savanna_and_grassland_fires" units="kg m-2 s-1"></item> 
    13577 <item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Secondary particulate organic matter&quot; means particulate organic matter formed within the atmosphere from gaseous precursors. The sum of primary_particulate_organic_matter_dry_aerosol and secondary_particulate_organic_matter_dry_aerosol is particulate_organic_matter_dry_aerosol. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Wet deposition&quot; means deposition by precipitation. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfAtmosphereMassContentOfSecondaryParticulateOrganicMatterDryAerosolParticlesDueToWetDeposition" title="Tendency of Atmosphere Mass Content of Secondary Particulate Organic Matter Dry Aerosol Particles due to Wet Deposition" uid="tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_particles_due_to_wet_deposition" units="kg m-2 s-1"></item> 
    13578 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for carbon dioxide is CO2." label="TendencyOfAtmosphereMolesOfCarbonDioxide" title="Tendency of Atmosphere Moles of Carbon Dioxide" uid="tendency_of_atmosphere_moles_of_carbon_dioxide" units="mol s-1"></item> 
    13579 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Eastward&quot; indicates a vector component which is positive when directed eastward (negative westward). Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.)" label="TendencyOfEastwardWind" title="Tendency of Eastward Wind" uid="tendency_of_eastward_wind" units="m s-2"></item> 
    13580 <item description="&quot;Content&quot; indicates a quantity per unit area. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Dissolved inorganic silicon&quot; means the sum of all silicon in solution (including silicic acid and its first dissociated anion SiO(OH)3-)." label="TendencyOfOceanMoleContentOfDissolvedInorganicSiliconDueToBiologicalProcesses" title="Tendency of Ocean Mole Content of Dissolved Inorganic Silicon due to Biological Processes" uid="tendency_of_ocean_mole_content_of_dissolved_inorganic_silicon_due_to_biological_processes" units="mol m-2 s-1"></item> 
    13581 <item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase.   To apply the altimeter range correction it must be added to the quantity with standard name altimeter_range.  &quot;Correction_due_to_wet_troposphere&quot; means a correction for the effect of liquid water in the troposphere.  Additional altimeter range corrections are given by the quantities with standard names altimeter_range_correction_due_to_dry_troposphere, altimeter_range_correction_due_to_ionosphere, sea_surface_height_correction_due_to_air_pressure_at_low_frequency and sea_surface_height_correction_due_to_air_pressure_and_wind_at_high_frequency." label="AltimeterRangeCorrectionDueToWetTroposphere" title="Altimeter Range Correction due to Wet Troposphere" uid="altimeter_range_correction_due_to_wet_troposphere" units="m"></item> 
    13582 <item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  &quot;Noy&quot; describes a family of chemical species. The family usually includes atomic nitrogen (N), nitrogen monoxide (NO), nitrogen dioxide (NO2), dinitrogen pentoxide (N2O5), nitric acid (HNO3), peroxynitric acid (HNO4), bromine nitrate (BrONO2) , chlorine nitrate (ClONO2) and organic nitrates (most notably peroxyacetyl nitrate, sometimes referred to as PAN, (CH3COO2NO2)). The list of individual species that are included in a quantity having a group chemical standard name can vary between models.  Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. The phrase 'expressed_as' is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A." label="AtmosphereMassContentOfNoyExpressedAsNitrogen" title="Atmosphere Mass Content of Noy Expressed As Nitrogen" uid="atmosphere_mass_content_of_noy_expressed_as_nitrogen" units="kg m-2"></item> 
    13583 <item description="Longitude is positive eastward; its units of degree_east (or equivalent) indicate this explicitly. In a latitude-longitude system defined with respect to a rotated North Pole, the standard name of grid_longitude should be used instead of longitude. Grid longitude is positive in the grid-eastward direction, but its units should be plain degree." label="GridLongitude" title="Grid Longitude" uid="grid_longitude" units="degree"></item> 
    13584 <item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for bromine nitrate is BrONO2." label="MassConcentrationOfBromineNitrateInAir" title="Mass Concentration of Bromine Nitrate in Air" uid="mass_concentration_of_bromine_nitrate_in_air" units="kg m-3"></item> 
    13585 <item description="" label="PseudoEquivalentTemperature" title="Pseudo Equivalent Temperature" uid="pseudo_equivalent_temperature" units="K"></item> 
    13586 <item description="The wind wave directional spectrum can be written as a  five dimensional function S(t,x,y,f,theta) where t is time, x and y are horizontal coordinates (such as longitude and latitude), f is frequency and theta is direction.  S can be integrated over direction to give S1= integral(S dtheta).  Frequency moments, M(n) of S1 can then be calculated as follows: M(n) = integral(S1 f^n df), where f^n is f to the power of n.  The inverse wave period, T(m-1), is calculated as the ratio M(-1)/M(0)." label="SeaSurfaceWindWaveMeanPeriodFromVarianceSpectralDensityInverseFrequencyMoment" title="Sea Surface Wind Wave Mean Period from Variance Spectral Density Inverse Frequency Moment" uid="sea_surface_wind_wave_mean_period_from_variance_spectral_density_inverse_frequency_moment" units="s"></item> 
    13587 <item description="alias::significant_height_of_swell_waves" label="SeaSurfaceSwellWaveSignificantHeight" title="Sea Surface Swell Wave Significant Height [alias]" uid="significant_height_of_swell_waves" units="m"></item> 
    13588 <item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol takes up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the aerosol. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time. The sum of turbulent deposition and gravitational settling is dry deposition. Chemically, 'elemental carbon' is the carbonaceous fraction of particulate matter that is thermally stable in an inert atmosphere to high temperatures near 4000K and can only be gasified by oxidation starting at temperatures above 340 C. It is assumed to be inert and non-volatile under atmospheric conditions and insoluble in any solvent (Ogren and Charlson, 1983)." label="TendencyOfAtmosphereMassContentOfElementalCarbonDryAerosolParticlesDueToGravitationalSettling" title="Tendency of Atmosphere Mass Content of Elemental Carbon Dry Aerosol Particles due to Gravitational Settling" uid="tendency_of_atmosphere_mass_content_of_elemental_carbon_dry_aerosol_particles_due_to_gravitational_settling" units="kg m-2 s-1"></item> 
     13626<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol takes up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the aerosol. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time. The sum of turbulent deposition and gravitational settling is dry deposition. Chemically, &quot;elemental carbon&quot; is the carbonaceous fraction of particulate matter that is thermally stable in an inert atmosphere to high temperatures near 4000K and can only be gasified by oxidation starting at temperatures above 340 C. It is assumed to be inert and non-volatile under atmospheric conditions and insoluble in any solvent (Ogren and Charlson, 1983)." label="TendencyOfAtmosphereMassContentOfElementalCarbonDryAerosolParticlesDueToGravitationalSettling" title="Tendency of Atmosphere Mass Content of Elemental Carbon Dry Aerosol Particles due to Gravitational Settling" uid="tendency_of_atmosphere_mass_content_of_elemental_carbon_dry_aerosol_particles_due_to_gravitational_settling" units="kg m-2 s-1"></item> 
    1358913627<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for toluene is C6H5CH3. Toluene has the same structure as benzene, except that one of the hydrogen atoms is replaced by a methyl group. The systematic name for toluene is methylbenzene. The &quot;agricultural waste burning&quot; sector comprises field burning of agricultural residues. &quot;Agricultural waste burning&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 4F as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfTolueneDueToEmissionFromAgriculturalWasteBurning" title="Tendency of Atmosphere Mass Content of Toluene due to Emission from Agricultural Waste Burning" uid="tendency_of_atmosphere_mass_content_of_toluene_due_to_emission_from_agricultural_waste_burning" units="kg m-2 s-1"></item> 
    1359013628<item description="&quot;Amount&quot; means mass per unit area. Zero change in land ice amount is an arbitrary level. &quot;Land ice&quot; means glaciers, ice-caps and ice-sheets resting on bedrock and also includes ice-shelves. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfChangeInLandIceAmount" title="Tendency of Change in Land Ice Amount" uid="tendency_of_change_in_land_ice_amount" units="kg m-2 s-1"></item> 
    13591 <item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Eastward&quot; indicates a vector component which is positive when directed eastward (negative westward). Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.)" label="TendencyOfEastwardWindDueToAdvection" title="Tendency of Eastward Wind due to Advection" uid="tendency_of_eastward_wind_due_to_advection" units="m s-2"></item> 
    1359213629<item description="The optical thickness is the integral along the path of radiation of a volume scattering/absorption/attenuation coefficient. The radiative flux is reduced by a factor exp(-optical_thickness) on traversing the path. A coordinate variable of radiation_wavelength or radiation_frequency can be specified to indicate that the optical thickness applies at specific wavelengths or frequencies. &quot;Absorption optical thickness&quot; means that part of the atmosphere optical thickness that is caused by the absorption of incident radiation. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. &quot;Ambient_aerosol&quot; means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. &quot;Ambient aerosol particles&quot; are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity and temperature at which the quantity described by the standard name applies, provide scalar coordinate variables with standard names of &quot;relative_humidity&quot; and &quot;air_temperature&quot;. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase." label="AtmosphereAbsorptionOpticalThicknessDueToParticulateOrganicMatterAmbientAerosolParticles" title="Atmosphere Absorption Optical Thickness due to Particulate Organic Matter Ambient Aerosol Particles" uid="atmosphere_absorption_optical_thickness_due_to_particulate_organic_matter_ambient_aerosol_particles" units="1"></item> 
    13593 <item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The term &quot;peroxy_radicals&quot; means all organic and inorganic peroxy radicals. This includes HO2 and all organic peroxy radicals, sometimes referred to as RO2. In chemistry, a 'radical' is a highly reactive, and therefore shortlived, species." label="AtmosphereMassContentOfPeroxyRadicals" title="Atmosphere Mass Content of Peroxy Radicals" uid="atmosphere_mass_content_of_peroxy_radicals" units="kg m-2"></item> 
    1359413630<item description="&quot;lwe&quot; means liquid water equivalent. &quot;Amount&quot; means mass per unit area. The construction lwe_thickness_of_X_amount or _content means the vertical extent of a layer of liquid water having the same mass per unit area. &quot;Water&quot; means water in all phases, including frozen i.e. ice and snow. &quot;Canopy&quot; means the plant or vegetation canopy. The canopy water is the water on the canopy." label="LweThicknessOfCanopyWaterAmount" title="Lwe Thickness of Canopy Water Amount" uid="lwe_thickness_of_canopy_water_amount" units="m"></item> 
    1359513631<item description="alias::mole_fraction_of_nitric_acid_trihydrate_ambient_aerosol_in_air" label="MoleFractionOfNitricAcidTrihydrateAmbientAerosolParticlesInAir" title="Mole Fraction of Nitric Acid Trihydrate Ambient Aerosol Particles in Air [alias]" uid="mole_fraction_of_nitric_acid_trihydrate_ambient_aerosol_in_air" units="1"></item> 
     
    1359813634<item description="&quot;Content&quot; indicates a quantity per unit area.  The specification of a physical process by the phrase due_to_process means that the quantity named is asingle term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Dissolved inorganic carbon&quot; describes a family of chemical species in solution, including carbon dioxide, carbonic acid and the carbonate and bicarbonate anions. &quot;Dissolved inorganic carbon&quot; is the term used in standard names for all species belonging to the family that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models.  Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute." label="TendencyOfOceanMoleContentOfDissolvedInorganicCarbonDueToBiologicalProcesses" title="Tendency of Ocean Mole Content of Dissolved Inorganic Carbon due to Biological Processes" uid="tendency_of_ocean_mole_content_of_dissolved_inorganic_carbon_due_to_biological_processes" units="mol m-2 s-1"></item> 
    1359913635<item description="&quot;Content&quot; indicates a quantity per unit area.  Potential energy is the sum of the gravitational potential energy relative to the geoid and the centripetal potential energy. (The geopotential is the specific potential energy.)  &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfOceanPotentialEnergyContent" title="Tendency of Ocean Potential Energy Content" uid="tendency_of_ocean_potential_energy_content" units="W m-2"></item> 
    13600 <item description="The quantity with standard name tracer_lifetime is the total length of time a passive tracer exists within a medium. Passive tracers are used in models to study processes such as transport and deposition." label="TracerLifetime" title="Tracer Lifetime" uid="tracer_lifetime" units="s"></item> 
    13601 <item description="Downwelling radiation is radiation from above. It does not mean &quot;net downward&quot;. &quot;Photosynthetic&quot; radiation is the part of the spectrum which is used in photosynthesis e.g. 400-700 nm. The range of wavelengths could be specified precisely by the bounds of a coordinate of radiation_wavelength. Spherical irradiance is the radiation incident on unit area of a hemispherical (or &quot;2-pi&quot;) collector. It is sometimes called &quot;scalar irradiance&quot;. The direction (up/downwelling) is specified. Radiation incident on a 4-pi collector has standard names of &quot;omnidirectional spherical irradiance&quot;." label="DownwellingPhotosyntheticSphericalIrradianceInSeaWater" title="Downwelling Photosynthetic Spherical Irradiance in Sea Water" uid="downwelling_photosynthetic_spherical_irradiance_in_sea_water" units="W m-2"></item> 
    13602 <item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, whereX is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical symbol for radon is Rn." label="MassFractionOfRadonInAir" title="Mass Fraction of Radon in Air" uid="mass_fraction_of_radon_in_air" units="1"></item> 
    13603 <item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  &quot;Mass_fraction_of_sulfate&quot; means that the mass is expressed as mass of SO4. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake." label="MassFractionOfSulfateDryAerosolParticlesInAir" title="Mass Fraction of Sulfate Dry Aerosol Particles in Air" uid="mass_fraction_of_sulfate_dry_aerosol_particles_in_air" units="1"></item> 
    13604 <item description="'Mole concentration' means number of moles per unit volume, also called&quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, whereX is a material constituent of Y.  A chemical or biological species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The phrase 'expressed_as' is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. Phytoplankton are autotrophic prokaryotic or eukaryotic algae that live near the water surface where there is sufficient light to support photosynthesis." label="MoleConcentrationOfPhytoplanktonExpressedAsIronInSeaWater" title="Mole Concentration of Phytoplankton Expressed As Iron in Sea Water" uid="mole_concentration_of_phytoplankton_expressed_as_iron_in_sea_water" units="mol m-3"></item> 
    13605 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;troposphere_moles_of_X&quot; means the total number of moles of X contained in the troposphere, i.e, summed over that part of the atmospheric column and over the entire globe.  The chemical formula of carbon monoxide is CO." label="TendencyOfTroposphereMolesOfCarbonMonoxide" title="Tendency of Troposphere Moles of Carbon Monoxide" uid="tendency_of_troposphere_moles_of_carbon_monoxide" units="mol s-1"></item> 
    13606 <item description="Speed is the magnitude of velocity. Flood water is water that covers land which is normally not covered by water." label="FloodWaterSpeed" title="Flood Water Speed" uid="flood_water_speed" units="m s-1"></item> 
    1360713636<item description="alias::moles_of_hcc140a_in_atmosphere" label="AtmosphereMolesOfHcc140A" title="Atmosphere Moles of Hcc140A [alias]" uid="moles_of_hcc140a_in_atmosphere" units="mol"></item> 
    13608 <item description="moles_of_X_per_unit_mass_inY is also called &quot;molality&quot; of X in Y, where X is a material constituent of Y." label="MolesOfNitratePerUnitMassInSeaWater" title="Moles of Nitrate Per Unit Mass in Sea Water" uid="moles_of_nitrate_per_unit_mass_in_sea_water" units="mol kg-1"></item> 
    13609 <item description="Thermal capacity, or heat capacity, is the amount of heat energy required to increase the temperature of 1 kg of material by 1 K. It is a property of the material." label="SoilThermalCapacity" title="Soil Thermal Capacity" uid="soil_thermal_capacity" units="J kg-1 K-1"></item> 
    13610 <item description="The geoid is a surface of constant geopotential with which mean sea level would coincide if the ocean were at rest. (The volume enclosed between the geoid and the sea floor equals the mean volume of water in the ocean.) In an ocean GCM the geoid is the surface of zero depth, or the rigid lid if the model uses that approximation.  &quot;Sea surface height&quot; is a time-varying quantity.  &quot;square_of_X&quot; means X*X." label="SquareOfSeaSurfaceHeightAboveGeoid" title="Square of Sea Surface Height Above Geoid" uid="square_of_sea_surface_height_above_geoid" units="m2"></item> 
    13611 <item description="In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics.  Stratiform precipitation, whether liquid or frozen, is precipitation that formed in stratiform cloud." label="StratiformSnowfallFlux" title="Stratiform Snowfall Flux" uid="stratiform_snowfall_flux" units="kg m-2 s-1"></item> 
    1361213637<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for benzene is C6H6. Benzene is the simplest aromatic hydrocarbon and has a ring structure consisting of six carbon atoms joined by alternating single and double chemical bonds. Each carbon atom is additionally bonded to one hydrogen atom. There are standard names that refer to aromatic_compounds as a group, as well as those for individual species. The &quot;agricultural production&quot; sector comprises the agricultural processes of enteric fermentation, manure management, rice cultivation, agricultural soils and other. It may also include any not-classified or &quot;other&quot; combustion, which is commonly included in agriculture-related inventory data. &quot;Agricultural production&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 4A, 4B, 4C, 4D and 4G as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfBenzeneDueToEmissionFromAgriculturalProduction" title="Tendency of Atmosphere Mass Content of Benzene due to Emission from Agricultural Production" uid="tendency_of_atmosphere_mass_content_of_benzene_due_to_emission_from_agricultural_production" units="kg m-2 s-1"></item> 
    1361313638<item description="&quot;toa&quot; means top of atmosphere.  &quot;Longwave&quot; means longwave radiation.  Cloud radiative effect is also commonly known as &quot;cloud radiative forcing&quot;.  It is the difference in radiative flux resulting from the presence of clouds, i.e. it is the difference between toa_outgoing_longwave_flux_assuming_clear_sky and toa_outgoing_longwave_flux." label="ToaLongwaveCloudRadiativeEffect" title="Toa Longwave Cloud Radiative Effect" uid="toa_longwave_cloud_radiative_effect" units="W m-2"></item> 
    13614 <item description="alias::atmosphere_mass_content_of_nitrate_dry_aerosol" label="AtmosphereMassContentOfNitrateDryAerosolParticles" title="Atmosphere Mass Content of Nitrate Dry Aerosol Particles [alias]" uid="atmosphere_mass_content_of_nitrate_dry_aerosol" units="kg m-2"></item> 
    13615 <item description="The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. &quot;nmvoc&quot; means non methane volatile organic compounds; &quot;nmvoc&quot; is the term used in standard names to describe the group of chemical species having this classification that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. &quot;Biogenic&quot; means influenced, caused, or created by natural processes. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A." label="AtmosphereMolesOfBiogenicNmvocExpressedAsCarbon" title="Atmosphere Moles of Biogenic Nmvoc Expressed As Carbon" uid="atmosphere_moles_of_biogenic_nmvoc_expressed_as_carbon" units="mol"></item> 
    1361613639<item description="alias::atmosphere_sulfate_content" label="AtmosphereMassContentOfSulfate" title="Atmosphere Mass Content of Sulfate [alias]" uid="atmosphere_sulfate_content" units="kg m-2"></item> 
    13617 <item description="alias::concentration_of_suspended_matter_in_sea_water" label="MassConcentrationOfSuspendedMatterInSeaWater" title="Mass Concentration of Suspended Matter in Sea Water [alias]" uid="concentration_of_suspended_matter_in_sea_water" units="kg m-3"></item> 
    13618 <item description="&quot;Amount&quot; means mass per unit area." label="ConvectiveRainfallAmount" title="Convective Rainfall Amount" uid="convective_rainfall_amount" units="kg m-2"></item> 
    1361913640<item description="The &quot;effective cloud top defined by infrared radiation&quot; is (approximately) the geometric height above the surface that is one optical depth at infrared wavelengths (in the region of 11 micrometers) below the cloud top that would be detected by visible and lidar techniques. Reference: Minnis, P. et al 2011 CERES Edition-2 Cloud Property Retrievals Using TRMM VIRS and Terra and Aqua MODIS Data x2014; Part I: Algorithms IEEE Transactions on Geoscience and Remote Sensing, 49(11), 4374-4400. doi: http://dx.doi.org/10.1109/TGRS.2011.2144601." label="HeightAtEffectiveCloudTopDefinedByInfraredRadiation" title="Height At Effective Cloud Top Defined by Infrared Radiation" uid="height_at_effective_cloud_top_defined_by_infrared_radiation" units="m"></item> 
    1362013641<item description="&quot;X_area&quot; means the horizontal area occupied by X within the grid cell." label="LeafAreaIndex" title="Leaf Area Index" uid="leaf_area_index" units="1"></item> 
    1362113642<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. Chlorophylls are the green pigments found in most plants, algae and cyanobacteria; their presence is essential for photosynthesis to take place. There are several different forms of chlorophyll that occur naturally. All contain a chlorin ring (chemical formula C20H16N4) which gives the green pigment and a side chain whose structure varies. The naturally occurring forms of chlorophyll contain between 35 and 55 carbon atoms. 'Miscellaneous phytoplankton' are all those phytoplankton that are not diatoms, diazotrophs, calcareous phytoplankton, picophytoplankton or other seperately named components of the phytoplankton population. Phytoplankton are autotrophic prokaryotic or eukaryotic algae that live near the water surface where there is sufficient light to support photosynthesis." label="MassConcentrationOfMiscellaneousPhytoplanktonExpressedAsChlorophyllInSeaWater" title="Mass Concentration of Miscellaneous Phytoplankton Expressed As Chlorophyll in Sea Water" uid="mass_concentration_of_miscellaneous_phytoplankton_expressed_as_chlorophyll_in_sea_water" units="kg m-3"></item> 
    13622 <item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, whereX is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for HCFC141b is CH3CCl2F. The IUPAC name for HCFC141b is 1,1-dichloro-1-fluoroethane." label="MassFractionOfHcfc141BInAir" title="Mass Fraction of Hcfc141B in Air" uid="mass_fraction_of_hcfc141b_in_air" units="1"></item> 
    1362313643<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for molecular hydrogen is H2." label="TendencyOfAtmosphereMassContentOfMolecularHydrogenDueToEmission" title="Tendency of Atmosphere Mass Content of Molecular Hydrogen due to Emission" uid="tendency_of_atmosphere_mass_content_of_molecular_hydrogen_due_to_emission" units="kg m-2 s-1"></item> 
    1362413644<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for nitrogen monoxide is NO. The &quot;residential and commercial combustion&quot; sector comprises fuel combustion activities related to the commercial/institutional sector, the residential sector and the agriculture/forestry/fishing sector. It may also include any not-classified or &quot;other&quot; combustion, which is commonly included in the inventory data. &quot;Residential and commercial combustion&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 1A4a, 1A4b and 1A4c as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfNitrogenMonoxideDueToEmissionFromResidentialAndCommercialCombustion" title="Tendency of Atmosphere Mass Content of Nitrogen Monoxide due to Emission from Residential And Commercial Combustion" uid="tendency_of_atmosphere_mass_content_of_nitrogen_monoxide_due_to_emission_from_residential_and_commercial_combustion" units="kg m-2 s-1"></item> 
    1362513645<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for nitrogen monoxide is NO." label="TendencyOfAtmosphereMolesOfNitrogenMonoxide" title="Tendency of Atmosphere Moles of Nitrogen Monoxide" uid="tendency_of_atmosphere_moles_of_nitrogen_monoxide" units="mol s-1"></item> 
    13626 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. &quot;Noy&quot; describes a family of chemical species. The family usually includes atomic nitrogen (N), nitrogen monoxide (NO), nitrogen dioxide (NO2), dinitrogen pentoxide (N2O5), nitric acid (HNO3), peroxynitric acid (HNO4), bromine nitrate (BrONO2) , chlorine nitrate (ClONO2) and organic nitrates (most notably peroxyacetyl nitrate, sometimes referred to as PAN, (CH3COO2NO2)). The list of individual species that are included in a quantity having a group chemical standard name can vary between models.  Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. The phrase 'expressed_as' is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A." label="TendencyOfAtmosphereMolesOfNoyExpressedAsNitrogen" title="Tendency of Atmosphere Moles of Noy Expressed As Nitrogen" uid="tendency_of_atmosphere_moles_of_noy_expressed_as_nitrogen" units="mol s-1"></item> 
    1362713646<item description="'Mole concentration' means number of moles per unit volume, also called&quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, whereX is a material constituent of Y.  A chemical or biological species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Inorganic nitrogen&quot; describes a family of chemical species which, in an ocean model, usually includes nitrite, nitrate and ammonium which act as nitrogennutrients. &quot;Inorganic nitrogen&quot; is the term used in standard names for all species belonging to the family that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models.  Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute." label="TendencyOfMoleConcentrationOfDissolvedInorganicNitrogenInSeaWaterDueToBiologicalProcesses" title="Tendency of Mole Concentration of Dissolved Inorganic Nitrogen in Sea Water due to Biological Processes" uid="tendency_of_mole_concentration_of_dissolved_inorganic_nitrogen_in_sea_water_due_to_biological_processes" units="mol m-3 s-1"></item> 
    13628 <item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, whereX is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for peroxynitric acid, sometimes referred to as PNA, is HO2NO2." label="MassFractionOfPeroxynitricAcidInAir" title="Mass Fraction of Peroxynitric Acid in Air" uid="mass_fraction_of_peroxynitric_acid_in_air" units="1"></item> 
    13629 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area.  &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface).  &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names." label="TendencyOfAtmosphereMassContentOfAlphaHexachlorocyclohexaneDueToEmission" title="Tendency of Atmosphere Mass Content of Alpha Hexachlorocyclohexane due to Emission" uid="tendency_of_atmosphere_mass_content_of_alpha_hexachlorocyclohexane_due_to_emission" units="kg m-2 s-1"></item> 
    1363013647<item description="The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for hcc140a is CH3CCl3. The IUPAC name for hcc140a is 1,1,1-trichloro-ethane." label="AtmosphereMolesOfHcc140A" title="Atmosphere Moles of Hcc140A" uid="atmosphere_moles_of_hcc140a" units="mol"></item> 
    13631 <item description="&quot;change_over_time_in_X&quot; means change in a quantity X over a time-interval, which should be defined by the bounds of the time coordinate. Conservative Temperature is defined as part of the Thermodynamic Equation of Seawater 2010 (TEOS-10) which was adopted in 2010 by the International Oceanographic Commission (IOC). Conservative Temperature is specific potential enthalpy (which has the standard name sea_water_specific_potential_enthalpy) divided by a fixed value of the specific heat capacity of sea water, namely cp_0 = 3991.86795711963 J kg-1 K-1. Conservative Temperature is a more accurate measure of the &quot;heat content&quot; of sea water, by a factor of one hundred, than is potential temperature. Because of this, it can be regarded as being proportional to the heat content of sea water per unit mass. Reference: www.teos-10.org; McDougall, 2003 doi: 10.1175/1520-0485(2003)033&lt;0945:PEACOV>2.0.CO;2. " label="ChangeOverTimeInSeaWaterConservativeTemperature" title="Change Over Time in Sea Water Conservative Temperature" uid="change_over_time_in_sea_water_conservative_temperature" units="K"></item> 
    13632 <item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for beta_pinene is C10H16.  The IUPAC name for beta-pinene is (1S,5S)-6,6-dimethyl-2-methylenebicyclo[3.1.1]heptane." label="MassConcentrationOfBetaPineneInAir" title="Mass Concentration of Beta Pinene in Air" uid="mass_concentration_of_beta_pinene_in_air" units="kg m-3"></item> 
    13633 <item description="Mole concentration' means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where Xis a material constituent of Y.  A chemical or biological species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The phrase 'expressed_as' is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. Microzooplankton are zooplankton of less than 20 micrometers in size." label="MoleConcentrationOfMicrozooplanktonExpressedAsCarbonInSeaWater" title="Mole Concentration of Microzooplankton Expressed As Carbon in Sea Water" uid="mole_concentration_of_microzooplankton_expressed_as_carbon_in_sea_water" units="mol m-3"></item> 
    1363413648<item description="Mole fraction is used in the construction mole_fraction_of_X_in_Y, whereX is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemicalformula for HCFC22 is CHClF2.  The IUPAC name for HCFC22 is chloro-difluoro-methane." label="MoleFractionOfHcfc22InAir" title="Mole Fraction of Hcfc22 in Air" uid="mole_fraction_of_hcfc22_in_air" units="1"></item> 
    13635 <item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm2p5 aerosol&quot; is an air pollutant with an aerodynamic diameter of less than or equal to 2.5 micrometers. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfAtmosphereMassContentOfPm2P5DryAerosolParticlesDueToEmission" title="Tendency of Atmosphere Mass Content of Pm2P5 Dry Aerosol Particles due to Emission" uid="tendency_of_atmosphere_mass_content_of_pm2p5_dry_aerosol_particles_due_to_emission" units="kg m-2 s-1"></item> 
     13649<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm2p5 aerosol&quot; means atmospheric particulate compounds with an aerodynamic diameter of less than or equal to 2.5 micrometers. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfAtmosphereMassContentOfPm2P5DryAerosolParticlesDueToEmission" title="Tendency of Atmosphere Mass Content of Pm2P5 Dry Aerosol Particles due to Emission" uid="tendency_of_atmosphere_mass_content_of_pm2p5_dry_aerosol_particles_due_to_emission" units="kg m-2 s-1"></item> 
    1363613650<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for bromine chloride is BrCl." label="TendencyOfAtmosphereMolesOfBromineChloride" title="Tendency of Atmosphere Moles of Bromine Chloride" uid="tendency_of_atmosphere_moles_of_bromine_chloride" units="mol s-1"></item> 
    1363713651<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y. A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;Nox&quot; means a combination of two radical species containing nitrogen and oxygen: NO+NO2. The phrase 'expressed_as' is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. The &quot;aviation&quot; sector includes fuel combustion activities related to civil aviation. &quot;Aviation&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 1A3a as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfMassConcentrationOfNoxExpressedAsNitrogenMonoxideInAirDueToEmissionFromAviation" title="Tendency of Mass Concentration of Nox Expressed As Nitrogen Monoxide in Air due to Emission from Aviation" uid="tendency_of_mass_concentration_of_nox_expressed_as_nitrogen_monoxide_in_air_due_to_emission_from_aviation" units="kg m-3 s-1"></item> 
    1363813652<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction &quot;mole_concentration_of_X_in_Y&quot;, where X is a material constituent of Y. A chemical or biological species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase. &quot;Production of carbon&quot; means the production of biomass expressed as the mass of carbon which it contains. Net primary production is the excess of gross primary production (the rate of synthesis of biomass from inorganic precursors) by autotrophs (&quot;producers&quot;), for example,  photosynthesis in plants or phytoplankton, over the rate at which the autotrophs themselves respire some of this biomass. In the oceans, carbon production per unit volume is often found at a number of depths at a given horizontal location. That quantity can then be integrated to calculate production per unit area at the location. Standard names for production per unit area use the term &quot;productivity&quot;. Diatoms are single-celled phytoplankton with an external skeleton made of silica. Phytoplankton are autotrophic prokaryotic or eukaryotic algae that live near the water surface where there is sufficient light to support photosynthesis. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfMoleConcentrationOfParticulateOrganicMatterExpressedAsCarbonInSeaWaterDueToNetPrimaryProductionByDiatoms" title="Tendency of Mole Concentration of Particulate Organic Matter Expressed As Carbon in Sea Water due to Net Primary Production by Diatoms" uid="tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_diatoms" units="mol m-3 s-1"></item> 
    1363913653<item description="&quot;toa&quot; means top of atmosphere.  &quot;Shortwave&quot; means shortwave radiation.  Cloud radiative effect is also commonly known as &quot;cloud radiative forcing&quot;.  It is the difference in radiative flux resulting from the presence of clouds, i.e.  the difference between toa_net_downward_shortwave_flux and toa_net_downward_shortwave_flux_assuming_clear_sky." label="ToaShortwaveCloudRadiativeEffect" title="Toa Shortwave Cloud Radiative Effect" uid="toa_shortwave_cloud_radiative_effect" units="W m-2"></item> 
    13640 <item description="&quot;Photolysis&quot; is a chemical reaction in which a chemical compound is broken down by photons. The &quot;reaction rate&quot; is the rate at which the reactants of a chemical reaction form the products. The chemical formula for ozone is O3. The IUPAC name for ozone is trioxygen. &quot;1D oxygen atom&quot; means the singlet D state, an excited state, of the oxygen atom." label="PhotolysisRateOfOzoneTo1DOxygenAtom" title="Photolysis Rate of Ozone to 1D Oxygen Atom" uid="photolysis_rate_of_ozone_to_1D_oxygen_atom" units="s-1"></item> 
    13641 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;nmvoc&quot; means non methane volatile organic compounds; &quot;nmvoc&quot; is the term used in standard names to describe the group of chemical species having this classification that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. The &quot;agricultural production&quot; sector comprises the agricultural processes of enteric fermentation, manure management, rice cultivation, agricultural soils and other. It may also include any not-classified or &quot;other&quot; combustion, which is commonly included in agriculture-related inventory data. &quot;Agricultural production&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 4A, 4B, 4C, 4D and 4G as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfNmvocDueToEmissionFromAgriculturalProduction" title="Tendency of Atmosphere Mass Content of Nmvoc due to Emission from Agricultural Production" uid="tendency_of_atmosphere_mass_content_of_nmvoc_due_to_emission_from_agricultural_production" units="kg m-2 s-1"></item> 
    13642 <item description="alias::tendency_of_moles_of_methyl_chloride_in_troposphere" label="TendencyOfTroposphereMolesOfMethylChloride" title="Tendency of Troposphere Moles of Methyl Chloride [alias]" uid="tendency_of_moles_of_methyl_chloride_in_troposphere" units="mol s-1"></item> 
    13643 <item description="&quot;Content&quot; indicates a quantity per unit area. &quot;Vegetation&quot; means any plants e.g. trees, shrubs, grass." label="VegetationCarbonContent" title="Vegetation Carbon Content" uid="vegetation_carbon_content" units="kg m-2"></item> 
    1364413654<item description="The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for ethene is C2H4. Ethene is a member of the group of hydrocarbons known as alkenes.  There are standard names for the alkene group as well as for some of the individual species." label="AtmosphereMolesOfEthene" title="Atmosphere Moles of Ethene" uid="atmosphere_moles_of_ethene" units="mol"></item> 
    1364513655<item description="&quot;Northward&quot; indicates a vector component which is positive when directed northward (negative southward). &quot;Downward&quot; indicates a vector component which is positive when directed downward (negative upward). &quot;Downward northward&quot; indicates the ZY component of a tensor. A downward northward stress is a downward flux of northward momentum, which accelerates the lower medium northward and the upper medium southward." label="DownwardNorthwardStressAtSeaIceBase" title="Downward Northward Stress At Sea Ice Base" uid="downward_northward_stress_at_sea_ice_base" units="Pa"></item> 
     
    1364813658<item description="Mole fraction is used in the construction &quot;mole_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. The chemical formula for acetaldehyde is CH3CHO. The IUPAC name for acetaldehyde is ethanal." label="MoleFractionOfAcetaldehydeInAir" title="Mole Fraction of Acetaldehyde in Air" uid="mole_fraction_of_acetaldehyde_in_air" units="1"></item> 
    1364913659<item description="Mole fraction is used in the construction mole_fraction_of_X_in_Y, where X is a material constituent of Y.  The chemical formula of CFC115 is CClF2CF3.  The IUPAC name for CFC115 is 1-chloro-1,1,2,2,2-pentafluoro-ethane." label="MoleFractionOfCfc115InAir" title="Mole Fraction of Cfc115 in Air" uid="mole_fraction_of_cfc115_in_air" units="1"></item> 
    13650 <item description="alias::moles_of_molecular_hydrogen_in_atmosphere" label="AtmosphereMolesOfMolecularHydrogen" title="Atmosphere Moles of Molecular Hydrogen [alias]" uid="moles_of_molecular_hydrogen_in_atmosphere" units="mol"></item> 
    1365113660<item description="The phrase &quot;to_direction&quot; is used in the construction X_to_direction and indicates the direction towards which the velocity vector of X is headed. The direction is a bearing in the usual geographical sense, measured positive clockwise from due north." label="SeaSurfaceWaveToDirection" title="Sea Surface Wave to Direction" uid="sea_surface_wave_to_direction" units="degree"></item> 
    13652 <item description="&quot;Content&quot; indicates a quantity per unit area. &quot;Layer&quot; means any layer with upper and lower boundaries that have constant values in some vertical coordinate. There must be a vertical coordinate variable indicating the extent of the layer(s). If the layers are model layers, the vertical coordinate can be model_level_number, but it is recommended to specify a physical coordinate (in a scalar or auxiliary coordinate variable) as well." label="KineticEnergyContentOfAtmosphereLayer" title="Kinetic Energy Content of Atmosphere Layer" uid="kinetic_energy_content_of_atmosphere_layer" units="J m-2"></item> 
    13653 <item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, whereX is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for hexachlorobiphenyl is C12H4Cl6.  This structure of this species consists of two linked benzene rings,each of which is additionally bonded to three chlorine atoms." label="MassFractionOfHexachlorobiphenylInAir" title="Mass Fraction of Hexachlorobiphenyl in Air" uid="mass_fraction_of_hexachlorobiphenyl_in_air" units="1"></item> 
    13654 <item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for chlorine nitrate is ClONO2." label="MoleConcentrationOfChlorineNitrateInAir" title="Mole Concentration of Chlorine Nitrate in Air" uid="mole_concentration_of_chlorine_nitrate_in_air" units="mol m-3"></item> 
    13655 <item description="Sea_water_mass_per_unit_area is the mass per unit area of the sea water contained within each grid cell." label="SeaWaterMassPerUnitArea" title="Sea Water Mass Per Unit Area" uid="sea_water_mass_per_unit_area" units="kg m-2"></item> 
     13661<item description="The phrase &quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The phrase &quot;expressed_as_heat_content&quot; means that this quantity is calculated as the specific heat capacity times density of sea water multiplied by the potential temperature of the sea water in the grid cell. Potential temperature is the temperature a parcel of air or sea water would have if moved adiabatically to sea level pressure. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. Parameterized eddy advection in an ocean model means the part due to a scheme representing parameterized eddy-induced advective effects not included in the resolved model velocity field. Parameterized mesoscale eddy advection occurs on a spatial scale of many tens of kilometres and an evolutionary time of weeks. Reference: James C. McWilliams 2016, Submesoscale currents in the ocean, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, volume 472, issue 2189. DOI: 10.1098/rspa.2016.0117. Parameterized mesoscale eddy advection is represented in ocean models using schemes such as the Gent-McWilliams scheme. There are also standard names for parameterized_submesoscale_eddy_advection which, along with parameterized_mesoscale_eddy_advection, contributes to the total parameterized eddy advection. Additionally, when the parameterized advective process is represented in the model as a skew-diffusion rather than an advection, then the parameterized skew diffusion should be included in this diagnostic. The convergence of a skew-flux is identical (in the continuous formulation) to the convergence of an advective flux, making their tendencies the same." label="TendencyOfSeaWaterPotentialTemperatureExpressedAsHeatContentDueToParameterizedMesoscaleEddyAdvection" title="Tendency of Sea Water Potential Temperature Expressed As Heat Content due to Parameterized Mesoscale Eddy Advection" uid="tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_eddy_advection" units="W m-2"></item> 
    1365613662<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Content&quot; indicates a quantity per unit area.  &quot;Divalent mercury&quot; means all compounds in which the mercury has two binding sites to other ion(s) in a salt or to other atom(s) in a molecule.  &quot;Wet deposition&quot; means deposition by precipitation." label="TendencyOfAtmosphereMassContentOfGaseousDivalentMercuryDueToWetDeposition" title="Tendency of Atmosphere Mass Content of Gaseous Divalent Mercury due to Wet Deposition" uid="tendency_of_atmosphere_mass_content_of_gaseous_divalent_mercury_due_to_wet_deposition" units="kg m-2 s-1"></item> 
    13657 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for dichlorine peroxide is Cl2O2." label="TendencyOfAtmosphereMolesOfDichlorinePeroxide" title="Tendency of Atmosphere Moles of Dichlorine Peroxide" uid="tendency_of_atmosphere_moles_of_dichlorine_peroxide" units="mol s-1"></item> 
    1365813663<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical symbol for radon is Rn." label="TendencyOfAtmosphereMolesOfRadon" title="Tendency of Atmosphere Moles of Radon" uid="tendency_of_atmosphere_moles_of_radon" units="mol s-1"></item> 
    13659 <item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where Xis a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. Organic carbon describes a family of chemical species and is the term used in standard names for all species belonging to the family that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models.  Where possible, the data variable should be accompanied by a completedescription of the species represented, for example, by using a comment attribute." label="MoleConcentrationOfDissolvedOrganicCarbonInSeaWater" title="Mole Concentration of Dissolved Organic Carbon in Sea Water" uid="mole_concentration_of_dissolved_organic_carbon_in_sea_water" units="mol m-3"></item> 
    13660 <item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The chemical formula for hexachlorobiphenyl is C12H4Cl6.  This structure of this species consists of two linked benzene rings, each of which is additionally bonded to three chlorine atoms." label="AtmosphereMassContentOfHexachlorobiphenyl" title="Atmosphere Mass Content of Hexachlorobiphenyl" uid="atmosphere_mass_content_of_hexachlorobiphenyl" units="kg m-2"></item> 
    1366113664<item description="The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for carbon dioxide is CO2." label="AtmosphereMolesOfCarbonDioxide" title="Atmosphere Moles of Carbon Dioxide" uid="atmosphere_moles_of_carbon_dioxide" units="mol"></item> 
    1366213665<item description="&quot;X_area_fraction&quot; means the fraction of horizontal area occupied by X. &quot;X_area&quot; means the horizontal area occupied by X within the grid cell. The clear_sky area fraction is for the whole atmosphere column, as seen from the surface or the top of the atmosphere." label="ClearSkyAreaFraction" title="Clear Sky Area Fraction" uid="clear_sky_area_fraction" units="1"></item> 
    1366313666<item description="&quot;Amount&quot; means mass per unit area." label="ConvectiveSnowfallAmount" title="Convective Snowfall Amount" uid="convective_snowfall_amount" units="kg m-2"></item> 
    1366413667<item description="alias::mass_fraction_of_black_carbon_dry_aerosol_in_air" label="MassFractionOfElementalCarbonDryAerosolParticlesInAir" title="Mass Fraction of Elemental Carbon Dry Aerosol Particles in Air [alias]" uid="mass_fraction_of_black_carbon_dry_aerosol_in_air" units="1"></item> 
    13665 <item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, whereX is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for hypobromous acid is HOBr." label="MassFractionOfHypobromousAcidInAir" title="Mass Fraction of Hypobromous Acid in Air" uid="mass_fraction_of_hypobromous_acid_in_air" units="1"></item> 
    13666 <item description="Mass fraction is used in the construction &quot;mass_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Pm10 aerosol&quot; is an air pollutant with an aerodynamic diameter of less than or equal to 10 micrometers. The term &quot;particulate_organic_matter_dry_aerosol&quot; means all particulate organic matter dry aerosol except elemental carbon. It is the sum of primary_particulate_organic_matter_dry_aerosol and secondary_particulate_organic_matter_dry_aerosol." label="MassFractionOfPm10ParticulateOrganicMatterDryAerosolParticlesInAir" title="Mass Fraction of Pm10 Particulate Organic Matter Dry Aerosol Particles in Air" uid="mass_fraction_of_pm10_particulate_organic_matter_dry_aerosol_particles_in_air" units="1"></item> 
    13667 <item description="alias::moles_of_cfc11_in_atmosphere" label="AtmosphereMolesOfCfc11" title="Atmosphere Moles of Cfc11 [alias]" uid="moles_of_cfc11_in_atmosphere" units="mol"></item> 
    13668 <item description="&quot;wrt&quot; means with respect to. Speed is the magnitude of velocity. Standard names for platform describe the motion and orientation of the vehicle from which observations are made e.g. aeroplane, ship or satellite. The platform speed with respect to air is often called the &quot;air speed&quot; of the platform." label="PlatformSpeedWrtAir" title="Platform Speed Wrt Air" uid="platform_speed_wrt_air" units="m s-1"></item> 
    1366913668<item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere." label="SurfaceDragCoefficientForMomentumInAir" title="Surface Drag Coefficient For Momentum in Air" uid="surface_drag_coefficient_for_momentum_in_air" units="1"></item> 
    13670 <item description="alias::tendency_of_moles_of_carbon_monoxide_in_middle_atmosphere" label="TendencyOfMiddleAtmosphereMolesOfCarbonMonoxide" title="Tendency of Middle Atmosphere Moles of Carbon Monoxide [alias]" uid="tendency_of_moles_of_carbon_monoxide_in_middle_atmosphere" units="mol s-1"></item> 
    13671 <item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Water&quot; means water in all phases, including frozen i.e. ice and snow. Upwelling radiation is radiation from below. It does not mean &quot;net upward&quot;. When thought of as being incident on a surface, a radiative flux is sometimes called &quot;irradiance&quot;. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called &quot;vector irradiance&quot;. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics. A coordinate variable for radiation wavelength should be given the standard name radiation_wavelength." label="SurfaceUpwellingRadiativeFluxPerUnitWavelengthInSeaWater" title="Surface Upwelling Radiative Flux Per Unit Wavelength in Sea Water" uid="surface_upwelling_radiative_flux_per_unit_wavelength_in_sea_water" units="W m-2 m-1"></item> 
    13672 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Content&quot; indicates a quantity per unit area.  &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface).  &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names." label="TendencyOfAtmosphereMassContentOfAmmoniaDueToEmission" title="Tendency of Atmosphere Mass Content of Ammonia due to Emission" uid="tendency_of_atmosphere_mass_content_of_ammonia_due_to_emission" units="kg m-2 s-1"></item> 
    1367313669<item description="The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for CFC12 is CF2Cl2.  The IUPAC name for CFC12 is dichloro-difluoro-methane." label="AtmosphereMolesOfCfc12" title="Atmosphere Moles of Cfc12" uid="atmosphere_moles_of_cfc12" units="mol"></item> 
    1367413670<item description="alias::lwe_thickness_of_atmosphere_water_vapor_content" label="LweThicknessOfAtmosphereMassContentOfWaterVapor" title="Lwe Thickness of Atmosphere Mass Content of Water Vapor [alias]" uid="lwe_thickness_of_atmosphere_water_vapor_content" units="m"></item> 
    13675 <item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y. A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol takes up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the aerosol. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;Primary particulate organic matter &quot; means all organic matter emitted directly to the atmosphere as particles except elemental carbon. The sum of primary_particulate_organic_matter_dry_aerosol and secondary_particulate_organic_matter_dry_aerosol is particulate_organic_matter_dry_aerosol." label="MassConcentrationOfPrimaryParticulateOrganicMatterDryAerosolParticlesInAir" title="Mass Concentration of Primary Particulate Organic Matter Dry Aerosol Particles in Air" uid="mass_concentration_of_primary_particulate_organic_matter_dry_aerosol_particles_in_air" units="kg m-3"></item> 
    13676 <item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. A phrase assuming_condition indicates that the named quantity is the value which would obtain if all aspects of the system were unaltered except for the assumption of the circumstances specified by the condition. &quot;longwave&quot; means longwave radiation. Downwelling radiation is radiation from above. It does not mean &quot;net downward&quot;. When thought of as being incident on a surface, a radiative flux is sometimes called &quot;irradiance&quot;. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called &quot;vector irradiance&quot;. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="SurfaceDownwellingLongwaveFluxInAirAssumingClearSky" title="Surface Downwelling Longwave Flux in Air Assuming Clear Sky" uid="surface_downwelling_longwave_flux_in_air_assuming_clear_sky" units="W m-2"></item> 
    1367713671<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for sulfur dioxide is SO2." label="TendencyOfAtmosphereMolesOfSulfurDioxide" title="Tendency of Atmosphere Moles of Sulfur Dioxide" uid="tendency_of_atmosphere_moles_of_sulfur_dioxide" units="mol s-1"></item> 
    13678 <item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Eastward&quot; indicates a vector component which is positive when directed eastward (negative westward).  &quot;Eliassen Palm flux&quot; is a widely used vector in the meridional plane, and the divergence of this flux appears as a forcing in the Transformed Eulerian mean formulation of the zonal mean zonal wind equation.  Thus, &quot;eastward_wind&quot; here will generally be the zonally averaged eastward wind." label="TendencyOfEastwardWindDueToEliassenPalmFluxDivergence" title="Tendency of Eastward Wind due to Eliassen Palm Flux Divergence" uid="tendency_of_eastward_wind_due_to_eliassen_palm_flux_divergence" units="m s-2"></item> 
    1367913672<item description="The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula of CFC11 is CFCl3. The IUPAC name fof CFC11 is trichloro-fluoro-methane." label="AtmosphereMolesOfCfc11" title="Atmosphere Moles of Cfc11" uid="atmosphere_moles_of_cfc11" units="mol"></item> 
    13680 <item description="The atmosphere_stability_total_totals_index indicates the likelihood of severe convection and is often referred to as simply the total totals index. The index is derived from the difference in air temperature between 850 and 500 hPa (the vertical totals) and the difference between the dew point temperature at 850 hPa and the air temperature at 500 hPa (the cross totals). The vertical totals and cross totals are summed to obtain the index." label="AtmosphereStabilityTotalTotalsIndex" title="Atmosphere Stability Total Totals Index" uid="atmosphere_stability_total_totals_index" units="K"></item> 
    1368113673<item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. In chemistry, a 'radical' is a highly reactive, and therefore shortlived, species." label="MassConcentrationOfNitrateRadicalInAir" title="Mass Concentration of Nitrate Radical in Air" uid="mass_concentration_of_nitrate_radical_in_air" units="kg m-3"></item> 
    1368213674<item description="The scattering angle is that between the direction of the beam of incident radiation and the direction into which it is scattered." label="ScatteringAngle" title="Scattering Angle" uid="scattering_angle" units="rad"></item> 
    1368313675<item description="&quot;x&quot; indicates a vector component along the grid x-axis, positive with increasing x. &quot;Displacement&quot; means the change in geospatial position of an object that has moved over time. If possible, the time interval over which the motion took place should be specified using a bounds variable for the time coordinate variable.  A displacement can be represented as a vector. Such a vector should however not be interpreted as describing a rectilinear, constant speed motion but merely as an indication that the start point of the vector is found at the tip of the vector after the time interval associated with the displacement variable.  A displacement does not prescribe a trajectory. Sea ice displacement can be defined as a two-dimensional vector, with no vertical component. An x displacement is calculated from the difference in the moving object's grid x coordinate between the start and end of the time interval associated with the displacement variable." label="SeaIceXDisplacement" title="Sea Ice X Displacement" uid="sea_ice_x_displacement" units="m"></item> 
    13684 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol takes up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the aerosol. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. &quot;particulate_organic_matter_dry_aerosol&quot; means all particulate organic matter dry aerosol except elemental carbon. It is the sum of primary_particulate_organic_matter_dry_aerosol and secondary_particulate_organic_matter_dry_aerosol. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The &quot;land transport&quot; sector includes fuel combustion activities related to road transportation, railways and other transportation. &quot;Land transport&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 1A3b, 1A3c and 1A3e as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfParticulateOrganicMatterDryAerosolParticlesExpressedAsCarbonDueToEmissionFromLandTransport" title="Tendency of Atmosphere Mass Content of Particulate Organic Matter Dry Aerosol Particles Expressed As Carbon due to Emission from Land Transport" uid="tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_particles_expressed_as_carbon_due_to_emission_from_land_transport" units="kg m-2 s-1"></item> 
    13685 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for pentane is C5H12. Pentane is a member of the group of hydrocarbons known as alkanes. There are standard names for the alkane group as well as for some of the individual species. The &quot;forest fires&quot; sector comprises the burning (natural and human-induced) of living or dead vegetation in forests. &quot;Forest fires&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 5 as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfPentaneDueToEmissionFromForestFires" title="Tendency of Atmosphere Mass Content of Pentane due to Emission from Forest Fires" uid="tendency_of_atmosphere_mass_content_of_pentane_due_to_emission_from_forest_fires" units="kg m-2 s-1"></item> 
    1368613676<item description="&quot;Land ice&quot; means glaciers, ice-caps and ice-sheets resting on bedrock and also includes ice-shelves. &quot;ground_level&quot; means the land surface (including beneath snow, ice and surface water, if any). In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The quantity with standard name upward_geothermal_heat_flux_at_ground_level_in_land_ice is the upward heat flux at the interface between the ice and bedrock. It does not include any heat flux from the ocean into an ice shelf." label="UpwardGeothermalHeatFluxAtGroundLevelInLandIce" title="Upward Geothermal Heat Flux At Ground Level in Land Ice" uid="upward_geothermal_heat_flux_at_ground_level_in_land_ice" units="W m-2"></item> 
    1368713677<item description="&quot;frozen_water&quot; means ice. &quot;Volume fraction&quot; is used in the construction volume_fraction_of_X_in_Y, where X is a material constituent of Y." label="VolumeFractionOfFrozenWaterInSoil" title="Volume Fraction of Frozen Water in Soil" uid="volume_fraction_of_frozen_water_in_soil" units="1"></item> 
    1368813678<item description="alias::wind_mixing_energy_flux_into_ocean" label="WindMixingEnergyFluxIntoSeaWater" title="Wind Mixing Energy Flux Into Sea Water [alias]" uid="wind_mixing_energy_flux_into_ocean" units="W m-2"></item> 
    13689 <item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  &quot;HOx&quot; means a combination of two radical species containing hydrogen and oxygen: OH and HO2. The phrase 'expressed_as' is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A." label="AtmosphereMassContentOfHoxExpressedAsHydrogen" title="Atmosphere Mass Content of Hox Expressed As Hydrogen" uid="atmosphere_mass_content_of_hox_expressed_as_hydrogen" units="kg m-2"></item> 
    13690 <item description="The optical thickness is the integral along the path of radiation of a volume scattering/absorption/attenuation coefficient. The radiative flux is reduced by a factor exp(-optical_thickness) on traversing the path. The atmosphere optical thickness applies to radiation passing through the entire atmosphere. A coordinate variable of radiation_wavelength or radiation_frequency can be specified to indicate that the optical thickness applies at specific wavelengths or frequencies. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself.  &quot;Ambient_aerosol&quot; means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. &quot;Ambient aerosol particles&quot; are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. &quot;Pm10 aerosol&quot; is an air pollutant with an aerodynamic diameter of less than or equal to 10 micrometers. To specify the relative humidity and temperature at which the quantity described by the standard name applies, provide scalar coordinate variables with standard names of &quot;relative_humidity&quot; and &quot;air_temperature&quot;. The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase." label="AtmosphereOpticalThicknessDueToPm10AmbientAerosolParticles" title="Atmosphere Optical Thickness due to Pm10 Ambient Aerosol Particles" uid="atmosphere_optical_thickness_due_to_pm10_ambient_aerosol_particles" units="1"></item> 
    1369113679<item description="Downwelling radiation is radiation from above. It does not mean &quot;net downward&quot;.  When thought of as being incident on a surface, a radiative flux is sometimes called &quot;irradiance&quot;.  In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called &quot;vector irradiance&quot;.  In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics.  A phrase assuming_condition  indicates that the named quantity is the value which would obtain if all  aspects of the system were unaltered except for the assumption of the  circumstances specified by the condition.  &quot;shortwave&quot; means shortwave radiation." label="DownwellingShortwaveFluxInAirAssumingClearSky" title="Downwelling Shortwave Flux in Air Assuming Clear Sky" uid="downwelling_shortwave_flux_in_air_assuming_clear_sky" units="W m-2"></item> 
    1369213680<item description="Friction, leading to the dissipation of kinetic energy, arises in ocean models as a result of the viscosity of sea water.  Generally, the  lateral (xy) viscosity is given a large value to maintain the numerical stability of the model.  In contrast, the vertical viscosity is usually much smaller. The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase." label="OceanKineticEnergyDissipationPerUnitAreaDueToVerticalFriction" title="Ocean Kinetic Energy Dissipation Per Unit Area due to Vertical Friction" uid="ocean_kinetic_energy_dissipation_per_unit_area_due_to_vertical_friction" units="W m-2"></item> 
    1369313681<item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, whereX is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. In an atmosphere model, stratiform cloud is that produced by large-scale convergence (not the convection schemes).  The specification of a physical process by the phrase due_to_process means that the quantity named is a   single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time.  Heterogeneous nucleation occurs when a small particle of a substance other than water acts as a freezing or condensation nucleus." label="TendencyOfMassFractionOfStratiformCloudIceInAirDueToHeterogeneousNucleationFromCloudLiquidWater" title="Tendency of Mass Fraction of Stratiform Cloud Ice in Air due to Heterogeneous Nucleation from Cloud Liquid Water" uid="tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_heterogeneous_nucleation_from_cloud_liquid_water" units="s-1"></item> 
    1369413682<item description="'Mole concentration' means number of moles per unit volume, also called&quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, whereX is a material constituent of Y.  A chemical or biological species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfMoleConcentrationOfDissolvedIronInSeaWaterDueToScavengingByInorganicParticles" title="Tendency of Mole Concentration of Dissolved Iron in Sea Water due to Scavenging by Inorganic Particles" uid="tendency_of_mole_concentration_of_dissolved_iron_in_sea_water_due_to_scavenging_by_inorganic_particles" units="mol m-3 s-1"></item> 
    13695 <item description="&quot;X_area_fraction&quot; means the fraction of horizontal area occupied by X. &quot;Grounded ice sheet&quot; indicates where the ice sheet rests over bedrock and is thus grounded. It excludes ice-caps, glaciers and floating ice shelves." label="GroundedIceSheetAreaFraction" title="Grounded Ice Sheet Area Fraction" uid="grounded_ice_sheet_area_fraction" units="1"></item> 
    13696 <item description="&quot;integral_of_Y_wrt_X&quot; means int Y dX. The data variable should have an axis for X specifying the limits of the integral as bounds. &quot;wrt&quot; means with respect to. Air temperature is the bulk temperature of the air, not the surface (skin) temperature. The air temperature deficit is the air temperature threshold minus the air temperature, where only positive values are included in the integral. Its integral with respect to time is often called after its units of &quot;degree-days&quot;. The air_temperature variable, which is the data variable of the integral should have a scalar coordinate variable or a size-one coordinate variable with the standard name of air_temperature_threshold, to indicate the threshold." label="IntegralOfAirTemperatureDeficitWrtTime" title="Integral of Air Temperature Deficit Wrt Time" uid="integral_of_air_temperature_deficit_wrt_time" units="K s"></item> 
    13697 <item description="Mole fraction is used in the construction mole_fraction_of_X_in_Y, where X is a material constituent of Y.  The chemical formula of hydrogen peroxide is H202." label="MoleFractionOfHydrogenPeroxideInAir" title="Mole Fraction of Hydrogen Peroxide in Air" uid="mole_fraction_of_hydrogen_peroxide_in_air" units="1"></item> 
    13698 <item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction &quot;mole_concentration_of_X_in_Y&quot;, where X is a material constituent of Y.  A chemical or biological species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase. &quot;Production of carbon&quot; means the production of biomass expressed as the mass of carbon which it contains. Net primary production is the excess of gross primary production (the rate of synthesis of biomass from inorganic precursors) by autotrophs (&quot;producers&quot;), for example,  photosynthesis in plants or phytoplankton, over the rate at which the autotrophs themselves respire some of this biomass. In the oceans, carbon production per unit volume is often found at a number of depths at a given horizontal location. That quantity can then be integrated to calculate production per unit area at the location. Standard names for production per unit area use the term &quot;productivity&quot;. Phytoplankton are autotrophic prokaryotic or eukaryotic algae that live near the water surface where there is sufficient light to support photosynthesis. &quot;Miscellaneous phytoplankton&quot; are all those phytoplankton that are not diatoms, diazotrophs, calcareous phytoplankton, picophytoplankton or other seperately named components of the phytoplankton population. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfMoleConcentrationOfParticulateOrganicMatterExpressedAsCarbonInSeaWaterDueToNetPrimaryProductionByMiscellaneousPhytoplankton" title="Tendency of Mole Concentration of Particulate Organic Matter Expressed As Carbon in Sea Water due to Net Primary Production by Miscellaneous Phytoplankton" uid="tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_miscellaneous_phytoplankton" units="mol m-3 s-1"></item> 
    13699 <item description="&quot;Amount&quot; means mass per unit area.  The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Snow to sea ice conversion&quot; occurs when the mass of snow accumulated on an area of sea ice is sufficient to cause the ice to become mostly submerged.  Waves can then wash over the ice and snow surface and freeze into a layer that becomes &quot;snow ice&quot;." label="TendencyOfSeaIceAmountDueToSnowConversion" title="Tendency of Sea Ice Amount due to Snow Conversion" uid="tendency_of_sea_ice_amount_due_to_snow_conversion" units="kg m-2 s-1"></item> 
    13700 <item description="alias::land_ice_surface_specific_mass_balance" label="LandIceSurfaceSpecificMassBalanceRate" title="Land Ice Surface Specific Mass Balance Rate [alias]" uid="land_ice_surface_specific_mass_balance" units="m s-1"></item> 
    13701 <item description="Mass fraction is used in the construction &quot;mass_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. &quot;Ambient_aerosol&quot; means that the aerosol is measured or modelled at the ambient state of pressure, temperature and relative humidity that exists in its immediate environment. &quot;Ambient aerosol particles&quot; are aerosol particles that have taken up ambient water through hygroscopic growth. The extent of hygroscopic growth depends on the relative humidity and the composition of the particles. To specify the relative humidity and temperature at which the quantity described by the standard name applies, provide scalar coordinate variables with standard names of &quot;relative_humidity&quot; and &quot;air_temperature&quot;. &quot;Pm2p5 aerosol&quot; is an air pollutant with an aerodynamic diameter of less than or equal to 2.5 micrometers." label="MassFractionOfWaterInPm2P5AmbientAerosolParticlesInAir" title="Mass Fraction of Water in Pm2P5 Ambient Aerosol Particles in Air" uid="mass_fraction_of_water_in_pm2p5_ambient_aerosol_particles_in_air" units="1"></item> 
    13702 <item description="Mole fraction is used in the construction &quot;mole_fraction_of_X_in_Y&quot;, where X is a material constituent of Y. A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Artificial tracer&quot; means a passive atmospheric tracer that is used to study atmospheric transport and deposition. To specify the length of the tracer lifetime in the atmosphere, a scalar coordinate variable with the standard name of tracer_lifetime should be used." label="MoleFractionOfArtificialTracerWithFixedLifetimeInAir" title="Mole Fraction of Artificial Tracer With Fixed Lifetime in Air" uid="mole_fraction_of_artificial_tracer_with_fixed_lifetime_in_air" units="1"></item> 
    1370313683<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for carbon monoxide is CO. The &quot;residential and commercial combustion&quot; sector comprises fuel combustion activities related to the commercial/institutional sector, the residential sector and the agriculture/forestry/fishing sector. It may also include any not-classified or &quot;other&quot; combustion, which is commonly included in the inventory data. &quot;Residential and commercial combustion&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 1A4a, 1A4b and 1A4c as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfCarbonMonoxideDueToEmissionFromResidentialAndCommercialCombustion" title="Tendency of Atmosphere Mass Content of Carbon Monoxide due to Emission from Residential And Commercial Combustion" uid="tendency_of_atmosphere_mass_content_of_carbon_monoxide_due_to_emission_from_residential_and_commercial_combustion" units="kg m-2 s-1"></item> 
    1370413684<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for propane is C3H8. Propane is a member of the group of hydrocarbons known as alkanes. There are standard names for the alkane group as well as for some of the individual species. The &quot;residential and commercial combustion&quot; sector comprises fuel combustion activities related to the commercial/institutional sector, the residential sector and the agriculture/forestry/fishing sector. It may also include any not-classified or &quot;other&quot; combustion, which is commonly included in the inventory data. &quot;Residential and commercial combustion&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 1A4a, 1A4b and 1A4c as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfPropaneDueToEmissionFromResidentialAndCommercialCombustion" title="Tendency of Atmosphere Mass Content of Propane due to Emission from Residential And Commercial Combustion" uid="tendency_of_atmosphere_mass_content_of_propane_due_to_emission_from_residential_and_commercial_combustion" units="kg m-2 s-1"></item> 
    1370513685<item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. the surface of the earth). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. &quot;tendency_of_X&quot; means derivative of X with respect to time. Terpenes are hydrocarbons, that is, they contain only hydrogen and carbon combined in the general proportions (C5H8)n where n is an integer greater than on equal to one. Sesquiterpenes are a class of terpenes that consist of three isoprene units and have the molecular formula C15H24. Terpenes are hydrocarbons. The term &quot;sesquiterpenes&quot; is used in standard names to describe the group of chemical species having this common structure that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute." label="TendencyOfAtmosphereMassContentOfSesquiterpenesDueToEmission" title="Tendency of Atmosphere Mass Content of Sesquiterpenes due to Emission" uid="tendency_of_atmosphere_mass_content_of_sesquiterpenes_due_to_emission" units="kg m-2 s-1"></item> 
    13706 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for xylene is C6H4C2H6. In chemistry, xylene is a generic term for a group of three isomers of dimethylbenzene. The IUPAC names for the isomers are 1,2-dimethylbenzene, 1,3-dimethylbenzene and 1,4-dimethylbenzene. Xylene is an aromatic hydrocarbon. There are standard names that refer to aromatic_compounds as a group, as well as those for individual species. The &quot;energy production and distribution&quot; sector comprises fuel combustion activities related to energy industries and fugitive emissions from fuels. It may also include any not-classified or &quot;other&quot; combustion, which is commonly included in energy-related inventory data. &quot;Energy production and distribution&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source categories 1A1 and 1B as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfXyleneDueToEmissionFromEnergyProductionAndDistribution" title="Tendency of Atmosphere Mass Content of Xylene due to Emission from Energy Production And Distribution" uid="tendency_of_atmosphere_mass_content_of_xylene_due_to_emission_from_energy_production_and_distribution" units="kg m-2 s-1"></item> 
    13707 <item description="&quot;toa&quot; means top of atmosphere. Adjusted forcing is the radiative flux change caused by an imposed change in radiative forcing agent (greenhouse gases, aerosol, solar radiation, etc.) after allowance for stratospheric temperature adjustment." label="ToaAdjustedRadiativeForcing" title="Toa Adjusted Radiative Forcing" uid="toa_adjusted_radiative_forcing" units="W m-2"></item> 
    13708 <item description="&quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used. The mass is the total mass of the particles. &quot;Aerosol&quot; means the system of suspended liquid or solid particles in air (except cloud droplets) and their carrier gas, the air itself. Aerosol particles take up ambient water (a process known as hygroscopic growth) depending on the relative humidity and the composition of the particles. &quot;Dry aerosol particles&quot; means aerosol particles without any water uptake. The chemical formula for ammonium is NH4." label="AtmosphereMassContentOfAmmoniumDryAerosolParticles" title="Atmosphere Mass Content of Ammonium Dry Aerosol Particles" uid="atmosphere_mass_content_of_ammonium_dry_aerosol_particles" units="kg m-2"></item> 
    1370913686<item description="&quot;Eastward&quot; indicates a vector component which is positive when directed eastward (negative westward). Transport across_unit_distance means expressed per unit distance normal to the direction of transport. Dry static energy is the sum of enthalpy and potential energy (itself the sum of gravitational and centripetal potential energy). Enthalpy can be written either as (1) CpT, where Cp is heat capacity at constant pressure, T is absolute temperature, or (2) U+pV, where U is internal energy, p is pressure and V is volume." label="EastwardAtmosphereDryStaticEnergyTransportAcrossUnitDistance" title="Eastward Atmosphere Dry Static Energy Transport Across Unit Distance" uid="eastward_atmosphere_dry_static_energy_transport_across_unit_distance" units="W m-1"></item> 
    1371013687<item description="Forecast period is the time interval between the forecast reference time and the validity time. A period is an interval of time, or the time-period of an oscillation." label="ForecastPeriod" title="Forecast Period" uid="forecast_period" units="s"></item> 
     
    1371313690<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time. &quot;Content&quot; indicates a quantity per unit area. The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including &quot;content_of_atmosphere_layer&quot; are used. The mass is the total mass of the molecules. The specification of a physical process by the phrase &quot;due_to_&quot; process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for ethane is C2H6. Ethane is a member of the group of hydrocarbons known as alkanes. There are standard names for the alkane group as well as for some of the individual species. The &quot;savanna and grassland fires&quot; sector comprises the burning (natural and human-induced) of living or dead vegetation in non-forested areas. It excludes field burning of agricultural residues. &quot;Savanna and grassland fires&quot; is the term used in standard names to describe a collection of emission sources. A variable which has this value for the standard_name attribute should be accompanied by a comment attribute which lists the source categories and provides a reference to the categorization scheme, for example, &quot;IPCC (Intergovernmental Panel on Climate Change) source category 5 as defined in the 2006 IPCC guidelines for national greenhouse gas inventories&quot;." label="TendencyOfAtmosphereMassContentOfEthaneDueToEmissionFromSavannaAndGrasslandFires" title="Tendency of Atmosphere Mass Content of Ethane due to Emission from Savanna And Grassland Fires" uid="tendency_of_atmosphere_mass_content_of_ethane_due_to_emission_from_savanna_and_grassland_fires" units="kg m-2 s-1"></item> 
    1371413691<item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical symbol for atomic nitrogen is N." label="TendencyOfAtmosphereMolesOfAtomicNitrogen" title="Tendency of Atmosphere Moles of Atomic Nitrogen" uid="tendency_of_atmosphere_moles_of_atomic_nitrogen" units="mol s-1"></item> 
    13715 <item description="Fog means water droplets or minute ice crystals close to the surface which reduce visibility in air to less than 1000m. &quot;X_area_fraction&quot; means the fraction of horizontal area occupied by X." label="FogAreaFraction" title="Fog Area Fraction" uid="fog_area_fraction" units="1"></item> 
    13716 <item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for acetic_acid is CH3COOH. The IUPAC name for acetic acid is ethanoic acid." label="MassConcentrationOfAceticAcidInAir" title="Mass Concentration of Acetic Acid in Air" uid="mass_concentration_of_acetic_acid_in_air" units="kg m-3"></item> 
    13717 <item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;y&quot; indicates a vector component along the grid y-axis, positive with increasing y. &quot;Downward&quot; indicates a vector component which is positive when directed downward (negative upward)." label="SurfaceDownwardYStress" title="Surface Downward Y Stress" uid="surface_downward_y_stress" units="Pa"></item> 
    13718 <item description="&quot;integral_of_Y_wrt_X&quot; means int Y dX. The data variable should have an axis for X specifying the limits of the integral as bounds. &quot;wrt&quot; means with respect to. Depth is the vertical distance below the surface. Practical Salinity, S_P, is a determination of the salinity of sea water, based on its electrical conductance. The measured conductance, corrected for temperature and pressure, is compared to the conductance of a standard  potassium chloride solution, producing a value on the Practical Salinity Scale of 1978 (PSS-78). This name should not be used to describe salinity observations made before 1978, or ones not based on conductance measurements. Conversion of Practical Salinity to other precisely defined salinity measures should use the appropriate formulas specified by TEOS-10. Other standard names for precisely defined salinity quantities are sea_water_absolute_salinity (S_A); sea_water_preformed_salinity (S_*), sea_water_reference_salinity (S_R); sea_water_cox_salinity (S_C), used for salinity observations between 1967 and 1977; and sea_water_knudsen_salinity (S_K), used for salinity observations between 1901 and 1966. Salinity quantities that do not match any of the precise definitions should be given the more general standard name of sea_water_salinity. Reference: www.teos-10.org; Lewis, 1980 doi:10.1109/JOE.1980.1145448." label="IntegralOfSeaWaterPracticalSalinityWrtDepth" title="Integral of Sea Water Practical Salinity Wrt Depth" uid="integral_of_sea_water_practical_salinity_wrt_depth" units="m"></item> 
     13692<item description="alias::integral_of_sea_water_practical_salinity_wrt_depth" label="IntegralWrtDepthOfSeaWaterPracticalSalinity" title="Integral Wrt Depth of Sea Water Practical Salinity [alias]" uid="integral_of_sea_water_practical_salinity_wrt_depth" units="m"></item> 
    1371913693<item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, whereX is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X).  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for halon1301 is CBrF3. The IUPAC name for halon1301 is bromo-trifluoro-methane." label="MassFractionOfHalon1301InAir" title="Mass Fraction of Halon1301 in Air" uid="mass_fraction_of_halon1301_in_air" units="1"></item> 
    1372013694<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical symbol for mercury is Hg." label="MoleConcentrationOfGaseousElementalMercuryInAir" title="Mole Concentration of Gaseous Elemental Mercury in Air" uid="mole_concentration_of_gaseous_elemental_mercury_in_air" units="mol m-3"></item> 
     
    1372213696<item description="&quot;Content&quot; indicates a quantity per unit area.  The &quot;atmosphere content&quot; of a quantity refers to the vertical integral from the surface to the top of the atmosphere. For the content between specified levels in the atmosphere, standard names including content_of_atmosphere_layer are used.  The specification of a physical process by the phrase due_to_process means that the quantity named is a  single term in a sum of terms which together compose the general quantity  named by omitting the phrase.  &quot;tendency_of_X&quot; means derivative of X with respect to time.  &quot;Emission&quot; means emission from a primary source located anywhere within the atmosphere, including at the lower boundary (i.e. earth's surface). &quot;Emission&quot; is a process entirely distinct from &quot;re-emission&quot; which is used in some standard names. The chemical formula for methanol is CH3OH." label="TendencyOfAtmosphereMassContentOfMethanolDueToEmission" title="Tendency of Atmosphere Mass Content of Methanol due to Emission" uid="tendency_of_atmosphere_mass_content_of_methanol_due_to_emission" units="kg m-2 s-1"></item> 
    1372313697<item description="alias::tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_expressed_as_carbon_due_to_emission_from_land_transport" label="TendencyOfAtmosphereMassContentOfParticulateOrganicMatterDryAerosolParticlesExpressedAsCarbonDueToEmissionFromLandTransport" title="Tendency of Atmosphere Mass Content of Particulate Organic Matter Dry Aerosol Particles Expressed As Carbon due to Emission from Land Transport [alias]" uid="tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_expressed_as_carbon_due_to_emission_from_land_transport" units="kg m-2 s-1"></item> 
    13724 <item description="&quot;tendency_of_X&quot; means derivative of X with respect to time.  The construction &quot;atmosphere_moles_of_X&quot; means the total number of moles of X in the entire atmosphere, i.e. summed over the atmospheric column and over the entire globe. The chemical formula for limonene is C10H16. The IUPAC name for limonene is 1-methyl-4-prop-1-en-2-yl-cyclohexene. Limonene is a member of the group of hydrocarbons known as terpenes.  There are standard names for the terpene group as well as for some of the individual species." label="TendencyOfAtmosphereMolesOfLimonene" title="Tendency of Atmosphere Moles of Limonene" uid="tendency_of_atmosphere_moles_of_limonene" units="mol s-1"></item> 
    1372513698<item description="&quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="UpwardHeatFluxInSeaWaterDueToConvection" title="Upward Heat Flux in Sea Water due to Convection" uid="upward_heat_flux_in_sea_water_due_to_convection" units="W m-2"></item> 
    13726 <item description="Global average sea level change is due to change in volume of the water in the ocean, caused by mass and/or density change, or to change in the volume of the ocean basins, caused by tectonics etc. It is sometimes called &quot;eustatic&quot;, which is a term that also has other definitions. It differs from the change in the global average sea surface height relative to the centre of the Earth by the global average vertical movement of the ocean floor. Zero sea level change is an arbitrary level. &quot;tendency_of_X&quot; means derivative of X with respect to time." label="TendencyOfGlobalAverageSeaLevelChange" title="Tendency of Global Average Sea Level Change" uid="tendency_of_global_average_sea_level_change" units="m year-1"></item> 
    1372713699<item description="Downwelling radiation is radiation from above. It does not mean &quot;net downward&quot;. Photon radiance is the photon flux in a particular direction, per unit of solid angle. The direction from which it is coming must be specified, for instance with a coordinate of zenith_angle. If the radiation does not depend on direction, a standard name of isotropic radiance should be chosen instead. A photon flux is specified in terms of numbers of photons expressed in moles." label="DownwellingPhotonRadianceInSeaWater" title="Downwelling Photon Radiance in Sea Water" uid="downwelling_photon_radiance_in_sea_water" units="mol m-2 s-1 sr-1"></item> 
    1372813700<item description="alias::grid_northward_wind" label="YWind" title="Y Wind [alias]" uid="grid_northward_wind" units="m s-1"></item> 
    13729 <item description="&quot;Equivalent reflectivity factor&quot;  is the radar reflectivity factor that is calculated from the measured radar return power assuming the target is composed of liquid water droplets whose diameter is less than one tenth of the radar wavelength, i.e., treating the droplets as Rayleigh scatterers.  The actual radar reflectivity factor would depend on the size distribution and composition of the particles within the target volume and these are  often unknown. &quot;histogram_of_X[_over_Z]&quot; means histogram (i.e. number of counts for each  range of X) of variations (over Z) of X.   The data variable should have an  axis for X.  A reference ellipsoid is a regular mathematical figure that approximates the irregular shape of the geoid. A number of reference ellipsoids are defined for use in the field of geodesy." label="HistogramOfEquivalentReflectivityFactorOverHeightAboveReferenceEllipsoid" title="Histogram of Equivalent Reflectivity Factor Over Height Above Reference Ellipsoid" uid="histogram_of_equivalent_reflectivity_factor_over_height_above_reference_ellipsoid" units="1"></item> 
    13730 <item description="Mass concentration means mass per unit volume and is used in the construction mass_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for butane is C4H10. Butane is a member of the group of hydrocarbons known as alkanes.  There are standard names for the alkane group as well as for some of the individual species." label="MassConcentrationOfButaneInAir" title="Mass Concentration of Butane in Air" uid="mass_concentration_of_butane_in_air" units="kg m-3"></item> 
     13701<item description="&quot;Equivalent reflectivity factor&quot; is the radar reflectivity factor that is calculated from the measured radar return power assuming the target is composed of liquid water droplets whose diameter is less than one tenth of the radar wavelength, i.e., treating the droplets as Rayleigh scatterers. The actual radar reflectivity factor would depend on the size distribution and composition of the particles within the target volume and these are often unknown. &quot;histogram_of_X[_over_Z]&quot; means histogram (i.e. number of counts for each  range of X) of variations (over Z) of X. The data variable should have an axis for X. A reference ellipsoid is a regular mathematical figure that approximates the irregular shape of the geoid. A number of reference ellipsoids are defined for use in the field of geodesy. The geoid is a surface of constant geopotential with which mean sea level would coincide if the ocean were at rest. To specify which reference ellipsoid is being used, a grid_mapping variable should be attached to the data variable as described in Chapter 5.6 of the CF Convention." label="HistogramOfEquivalentReflectivityFactorOverHeightAboveReferenceEllipsoid" title="Histogram of Equivalent Reflectivity Factor Over Height Above Reference Ellipsoid" uid="histogram_of_equivalent_reflectivity_factor_over_height_above_reference_ellipsoid" units="1"></item> 
    1373113702<item description="Mole concentration means number of moles per unit volume, also called &quot;molarity&quot;, and is used in the construction mole_concentration_of_X_in_Y, where X is a material constituent of Y.  A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. The chemical formula for aceto-nitrile is CH3CN. The IUPAC name for aceto-nitrile is ethanenitrile." label="MoleConcentrationOfAcetoNitrileInAir" title="Mole Concentration of Aceto Nitrile in Air" uid="mole_concentration_of_aceto_nitrile_in_air" units="mol m-3"></item> 
    1373213703<item description="Mole fraction is used in the construction mole_fraction_of_X_in_Y, where X is a material constituent of Y. A chemical species denoted by X may be described by a single term such as 'nitrogen' or a phrase such as 'nox_expressed_as_nitrogen'. Alkanes are saturated hydrocarbons, i.e. they do not contain any chemical double bonds. Alkanes contain only hydrogen and carbon combined in the general proportions C(n)H(2n+2); &quot;alkanes&quot; is the term used in standard names to describe the group of chemical species having this common structure that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute. Standard names exist for some individual alkane species, e.g., methane and ethane." label="MoleFractionOfAlkanesInAir" title="Mole Fraction of Alkanes in Air" uid="mole_fraction_of_alkanes_in_air" units="1"></item> 
     
    1373413705<item description="The specification of a physical process by the phrase due_to_process means that the quantity named is a single term in a sum of terms which together compose the general quantity named by omitting the phrase. The water_flux_out_of_sea_water_due_to_newtonian_relaxation is the freshwater leaving as a result of the Newtonian relaxation of the sea surface salinity. In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="WaterFluxOutOfSeaWaterDueToNewtonianRelaxation" title="Water Flux Out of Sea Water due to Newtonian Relaxation" uid="water_flux_out_of_sea_water_due_to_newtonian_relaxation" units="kg m-2 s-1"></item> 
    1373513706<item description="A quantity with standard name Xward_Yward_derivative_of_geopotential is a second spatial derivative of geopotential, P, in the direction specified by X and Y, i.e., d2P/dXdY. Geopotential is the sum of the specific gravitational potential energy relative to the geoid and the specific centripetal potential energy. &quot;Westward&quot; indicates a vector component which is positive when directed westward (negative eastward). &quot;component_derivative_of_X&quot; means derivative of X with respect to distance in the component direction, which may be &quot;northward&quot;, &quot;southward&quot;, &quot;eastward&quot;, &quot;westward&quot;, &quot;x&quot; or &quot;y&quot;. The last two indicate derivatives along the axes of the grid, in the case where they are not true longitude and latitude." label="WestwardWestwardDerivativeOfGeopotential" title="Westward Westward Derivative of Geopotential" uid="westward_westward_derivative_of_geopotential" units="s-2"></item> 
    13736 <item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X). A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. The phrase &quot;expressed_as&quot; is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A. &quot;nmvoc&quot; means non methane volatile organic compounds; &quot;nmvoc&quot; is the term used in standard names to describe the group of chemical species having this classification that are represented within a given model. The list of individual species that are included in a quantity having a group chemical standard name can vary between models. Where possible, the data variable should be accompanied by a complete description of the species represented, for example, by using a comment attribute." label="MassFractionOfNmvocExpressedAsCarbonInAir" title="Mass Fraction of Nmvoc Expressed As Carbon in Air" uid="mass_fraction_of_nmvoc_expressed_as_carbon_in_air" units="1"></item> 
    13737 <item description="alias::mass_fraction_of_pm2p5_aerosol_in_air" label="MassFractionOfPm2P5AmbientAerosolParticlesInAir" title="Mass Fraction of Pm2P5 Ambient Aerosol Particles in Air [alias]" uid="mass_fraction_of_pm2p5_aerosol_in_air" units="1"></item> 
    13738 <item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X)." label="MassFractionOfSulfurDioxideInAir" title="Mass Fraction of Sulfur Dioxide in Air" uid="mass_fraction_of_sulfur_dioxide_in_air" units="1"></item> 
    13739 <item description="Mole fraction is used in the construction mole_fraction_of_X_in_Y, where X is a material constituent of Y.  The chemical formula of halon1211 is CBrClF2.  The IUPAC name for halon 1211 is bromo-chloro-difluoro-methane." label="MoleFractionOfHalon1211InAir" title="Mole Fraction of Halon1211 in Air" uid="mole_fraction_of_halon1211_in_air" units="1"></item> 
    13740 <item description="Mole fraction is used in the construction mole_fraction_of_X_in_Y, where X is a material constituent of Y.  The chemical formula of hydrogen bromide is HBr." label="MoleFractionOfHydrogenBromideInAir" title="Mole Fraction of Hydrogen Bromide in Air" uid="mole_fraction_of_hydrogen_bromide_in_air" units="1"></item> 
    13741 <item description="Mole fraction is used in the construction mole_fraction_of_X_in_Y, where X is a material constituent of Y.  The chemical formula of hypochlorous acid is HOCl." label="MoleFractionOfHypochlorousAcidInAir" title="Mole Fraction of Hypochlorous Acid in Air" uid="mole_fraction_of_hypochlorous_acid_in_air" units="1"></item> 
    13742 <item description="alias::surface_upwelling_spectral_radiance_in_air" label="SurfaceUpwellingRadiancePerUnitWavelengthInAir" title="Surface Upwelling Radiance Per Unit Wavelength in Air [alias]" uid="surface_upwelling_spectral_radiance_in_air" units="W m-2 m-1 sr-1"></item> 
    13743 <item description="alias::atmosphere_absorption_optical_thickness_due_to_ambient_aerosol" label="AtmosphereAbsorptionOpticalThicknessDueToAmbientAerosolParticles" title="Atmosphere Absorption Optical Thickness due to Ambient Aerosol Particles [alias]" uid="atmosphere_absorption_optical_thickness_due_to_ambient_aerosol" units="1"></item> 
    1374413707<item description="cloud_top refers to the top of the highest cloud. brightness_temperature of a body is the temperature of a black body which radiates the same power per unit solid angle per unit area. A coordinate variable of radiation_wavelength, sensor_band_central_radiation_wavelength, or radiation_frequency may be specified to indicate that the brightness temperature applies at specific wavelengths or frequencies." label="BrightnessTemperatureAtCloudTop" title="Brightness Temperature At Cloud Top" uid="brightness_temperature_at_cloud_top" units="K"></item> 
    1374513708<item description="Downwelling radiation is radiation from above. It does not mean &quot;net downward&quot;.  When thought of as being incident on a surface, a radiative flux is sometimes called &quot;irradiance&quot;.  In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called &quot;vector irradiance&quot;.  In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics.  &quot;shortwave&quot; means shortwave radiation." label="DownwellingShortwaveFluxInSeaWater" title="Downwelling Shortwave Flux in Sea Water" uid="downwelling_shortwave_flux_in_sea_water" units="W m-2"></item> 
     
    1374713710<item description="Mass fraction is used in the construction mass_fraction_of_X_in_Y, where X is a material constituent of Y. It means the ratio of the mass of X to the mass of Y (including X)." label="MassFractionOfCloudIceInAir" title="Mass Fraction of Cloud Ice in Air" uid="mass_fraction_of_cloud_ice_in_air" units="1"></item> 
    1374813711<item description="&quot;shortwave&quot; means shortwave radiation. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). Net upward radiation is the difference between radiation from below (upwelling) and radiation from above (downwelling). In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." label="NetUpwardShortwaveFluxInAir" title="Net Upward Shortwave Flux in Air" uid="net_upward_shortwave_flux_in_air" units="W m-2"></item> 
    13749 <item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. A velocity is a vector quantity. &quot;x&quot; indicates a vector component along the grid x-axis, positive with increasing x. &quot;Geostrophic&quot; indicates that geostrophic balance is assumed, i.e. that the pressure gradient force and the Coriolis force are balanced and the large scale fluid flow is parallel to the isobars. surface_geostrophic_sea_water_x_velocity is the sum of a variable part, surface_geostrophic_sea_water_x_velocity_assuming_sea_level_for_geoid, and a constant part due to the stationary component of ocean circulation." label="SurfaceGeostrophicSeaWaterXVelocity" title="Surface Geostrophic Sea Water X Velocity" uid="surface_geostrophic_sea_water_x_velocity" units="m s-1"></item> 
    13750 <item description="Mass concentration means mass per unit volume and is used in the construction &quot;mass_concentration_of_X_in_Y&quot;, where X is a material constituent of Y. A chemical species denoted by X may be described by a single term such as &quot;nitrogen&quot; or a phrase such as &quot;nox_expressed_as_nitrogen&quot;. &quot;Drizzle&quot; means drops of water falling through the atmosphere that have a diameter typically in the range 0.2-0.5 mm." label="MassConcentrationOfDrizzleInAir" title="Mass Concentration of Drizzle in Air" uid="mass_concentration_of_drizzle_in_air" units="kg m-3"></item> 
     13712<item description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. A velocity is a vector quantity. &quot;x&quot; indicates a vector component along the grid x-axis, positive with increasing x. &quot;Geostrophic&quot; indicates that geostrophic balance is assumed, i.e. that the pressure gradient force and the Coriolis force are balanced and the large scale fluid flow is parallel to the isobars. The quantity with standard name surface_geostrophic_sea_water_x_velocity is the sum of a variable part, surface_geostrophic_