Ignore:
Timestamp:
15/10/18 10:56:37 (12 months ago)
Author:
mjuckes
Message:

01.00.28

File:
1 edited

Legend:

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

    r1259 r1265  
    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 [01.00.28b1]</dc:title> 
     3<dc:title>Draft CMIP6 Data Request [01.00.28]</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>2018-09-14</dc:date> 
     6<dc:date>2018-10-12</dc:date> 
    77<dc:source>CF Standard Name table; CMIP6 Controlled Vocabularies; ESDOC CMIP6 Experiment Documentation</dc:source> 
    8 <pav:version>01.00.28b1</pav:version> 
     8<pav:version>01.00.28</pav:version> 
    99</prologue> 
    1010<main> 
     
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    3163 <item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="PmipPmipPmipAclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0be06-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Aclim" title="PMIP, PMIP.PMIP-Aclim, amip" uid="9408ae7e-267c-11e7-8933-ac72891c3257"></item> 
    3164 <item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="PmipPmipPmipAclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0be06-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Aclim" title="PMIP, PMIP.PMIP-Aclim, abrupt-4xCO2" uid="9408b270-267c-11e7-8933-ac72891c3257"></item> 
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    3167 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="PmipPmipPmipAclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0be06-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Aclim" title="PMIP, PMIP.PMIP-Aclim, esm-hist" uid="9408bbee-267c-11e7-8933-ac72891c3257"></item> 
    3168 <item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="PmipPmipPmipAclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0be06-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Aclim" title="PMIP, PMIP.PMIP-Aclim, historical-ext" uid="9408be96-267c-11e7-8933-ac72891c3257"></item> 
    3169 <item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="PmipPmipPmipAclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0be06-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Aclim" title="PMIP, PMIP.PMIP-Aclim, esm-hist-ext" uid="9408c1a2-267c-11e7-8933-ac72891c3257"></item> 
    3170 <item esid="f16f03aa-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f03aa-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip1']))" expt="PMIP-1" label="PmipPmipPmipAclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0be06-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Aclim" title="PMIP, PMIP.PMIP-Aclim, PMIP-1" uid="9408c472-267c-11e7-8933-ac72891c3257"></item> 
    3171 <item esid="f16f080a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f080a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip2']))" expt="PMIP-2" label="PmipPmipPmipAclim" mip="PMIP" nenmax="1" nexmax="-999" ny="200" nymax="200.0" preset="-1" rlid="efc0be06-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Aclim" title="PMIP, PMIP.PMIP-Aclim, PMIP-2" uid="9408c724-267c-11e7-8933-ac72891c3257"></item> 
    3172 <item esid="f16f0c56-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f0c56-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip3']))" expt="PMIP-3" label="PmipPmipPmipAclim" mip="PMIP" nenmax="1" nexmax="-999" ny="1000" nymax="1000.0" preset="-1" rlid="efc0be06-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Aclim" title="PMIP, PMIP.PMIP-Aclim, PMIP-3" uid="9408c9cc-267c-11e7-8933-ac72891c3257"></item> 
    3173 <item esid="f16f108e-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f108e-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip4']))" expt="PMIP-4" label="PmipPmipPmipAclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0be06-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Aclim" title="PMIP, PMIP.PMIP-Aclim, PMIP-4" uid="9408ccb0-267c-11e7-8933-ac72891c3257"></item> 
    3174 <item esid="f16f14c6-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f14c6-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip5']))" expt="PMIP-5" label="PmipPmipPmipAclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0be06-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Aclim" title="PMIP, PMIP.PMIP-Aclim, PMIP-5" uid="9408cf58-267c-11e7-8933-ac72891c3257"></item> 
    3175 <item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="piControl" 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, piControl" tslice="_slice_piControl200" uid="940765d2-267c-11e7-8933-ac72891c3257"></item> 
    3176 <item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-piControl" 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, esm-piControl" tslice="_slice_piControl200" uid="940768e8-267c-11e7-8933-ac72891c3257"></item> 
    3177 <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> 
    3178 <item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="PmipPmipPmipAeroclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0908e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-aeroclim" title="PMIP, PMIP.PMIP-aeroclim, abrupt-4xCO2" uid="94076fd2-267c-11e7-8933-ac72891c3257"></item> 
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    3181 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" 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, esm-hist" uid="940778c4-267c-11e7-8933-ac72891c3257"></item> 
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    3183 <item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" 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, esm-hist-ext" uid="94077ee6-267c-11e7-8933-ac72891c3257"></item> 
    3184 <item esid="f16f03aa-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f03aa-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip1']))" expt="PMIP-1" label="PmipPmipPmipAeroclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0908e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-aeroclim" title="PMIP, PMIP.PMIP-aeroclim, PMIP-1" uid="940781d4-267c-11e7-8933-ac72891c3257"></item> 
    3185 <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> 
    3186 <item esid="f16f0c56-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f0c56-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip3']))" expt="PMIP-3" label="PmipPmipPmipAeroclim" mip="PMIP" nenmax="1" nexmax="-999" ny="1000" nymax="1000.0" preset="-1" rlid="efc0908e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-aeroclim" title="PMIP, PMIP.PMIP-aeroclim, PMIP-3" uid="9407871a-267c-11e7-8933-ac72891c3257"></item> 
    3187 <item esid="f16f108e-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f108e-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip4']))" expt="PMIP-4" label="PmipPmipPmipAeroclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0908e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-aeroclim" title="PMIP, PMIP.PMIP-aeroclim, PMIP-4" uid="940789cc-267c-11e7-8933-ac72891c3257"></item> 
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    3190 <item esid="f16f6188-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment ssp126" expt="SSP126" 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, SSP126" uid="94079390-267c-11e7-8933-ac72891c3257"></item> 
    3191 <item esid="f16bfe76-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2-bgc" expt="esm1pcbgc" 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, esm1pcbgc" uid="94079728-267c-11e7-8933-ac72891c3257"></item> 
    3192 <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> 
    3193 <item esid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment piControl" expt="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, piControl" tslice="_slice_piControl200" uid="940a128c-267c-11e7-8933-ac72891c3257"></item> 
    3194 <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> 
    3195 <item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" label="PmipPmipPmipLclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0d684-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Lclim" title="PMIP, PMIP.PMIP-Lclim, amip" uid="940a1908-267c-11e7-8933-ac72891c3257"></item> 
    3196 <item esid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment abrupt-4xCO2" expt="abrupt-4xCO2" label="PmipPmipPmipLclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0d684-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Lclim" title="PMIP, PMIP.PMIP-Lclim, abrupt-4xCO2" uid="940a1cf0-267c-11e7-8933-ac72891c3257"></item> 
    3197 <item esid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment 1pctCO2" expt="1pctCO2" label="PmipPmipPmipLclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0d684-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Lclim" title="PMIP, PMIP.PMIP-Lclim, 1pctCO2" uid="940a1f66-267c-11e7-8933-ac72891c3257"></item> 
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    3199 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="PmipPmipPmipLclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0d684-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Lclim" title="PMIP, PMIP.PMIP-Lclim, esm-hist" uid="940a259c-267c-11e7-8933-ac72891c3257"></item> 
    3200 <item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="PmipPmipPmipLclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0d684-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Lclim" title="PMIP, PMIP.PMIP-Lclim, historical-ext" uid="940a28bc-267c-11e7-8933-ac72891c3257"></item> 
    3201 <item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="PmipPmipPmipLclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0d684-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Lclim" title="PMIP, PMIP.PMIP-Lclim, esm-hist-ext" uid="940a2bf0-267c-11e7-8933-ac72891c3257"></item> 
    3202 <item esid="f16f03aa-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f03aa-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip1']))" expt="PMIP-1" label="PmipPmipPmipLclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0d684-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Lclim" title="PMIP, PMIP.PMIP-Lclim, PMIP-1" uid="940a2eb6-267c-11e7-8933-ac72891c3257"></item> 
    3203 <item esid="f16f080a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f080a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip2']))" expt="PMIP-2" 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, PMIP-2" uid="940a31a4-267c-11e7-8933-ac72891c3257"></item> 
    3204 <item esid="f16f0c56-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f0c56-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip3']))" expt="PMIP-3" label="PmipPmipPmipLclim" mip="PMIP" nenmax="1" nexmax="-999" ny="1000" nymax="1000.0" preset="-1" rlid="efc0d684-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Lclim" title="PMIP, PMIP.PMIP-Lclim, PMIP-3" uid="940a3456-267c-11e7-8933-ac72891c3257"></item> 
    3205 <item esid="f16f108e-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f108e-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip4']))" expt="PMIP-4" label="PmipPmipPmipLclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0d684-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Lclim" title="PMIP, PMIP.PMIP-Lclim, PMIP-4" uid="940a36ae-267c-11e7-8933-ac72891c3257"></item> 
    3206 <item esid="f16f14c6-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f14c6-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip5']))" expt="PMIP-5" label="PmipPmipPmipLclim" mip="PMIP" nenmax="1" nexmax="-999" ny="100" nymax="100.0" preset="-1" rlid="efc0d684-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Lclim" title="PMIP, PMIP.PMIP-Lclim, PMIP-5" uid="940a3910-267c-11e7-8933-ac72891c3257"></item> 
    3207 <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> 
    3208 <item esid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-piControl" expt="esm-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, esm-piControl" tslice="_slice_piControl200" uid="940abc1e-267c-11e7-8933-ac72891c3257"></item> 
    3209 <item esid="f16fc344-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment amip" expt="amip" 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, amip" uid="940abf70-267c-11e7-8933-ac72891c3257"></item> 
    3210 <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> 
    3211 <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> 
    3212 <item esid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical" expt="historical" 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, historical" uid="940aca42-267c-11e7-8933-ac72891c3257"></item> 
    3213 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" 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, esm-hist" uid="940accfe-267c-11e7-8933-ac72891c3257"></item> 
    3214 <item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" 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, historical-ext" uid="940ad028-267c-11e7-8933-ac72891c3257"></item> 
    3215 <item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" 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, esm-hist-ext" uid="940ad2e4-267c-11e7-8933-ac72891c3257"></item> 
    3216 <item esid="f16f03aa-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f03aa-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip1']))" expt="PMIP-1" 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-1" uid="940ad596-267c-11e7-8933-ac72891c3257"></item> 
    3217 <item esid="f16f080a-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f080a-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip2']))" expt="PMIP-2" 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, PMIP-2" uid="940ad9c4-267c-11e7-8933-ac72891c3257"></item> 
    3218 <item esid="f16f0c56-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f0c56-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip3']))" expt="PMIP-3" label="PmipPmipPmipLiclim" mip="PMIP" nenmax="1" nexmax="-999" ny="1000" nymax="1000.0" preset="-1" rlid="efc0c8e2-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-LIclim" title="PMIP, PMIP.PMIP-LIclim, PMIP-3" uid="940adc76-267c-11e7-8933-ac72891c3257"></item> 
    3219 <item esid="f16f108e-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f108e-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip4']))" expt="PMIP-4" 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-4" uid="940adf1e-267c-11e7-8933-ac72891c3257"></item> 
    3220 <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> 
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    3226 <item esid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist" expt="esm-hist" label="PmipPmipPmipOclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0cc8e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Oclim" title="PMIP, PMIP.PMIP-Oclim, esm-hist" uid="940c91b0-267c-11e7-8933-ac72891c3257"></item> 
    3227 <item esid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment historical-ext" expt="historical-ext" label="PmipPmipPmipOclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0cc8e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Oclim" title="PMIP, PMIP.PMIP-Oclim, historical-ext" uid="940c94b2-267c-11e7-8933-ac72891c3257"></item> 
    3228 <item esid="f16fd136-dd9e-11e6-b89b-ac72891c3257" esidComment="Experiment esm-hist-ext" expt="esm-hist-ext" label="PmipPmipPmipOclim" mip="PMIP" nenmax="1" nexmax="-999" ny="160" nymax="-1.0" preset="-1" rlid="efc0cc8e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Oclim" title="PMIP, PMIP.PMIP-Oclim, esm-hist-ext" uid="940c976e-267c-11e7-8933-ac72891c3257"></item> 
    3229 <item esid="f16f03aa-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f03aa-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip1']))" expt="PMIP-1" 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, PMIP-1" uid="940c99da-267c-11e7-8933-ac72891c3257"></item> 
    3230 <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> 
    3231 <item esid="f16f0c56-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f0c56-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip3']))" expt="PMIP-3" label="PmipPmipPmipOclim" mip="PMIP" nenmax="1" nexmax="-999" ny="1000" nymax="1000.0" preset="-1" rlid="efc0cc8e-5629-11e6-9079-ac72891c3257__00" tab="PMIP.PMIP-Oclim" title="PMIP, PMIP.PMIP-Oclim, PMIP-3" uid="940c9f20-267c-11e7-8933-ac72891c3257"></item> 
    3232 <item esid="f16f108e-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f108e-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip4']))" expt="PMIP-4" 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, PMIP-4" uid="940ca18c-267c-11e7-8933-ac72891c3257"></item> 
    3233 <item esid="f16f14c6-dd9e-11e6-b89b-ac72891c3257" esidComment="('f16f14c6-dd9e-11e6-b89b-ac72891c3257', 'grp', set(['Pmip5']))" expt="PMIP-5" 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, PMIP-5" uid="940ca3e4-267c-11e7-8933-ac72891c3257"></item> 
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     3467<item label="Cfmip2" ntot="102" tierMin="1" title="CFMIP Tier 1 continued" uid="f16d4718-dd9e-11e6-b89b-ac72891c3257"></item> 
     3468<item label="Cfmip3" ntot="837" tierMin="2" title="CFMIP Tier 2, forcing perturbations" uid="f16d5672-dd9e-11e6-b89b-ac72891c3257"></item> 
     3469<item label="Cfmip4" ntot="246" tierMin="2" title="CFMIP Tier 2, perturbed SST" uid="f16d72d8-dd9e-11e6-b89b-ac72891c3257"></item> 
     3470<item label="CMIP6" ntot="332" tierMin="1" title="CMIP6 historical" uid="f16fc70e-dd9e-11e6-b89b-ac72891c3257"></item> 
     3471<item label="Damip2" ntot="1026" tierMin="1" title="DAMIP detection and attribution experiments" uid="f16d8c96-dd9e-11e6-b89b-ac72891c3257"></item> 
     3472<item label="Damip3" ntot="513" tierMin="1" title="DAMIP aerosol" uid="f16d9470-dd9e-11e6-b89b-ac72891c3257"></item> 
     3473<item label="Damip4" ntot="160" tierMin="2" title="DAMIP SSP2.45 variations, tier 2" uid="f16d9880-dd9e-11e6-b89b-ac72891c3257"></item> 
     3474<item label="Damip5" ntot="513" tierMin="2" title="DAMIP historical variation, tier 2" uid="f16d9c7c-dd9e-11e6-b89b-ac72891c3257"></item> 
     3475<item label="Damip6" ntot="1539" tierMin="3" title="DAMIP historical variation, tier 3" uid="f16da38e-dd9e-11e6-b89b-ac72891c3257"></item> 
     3476<item label="Damip7" ntot="160" tierMin="3" title="DAMIP SSP2.45 variations, tier 3" uid="f16dae9c-dd9e-11e6-b89b-ac72891c3257"></item> 
     3477<item label="Damip8" ntot="1026" tierMin="3" title="DAMIP additional historical variation, tier 3" uid="f16db536-dd9e-11e6-b89b-ac72891c3257"></item> 
     3478<item label="DcppA" ntot="6260" tierMin="1" title="DCPP hindcasts" uid="f16dbbe4-dd9e-11e6-b89b-ac72891c3257"></item> 
     3479<item label="DcppB" ntot="50" tierMin="1" title="DCPP forecasts from present" uid="f16dcb34-dd9e-11e6-b89b-ac72891c3257"></item> 
     3480<item label="DcppC1" ntot="3550" tierMin="1" title="DCPP: response to anomaly patterns" uid="f16dcf30-dd9e-11e6-b89b-ac72891c3257"></item> 
     3481<item label="DcppC2" ntot="200" tierMin="3" title="DCPP: Atlantic sub-polar gyre" uid="f16df71c-dd9e-11e6-b89b-ac72891c3257"></item> 
     3482<item label="DcppC3" ntot="300" tierMin="1" title="DCPP volcanic perturbations" uid="f16dfb22-dd9e-11e6-b89b-ac72891c3257"></item> 
    35943483<item label="DECK" ntot="1540" tierMin="1" title="All DECK experiments" uid="f16fbb42-dd9e-11e6-b89b-ac72891c3257"></item> 
    3595 <item label="Fafmip1" ntot="210" tierMin="1" title="__unset__" uid="f16e0d74-dd9e-11e6-b89b-ac72891c3257"></item> 
    3596 <item label="Fafmip2" ntot="140" tierMin="2" title="__unset__" uid="f16e16de-dd9e-11e6-b89b-ac72891c3257"></item> 
     3484<item label="Fafmip1" ntot="210" tierMin="1" title="FAFMIP heat, stress and water: Tier 1" uid="f16e0d74-dd9e-11e6-b89b-ac72891c3257"></item> 
     3485<item label="Fafmip2" ntot="140" tierMin="2" title="FAFMIP Tier 2" uid="f16e16de-dd9e-11e6-b89b-ac72891c3257"></item> 
    35973486<item label="Geomip1" ntot="300" tierMin="1" title="__unset__" uid="f16e3222-dd9e-11e6-b89b-ac72891c3257"></item> 
    35983487<item label="Geomip2" ntot="486" tierMin="1" title="__unset__" uid="f16e3790-dd9e-11e6-b89b-ac72891c3257"></item> 
     
    42854174<item defaultPriority="3" deflate="0" deflate_level="0" description="Upward geothermal heat flux per unit area beneath land ice" frequency="fx" label="hfgeoubed" mipTable="IfxGre" modeling_realm="landIce" mtid="MIPtable::IfxGre" positive="" prov="ISMIP6 [IfxGre]" provNote="" rowIndex="4" shuffle="0" stid="9439f414-8b06-11e6-94d1-5404a60d96b5" title="Geothermal Heat flux beneath land ice" type="real" uid="d5b362fe-c78d-11e6-9b25-5404a60d96b5" vid="5914a1ea-9e49-11e5-803c-0d0b866b59f3"></item> 
    42864175<item defaultPriority="3" deflate="0" deflate_level="0" description="Upward geothermal heat flux per unit area beneath land ice" frequency="fx" label="hfgeoubed" mipTable="IfxAnt" modeling_realm="landIce" mtid="MIPtable::IfxAnt" positive="" prov="ISMIP6 [IfxAnt]" provNote="" rowIndex="4" shuffle="0" stid="943ca1c8-8b06-11e6-94d1-5404a60d96b5" title="Geothermal Heat flux beneath land ice" type="real" uid="d5b3755a-c78d-11e6-9b25-5404a60d96b5" vid="5914a1ea-9e49-11e5-803c-0d0b866b59f3"></item> 
    4287 <item defaultPriority="3" deflate="0" deflate_level="0" description="Upward geothermal heat flux per unit area beneath land ice" frequency="yr" label="hfgeoubed" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="29" shuffle="0" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Geothermal Heat flux beneath land ice" type="real" uid="d5b3f53e-c78d-11e6-9b25-5404a60d96b5" vid="5914a1ea-9e49-11e5-803c-0d0b866b59f3"></item> 
    4288 <item defaultPriority="3" deflate="0" deflate_level="0" description="Upward geothermal heat flux per unit area beneath land ice" frequency="yr" label="hfgeoubed" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="29" shuffle="0" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Geothermal Heat flux beneath land ice" type="real" uid="d5b48e04-c78d-11e6-9b25-5404a60d96b5" vid="5914a1ea-9e49-11e5-803c-0d0b866b59f3"></item> 
     4176<item defaultPriority="3" deflate="0" deflate_level="0" description="Upward geothermal heat flux per unit area beneath land ice" frequency="yr" label="hfgeoubed" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="29" shuffle="0" stid="9439f414-8b06-11e6-94d1-5404a60d96b5" title="Geothermal Heat flux beneath land ice" type="real" uid="d5b3f53e-c78d-11e6-9b25-5404a60d96b5" vid="5914a1ea-9e49-11e5-803c-0d0b866b59f3"></item> 
     4177<item defaultPriority="3" deflate="0" deflate_level="0" description="Upward geothermal heat flux per unit area beneath land ice" frequency="yr" label="hfgeoubed" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="29" shuffle="0" stid="943ca1c8-8b06-11e6-94d1-5404a60d96b5" title="Geothermal Heat flux beneath land ice" type="real" uid="d5b48e04-c78d-11e6-9b25-5404a60d96b5" vid="5914a1ea-9e49-11e5-803c-0d0b866b59f3"></item> 
    42894178<item defaultPriority="2" deflate="" deflate_level="" description="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 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; Iceberg thermodynamics&quot; refers to the addition or subtraction of mass due to surface and basal fluxes, i.e., due to melting, sublimation and fusion." frequency="mon" label="hfibthermds" mipTable="Omon" mipTableSection="Omon_3d" modeling_realm="ocean" mtid="MIPtable::Omon" positive="" processing="In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic &quot;XYZ&quot; dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. Report on native horizontal grid. If a function of depth, perform online remapping to depth or pressure, if not native vertical grid." prov="Omon ((isd.003))" provNote="Omon_3d" rowIndex="88" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" subGroup="Omon_3d" title="Heat Flux into Sea Water due to Iceberg Thermodynamics" type="real" uid="baa6a18e-e5dd-11e5-8482-ac72891c3257" vid="bd938fec017c18d3eee106db55f924c5"></item> 
    42904179<item defaultPriority="2" deflate="" deflate_level="" description="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 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; Iceberg thermodynamics&quot; refers to the addition or subtraction of mass due to surface and basal fluxes, i.e., due to melting, sublimation and fusion." frequency="mon" label="hfibthermds2d" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocean" mtid="MIPtable::Omon" positive="" processing="If only the vertically integrated heat flux is available, report as this 2-d field; otherwise the row above should be used." prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="89" shuffle="" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" subGroup="Omon_oth" title="Heat Flux into Sea Water due to Iceberg Thermodynamics" type="real" uid="baa6a5bc-e5dd-11e5-8482-ac72891c3257" vid="bd938fec017c18d3eee106db55f924c5"></item> 
     
    42954184<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The surface latent heat flux is the exchange of heat between the surface and the air on account of evaporation (including sublimation). In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." frequency="day" label="hfls" mipTable="day" mipTableSection="day_ss" modeling_realm="atmos" mtid="MIPtable::day" positive="up" prov="day ((isd.003))" provNote="day_ss" rowIndex="39" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="day_ss" title="Surface Upward Latent Heat Flux" type="real" uid="baaf0a9a-e5dd-11e5-8482-ac72891c3257" vid="95cbf6ac889c8fe7d92e20e8c34960d1"></item> 
    42964185<item defaultPriority="1" deflate="" deflate_level="" description="Latent heat flux" frequency="day" label="hfls" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="up" prov="LS3MIP [LEday]" provNote="" rowIndex="10" shuffle="" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Surface Upward Latent Heat Flux" type="real" uid="d227850e-4a9f-11e6-b84e-ac72891c3257" vid="95cbf6ac889c8fe7d92e20e8c34960d1"></item> 
    4297 <item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The surface latent heat flux is the exchange of heat between the surface and the air on account of evaporation (including sublimation). In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." frequency="mon" label="hfls" mipTable="ImonGre" modeling_realm="atmos" mtid="MIPtable::ImonGre" positive="up" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="19" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Upward Latent Heat Flux" type="real" uid="d5b2b688-c78d-11e6-9b25-5404a60d96b5" vid="95cbf6ac889c8fe7d92e20e8c34960d1"></item> 
    4298 <item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The surface latent heat flux is the exchange of heat between the surface and the air on account of evaporation (including sublimation). In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." frequency="mon" label="hfls" mipTable="ImonAnt" modeling_realm="atmos" mtid="MIPtable::ImonAnt" positive="up" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="19" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Upward Latent Heat Flux" type="real" uid="d5b32dc0-c78d-11e6-9b25-5404a60d96b5" vid="95cbf6ac889c8fe7d92e20e8c34960d1"></item> 
     4186<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The surface latent heat flux is the exchange of heat between the surface and the air on account of evaporation (including sublimation). In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." frequency="mon" label="hfls" mipTable="ImonGre" modeling_realm="landIce land" mtid="MIPtable::ImonGre" positive="up" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="19" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Upward Latent Heat Flux" type="real" uid="d5b2b688-c78d-11e6-9b25-5404a60d96b5" vid="95cbf6ac889c8fe7d92e20e8c34960d1"></item> 
     4187<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The surface latent heat flux is the exchange of heat between the surface and the air on account of evaporation (including sublimation). In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." frequency="mon" label="hfls" mipTable="ImonAnt" modeling_realm="landIce land" mtid="MIPtable::ImonAnt" positive="up" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="19" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Upward Latent Heat Flux" type="real" uid="d5b32dc0-c78d-11e6-9b25-5404a60d96b5" vid="95cbf6ac889c8fe7d92e20e8c34960d1"></item> 
    42994188<item defaultPriority="1" deflate="" deflate_level="" description="includes both evaporation and sublimation" frequency="3hrPt" label="hfls" mipTable="CF3hr" mipTableSection="CF3hr_grid" modeling_realm="atmos" mtid="MIPtable::CF3hr" positive="up" prov="CFMIP (CMIP5)" provNote="Amon_2d" rowIndex="232" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" subGroup="Amon_2d" title="Surface Upward Latent Heat Flux" type="real" uid="e0ab4502-4b7f-11e7-903f-5404a60d96b5" vid="95cbf6ac889c8fe7d92e20e8c34960d1"></item> 
    43004189<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="hflsIs" mipTable="LImon" mipTableSection="new" modeling_realm="landIce" mtid="MIPtable::LImon" positive="up" prov="ISMIP6 [new_LImon]" provNote="" rowIndex="22" shuffle="0" stid="f94a76ea-80ba-11e6-ab6e-5404a60d96b5" title="Ice Sheet Surface Upward Latent Heat Flux" type="real" uid="812113d6-bf17-11e6-b0d8-ac72891c3257" vid="538279b2-bf01-11e6-a554-ac72891c3257"></item> 
     
    43174206<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The surface sensible heat flux, also called &quot;turbulent&quot; heat flux, is the exchange of heat between the surface and the air by 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. 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." 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> 
    43184207<item defaultPriority="1" deflate="" deflate_level="" description="Sensible heat flux" frequency="day" label="hfss" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="up" prov="LS3MIP [LEday]" provNote="" rowIndex="11" shuffle="" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Surface Upward Sensible Heat Flux" type="real" uid="d2278996-4a9f-11e6-b84e-ac72891c3257" vid="a13ed886b17e20cdae8b89b9ff8e4610"></item> 
    4319 <item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The surface sensible heat flux, also called &quot;turbulent&quot; heat flux, is the exchange of heat between the surface and the air by 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. 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." frequency="mon" label="hfss" mipTable="ImonGre" modeling_realm="atmos" mtid="MIPtable::ImonGre" positive="up" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="20" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Upward Sensible Heat Flux" type="real" uid="d5b2ba20-c78d-11e6-9b25-5404a60d96b5" vid="a13ed886b17e20cdae8b89b9ff8e4610"></item> 
    4320 <item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The surface sensible heat flux, also called &quot;turbulent&quot; heat flux, is the exchange of heat between the surface and the air by 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. 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." frequency="mon" label="hfss" mipTable="ImonAnt" modeling_realm="atmos" mtid="MIPtable::ImonAnt" positive="up" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="20" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Upward Sensible Heat Flux" type="real" uid="d5b33158-c78d-11e6-9b25-5404a60d96b5" vid="a13ed886b17e20cdae8b89b9ff8e4610"></item> 
     4208<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The surface sensible heat flux, also called &quot;turbulent&quot; heat flux, is the exchange of heat between the surface and the air by 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. 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." frequency="mon" label="hfss" mipTable="ImonGre" modeling_realm="landIce land" mtid="MIPtable::ImonGre" positive="up" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="20" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Upward Sensible Heat Flux" type="real" uid="d5b2ba20-c78d-11e6-9b25-5404a60d96b5" vid="a13ed886b17e20cdae8b89b9ff8e4610"></item> 
     4209<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The surface sensible heat flux, also called &quot;turbulent&quot; heat flux, is the exchange of heat between the surface and the air by 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. 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." frequency="mon" label="hfss" mipTable="ImonAnt" modeling_realm="landIce land" mtid="MIPtable::ImonAnt" positive="up" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="20" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Upward Sensible Heat Flux" type="real" uid="d5b33158-c78d-11e6-9b25-5404a60d96b5" vid="a13ed886b17e20cdae8b89b9ff8e4610"></item> 
    43214210<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;Upward&quot; indicates a vector component which is positive when directed upward (negative downward). The surface sensible heat flux, also called &quot;turbulent&quot; heat flux, is the exchange of heat between the surface and the air by 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. 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." frequency="3hrPt" label="hfss" mipTable="CF3hr" mipTableSection="CF3hr_grid" modeling_realm="atmos" mtid="MIPtable::CF3hr" positive="up" prov="CFMIP (CMIP5)" provNote="Amon_2d" rowIndex="233" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" subGroup="Amon_2d" title="Surface Upward Sensible Heat Flux" type="real" uid="e0ab4872-4b7f-11e7-903f-5404a60d96b5" vid="a13ed886b17e20cdae8b89b9ff8e4610"></item> 
    43224211<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="hfssIs" mipTable="LImon" mipTableSection="new" modeling_realm="landIce" mtid="MIPtable::LImon" positive="up" prov="ISMIP6 [new_LImon]" provNote="" rowIndex="23" shuffle="0" stid="f94a76ea-80ba-11e6-ab6e-5404a60d96b5" title="Ice Sheet Surface Upward Sensible Heat Flux" type="real" uid="8121189a-bf17-11e6-b0d8-ac72891c3257" vid="53827c8c-bf01-11e6-a554-ac72891c3257"></item> 
     
    43424231<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="hursmax" mipTable="day" mipTableSection="day_ss" modeling_realm="atmos" mtid="MIPtable::day" positive="" processing="normally report this at 2 meters above the surface" prov="day ((isd.003))" provNote="day_ss" rowIndex="28" shuffle="" stid="f7e2a074-562c-11e6-a2a4-ac72891c3257" subGroup="day_ss" title="Surface Daily Maximum Relative Humidity" type="real" uid="5a071ff2-c77d-11e6-8a33-5404a60d96b5" vid="590f4196-9e49-11e5-803c-0d0b866b59f3"></item> 
    43434232<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> 
    4344 <item defaultPriority="1" deflate="0" deflate_level="0" description="minimum near-surface (usually, 2 meter) relative humidity (add cell_method attribute &quot;time: min&quot;)" frequency="mon" label="hursminCrop" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="8" shuffle="0" stid="f7e03122-562c-11e6-a2a4-ac72891c3257" title="Daily Minimum Near-Surface Relative Humidity over Crop Tile" type="real" uid="f32a805a-c38d-11e6-abc1-1b922e5e1118" vid="bf56baca-c14c-11e6-bb6a-ac72891c3257"></item> 
    4345 <item defaultPriority="1" deflate="0" deflate_level="0" description="minimum near-surface (usually, 2 meter) relative humidity (add cell_method attribute &quot;time: min&quot;)" frequency="day" label="hursminCrop" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="9" shuffle="0" stid="f7e59f36-562c-11e6-a2a4-ac72891c3257" title="Daily Minimum Near-Surface Relative Humidity over Crop Tile" type="real" uid="f32a8460-c38d-11e6-abc1-1b922e5e1118" vid="bf56baca-c14c-11e6-bb6a-ac72891c3257"></item> 
     4233<item defaultPriority="1" deflate="0" deflate_level="0" description="minimum near-surface (usually, 2 meter) relative humidity (add cell_method attribute &quot;time: min&quot;)" frequency="mon" label="hursminCrop" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="8" shuffle="0" stid="deffdb18-ce15-11e8-8bae-a44cc8186c64" title="Daily Minimum Near-Surface Relative Humidity over Crop Tile" type="real" uid="f32a805a-c38d-11e6-abc1-1b922e5e1118" vid="bf56baca-c14c-11e6-bb6a-ac72891c3257"></item> 
     4234<item defaultPriority="1" deflate="0" deflate_level="0" description="minimum near-surface (usually, 2 meter) relative humidity (add cell_method attribute &quot;time: min&quot;)" frequency="day" label="hursminCrop" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="9" shuffle="0" stid="e002acac-ce15-11e8-8bae-a44cc8186c64" title="Daily Minimum Near-Surface Relative Humidity over Crop Tile" type="real" uid="f32a8460-c38d-11e6-abc1-1b922e5e1118" vid="bf56baca-c14c-11e6-bb6a-ac72891c3257"></item> 
    43464235<item defaultPriority="1" deflate="0" deflate_level="0" description="Specific Humidity" frequency="3hrPt" label="hus" mipTable="E3hrPt" modeling_realm="atmos" mtid="MIPtable::E3hrPt" positive="" prov="RFMIP [aero_irf]" provNote="" rowIndex="33" shuffle="0" stid="f7dcede6-562c-11e6-a2a4-ac72891c3257" title="Specific Humidity" type="real" uid="6140a2aa-aa6a-11e6-9736-5404a60d96b5" vid="53f4724d228998d54191c73352532ce3"></item> 
    43474236<item defaultPriority="1" deflate="0" deflate_level="0" description="in Amon" frequency="mon" label="hus" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="HighResMIP [Amon_ext]" provNote="" rowIndex="17" shuffle="0" stid="6586d31a-6dfc-11e7-81fb-5404a60d96b5" title="Specific Humidity" type="real" uid="81d83384-aa6a-11e6-9736-5404a60d96b5" vid="53f4724d228998d54191c73352532ce3"></item> 
     
    43684257<item defaultPriority="1" deflate="" deflate_level="" description="This is sampled synoptically." frequency="3hrPt" label="huss" mipTable="3hr" modeling_realm="atmos" mtid="MIPtable::3hr" positive="" processing="normally, report at 2 meters above the surface" prov="3hr ((isd.003))" provNote="" rowIndex="24" shuffle="" stid="f7e8b996-562c-11e6-a2a4-ac72891c3257" title="Near-Surface Specific Humidity" type="real" uid="bab034a6-e5dd-11e5-8482-ac72891c3257" vid="ebfefc2ab8716ef597b128171b275945"></item> 
    43694258<item defaultPriority="1" deflate="0" deflate_level="0" description="Normally, the specific humidity should be reported at the 2 meter height" frequency="mon" label="hussLut" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="LUMIP [Lmon_Lut]" provNote="" rowIndex="13" shuffle="0" stid="fa26b836-267c-11e7-9bed-ac72891c3257" title="near-surface specific humidity on land use tile" type="real" uid="d22db992-4a9f-11e6-b84e-ac72891c3257" vid="59178a72-9e49-11e5-803c-0d0b866b59f3"></item> 
    4370 <item defaultPriority="3" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="iareafl" mipTable="IyrGre" modeling_realm="atmos" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="33" shuffle="0" stid="87a85d84-a3fd-11e6-bfbb-ac72891c3257" title="Area covered by floating ice shelves" type="real" uid="d5b40830-c78d-11e6-9b25-5404a60d96b5" vid="590e00b0-9e49-11e5-803c-0d0b866b59f3"></item> 
    4371 <item defaultPriority="3" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="iareafl" mipTable="IyrAnt" modeling_realm="atmos" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="33" shuffle="0" stid="87a85d84-a3fd-11e6-bfbb-ac72891c3257" title="Area covered by floating ice shelves" type="real" uid="d5b49ec6-c78d-11e6-9b25-5404a60d96b5" vid="590e00b0-9e49-11e5-803c-0d0b866b59f3"></item> 
    4372 <item defaultPriority="3" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="iareagr" mipTable="IyrGre" modeling_realm="atmos" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="32" shuffle="0" stid="884b287a-a3fd-11e6-bfbb-ac72891c3257" title="Area covered by grounded ice sheet" type="real" uid="d5b401b4-c78d-11e6-9b25-5404a60d96b5" vid="41468a3a-4f40-11e6-a814-ac72891c3257"></item> 
    4373 <item defaultPriority="3" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="iareagr" mipTable="IyrAnt" modeling_realm="atmos" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="32" shuffle="0" stid="884b287a-a3fd-11e6-bfbb-ac72891c3257" title="Area covered by grounded ice sheet" type="real" uid="d5b49a34-c78d-11e6-9b25-5404a60d96b5" vid="41468a3a-4f40-11e6-a814-ac72891c3257"></item> 
     4259<item defaultPriority="3" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="iareafl" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="33" shuffle="0" stid="87a85d84-a3fd-11e6-bfbb-ac72891c3257" title="Area covered by floating ice shelves" type="real" uid="d5b40830-c78d-11e6-9b25-5404a60d96b5" vid="590e00b0-9e49-11e5-803c-0d0b866b59f3"></item> 
     4260<item defaultPriority="3" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="iareafl" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="33" shuffle="0" stid="87a85d84-a3fd-11e6-bfbb-ac72891c3257" title="Area covered by floating ice shelves" type="real" uid="d5b49ec6-c78d-11e6-9b25-5404a60d96b5" vid="590e00b0-9e49-11e5-803c-0d0b866b59f3"></item> 
     4261<item defaultPriority="3" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="iareagr" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="32" shuffle="0" stid="884b287a-a3fd-11e6-bfbb-ac72891c3257" title="Area covered by grounded ice sheet" type="real" uid="d5b401b4-c78d-11e6-9b25-5404a60d96b5" vid="41468a3a-4f40-11e6-a814-ac72891c3257"></item> 
     4262<item defaultPriority="3" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="iareagr" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="32" shuffle="0" stid="884b287a-a3fd-11e6-bfbb-ac72891c3257" title="Area covered by grounded ice sheet" type="real" uid="d5b49a34-c78d-11e6-9b25-5404a60d96b5" vid="41468a3a-4f40-11e6-a814-ac72891c3257"></item> 
    43744263<item defaultPriority="3" deflate="0" deflate_level="0" description="Loss of ice mass resulting from surface melting. Computed as the total surface melt water on the land ice portion of the grid cell divided by land ice area in the grid cell." frequency="mon" label="icem" mipTable="ImonGre" modeling_realm="landIce" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="16" shuffle="0" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface ice melt flux" type="real" uid="d5b2ab98-c78d-11e6-9b25-5404a60d96b5" vid="590e1c1c-9e49-11e5-803c-0d0b866b59f3"></item> 
    43754264<item defaultPriority="3" deflate="0" deflate_level="0" description="Loss of ice mass resulting from surface melting. Computed as the total surface melt water on the land ice portion of the grid cell divided by land ice area in the grid cell." frequency="mon" label="icem" mipTable="ImonAnt" modeling_realm="landIce" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="16" shuffle="0" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface ice melt flux" type="real" uid="d5b322ee-c78d-11e6-9b25-5404a60d96b5" vid="590e1c1c-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    44304319<item defaultPriority="3" deflate="0" deflate_level="0" description="Total mass balance at the ice front (or vertical margin). It includes both iceberg calving and melt on vertical ice front" frequency="yr" label="lifmassbf" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="15" shuffle="0" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Land ice vertical front mass balance flux" type="real" uid="d5b3c0b4-c78d-11e6-9b25-5404a60d96b5" vid="59130394-9e49-11e5-803c-0d0b866b59f3"></item> 
    44314320<item defaultPriority="3" deflate="0" deflate_level="0" description="Total mass balance at the ice front (or vertical margin). It includes both iceberg calving and melt on vertical ice front" frequency="yr" label="lifmassbf" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="15" shuffle="0" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Land ice vertical front mass balance flux" type="real" uid="d5b45790-c78d-11e6-9b25-5404a60d96b5" vid="59130394-9e49-11e5-803c-0d0b866b59f3"></item> 
    4432 <item defaultPriority="2" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="lim" mipTable="IyrGre" modeling_realm="atmos" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="30" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Ice sheet mass" type="real" uid="d5b3f98a-c78d-11e6-9b25-5404a60d96b5" vid="41467ee6-4f40-11e6-a814-ac72891c3257"></item> 
    4433 <item defaultPriority="2" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="lim" mipTable="IyrAnt" modeling_realm="atmos" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="30" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Ice sheet mass" type="real" uid="d5b4921e-c78d-11e6-9b25-5404a60d96b5" vid="41467ee6-4f40-11e6-a814-ac72891c3257"></item> 
     4321<item defaultPriority="2" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="lim" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="30" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Ice sheet mass" type="real" uid="d5b3f98a-c78d-11e6-9b25-5404a60d96b5" vid="41467ee6-4f40-11e6-a814-ac72891c3257"></item> 
     4322<item defaultPriority="2" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="lim" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="30" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Ice sheet mass" type="real" uid="d5b4921e-c78d-11e6-9b25-5404a60d96b5" vid="41467ee6-4f40-11e6-a814-ac72891c3257"></item> 
    44344323<item defaultPriority="3" deflate="" deflate_level="" description="&quot;Calcareous phytoplankton&quot; are phytoplankton that produce calcite. Calcite is a mineral that is a polymorph of calcium carbonate. The chemical formula of calcite is CaCO3. 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." frequency="mon" label="limfecalc" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocnBgchem" mtid="MIPtable::Omon" positive="" prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="124" shuffle="" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" subGroup="Omon_oth" title="Iron Limitation of Calcareous Phytoplankton" type="real" uid="baa0449c-e5dd-11e5-8482-ac72891c3257" vid="4e0d59a6102625043f701d5527c44957"></item> 
    44354324<item defaultPriority="2" deflate="" deflate_level="" description="Diatoms are phytoplankton with an external skeleton made of silica. 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." frequency="mon" label="limfediat" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocnBgchem" mtid="MIPtable::Omon" positive="" prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="122" shuffle="" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" subGroup="Omon_oth" title="Iron Limitation of Diatoms" type="real" uid="baa03c54-e5dd-11e5-8482-ac72891c3257" vid="1dfd4bb59374157f2bcd5338c90a54b4"></item> 
     
    44474336<item defaultPriority="3" deflate="" deflate_level="" description="Phytoplankton are algae that grow 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 separately named components of the phytoplankton population. &quot;Nitrogen growth limitation&quot; means the ratio of the growth rate of a species population in the environment (where there is a finite availability of nitrogen) to the theoretical growth rate if there were no such limit on nitrogen availability." frequency="mon" label="limnmisc" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocnBgchem" mtid="MIPtable::Omon" positive="" prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="116" shuffle="" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" subGroup="Omon_oth" title="Nitrogen Limitation of Other Phytoplankton" type="real" uid="baa0237c-e5dd-11e5-8482-ac72891c3257" vid="ba8065ebbce734a631b427699ddbaf7e"></item> 
    44484337<item defaultPriority="3" deflate="" deflate_level="" 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;Nitrogen growth limitation&quot; means the ratio of the growth rate of a species population in the environment (where there is a finite availability of nitrogen) to the theoretical growth rate if there were no such limit on nitrogen availability." frequency="mon" label="limnpico" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocnBgchem" mtid="MIPtable::Omon" positive="" prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="115" shuffle="" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" subGroup="Omon_oth" title="Nitrogen Limitation of Picophytoplankton" type="real" uid="baa01f62-e5dd-11e5-8482-ac72891c3257" vid="fd9db3b1f9e7f5e778bebf3c16a344f6"></item> 
    4449 <item defaultPriority="2" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="limnsw" mipTable="IyrGre" modeling_realm="atmos" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="31" shuffle="0" stid="884b287a-a3fd-11e6-bfbb-ac72891c3257" title="Ice sheet mass that does not displace sea water" type="real" uid="d5b3fda4-c78d-11e6-9b25-5404a60d96b5" vid="590f019a-9e49-11e5-803c-0d0b866b59f3"></item> 
    4450 <item defaultPriority="2" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="limnsw" mipTable="IyrAnt" modeling_realm="atmos" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="31" shuffle="0" stid="884b287a-a3fd-11e6-bfbb-ac72891c3257" title="Ice sheet mass that does not displace sea water" type="real" uid="d5b4962e-c78d-11e6-9b25-5404a60d96b5" vid="590f019a-9e49-11e5-803c-0d0b866b59f3"></item> 
     4338<item defaultPriority="2" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="limnsw" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="31" shuffle="0" stid="884b287a-a3fd-11e6-bfbb-ac72891c3257" title="Ice sheet mass that does not displace sea water" type="real" uid="d5b3fda4-c78d-11e6-9b25-5404a60d96b5" vid="590f019a-9e49-11e5-803c-0d0b866b59f3"></item> 
     4339<item defaultPriority="2" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="limnsw" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="31" shuffle="0" stid="884b287a-a3fd-11e6-bfbb-ac72891c3257" title="Ice sheet mass that does not displace sea water" type="real" uid="d5b4962e-c78d-11e6-9b25-5404a60d96b5" vid="590f019a-9e49-11e5-803c-0d0b866b59f3"></item> 
    44514340<item defaultPriority="2" deflate="0" deflate_level="0" description="quantity averaged over floating ice shelf" frequency="mon" label="litempbotfl" mipTable="ImonGre" modeling_realm="landIce" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="9" shuffle="0" stid="943a75d8-8b06-11e6-94d1-5404a60d96b5" title="Basal temperature of floating ice shelf" type="real" uid="d5b290ae-c78d-11e6-9b25-5404a60d96b5" vid="4144f026-4f40-11e6-a814-ac72891c3257"></item> 
    44524341<item defaultPriority="2" deflate="0" deflate_level="0" description="quantity averaged over floating ice shelf" frequency="mon" label="litempbotfl" mipTable="ImonAnt" modeling_realm="landIce" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="9" shuffle="0" stid="943a846a-8b06-11e6-94d1-5404a60d96b5" title="Basal temperature of floating ice shelf" type="real" uid="d5b3076e-c78d-11e6-9b25-5404a60d96b5" vid="4144f026-4f40-11e6-a814-ac72891c3257"></item> 
     
    44624351<item defaultPriority="2" deflate="0" deflate_level="0" description="quantity averaged over ice sheet only, to avoid contamination from other surfaces (eg: permafrost)" frequency="yr" label="litemptop" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="8" shuffle="0" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Temperature at top of ice sheet model" type="real" uid="d5b43d14-c78d-11e6-9b25-5404a60d96b5" vid="14277100-b574-11e6-9ed4-5404a60d96b5"></item> 
    44634352<item defaultPriority="2" 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="litemptopIs" mipTable="LImon" mipTableSection="new" modeling_realm="landIce" mtid="MIPtable::LImon" positive="" prov="ISMIP6 [new_LImon]" provNote="" rowIndex="7" shuffle="0" stid="f94a76ea-80ba-11e6-ab6e-5404a60d96b5" title="Ice Sheet Temperature at top of ice sheet model" type="real" uid="8120ca5c-bf17-11e6-b0d8-ac72891c3257" vid="538248ca-bf01-11e6-a554-ac72891c3257"></item> 
    4464 <item defaultPriority="2" deflate="0" deflate_level="0" description="The thickness of the ice sheet" frequency="fx" label="lithk" mipTable="IfxGre" modeling_realm="landIce" mtid="MIPtable::IfxGre" positive="" prov="ISMIP6 [IfxGre]" provNote="" rowIndex="6" shuffle="0" stid="9439f414-8b06-11e6-94d1-5404a60d96b5" title="Ice Sheet Thickness" type="real" uid="d5b36a2e-c78d-11e6-9b25-5404a60d96b5" vid="59176b14-9e49-11e5-803c-0d0b866b59f3"></item> 
    4465 <item defaultPriority="2" deflate="0" deflate_level="0" description="The thickness of the ice sheet" frequency="fx" label="lithk" mipTable="IfxAnt" modeling_realm="landIce" mtid="MIPtable::IfxAnt" positive="" prov="ISMIP6 [IfxAnt]" provNote="" rowIndex="6" shuffle="0" stid="943ca1c8-8b06-11e6-94d1-5404a60d96b5" title="Ice Sheet Thickness" type="real" uid="d5b37ca8-c78d-11e6-9b25-5404a60d96b5" vid="59176b14-9e49-11e5-803c-0d0b866b59f3"></item> 
    4466 <item defaultPriority="2" deflate="0" deflate_level="0" description="This is needed in case ice sheet thickness changes in time" frequency="yr" label="lithk" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="5" shuffle="0" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Ice Sheet Thickness" type="real" uid="d5b3990e-c78d-11e6-9b25-5404a60d96b5" vid="59176b14-9e49-11e5-803c-0d0b866b59f3"></item> 
    4467 <item defaultPriority="2" deflate="0" deflate_level="0" description="This is needed in case ice sheet thickness changes in time" frequency="yr" label="lithk" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="5" shuffle="0" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Ice Sheet Thickness" type="real" uid="d5b43076-c78d-11e6-9b25-5404a60d96b5" vid="59176b14-9e49-11e5-803c-0d0b866b59f3"></item> 
     4353<item defaultPriority="2" deflate="0" deflate_level="0" description="The thickness of the ice sheet" frequency="fx" label="lithk" mipTable="IfxGre" modeling_realm="landIce" mtid="MIPtable::IfxGre" positive="" prov="ISMIP6 [IfxGre]" provNote="" rowIndex="6" shuffle="0" stid="540049aa-ce0e-11e8-8bae-a44cc8186c64" title="Ice Sheet Thickness" type="real" uid="d5b36a2e-c78d-11e6-9b25-5404a60d96b5" vid="59176b14-9e49-11e5-803c-0d0b866b59f3"></item> 
     4354<item defaultPriority="2" deflate="0" deflate_level="0" description="The thickness of the ice sheet" frequency="fx" label="lithk" mipTable="IfxAnt" modeling_realm="landIce" mtid="MIPtable::IfxAnt" positive="" prov="ISMIP6 [IfxAnt]" provNote="" rowIndex="6" shuffle="0" stid="540049ab-ce0e-11e8-8bae-a44cc8186c64" title="Ice Sheet Thickness" type="real" uid="d5b37ca8-c78d-11e6-9b25-5404a60d96b5" vid="59176b14-9e49-11e5-803c-0d0b866b59f3"></item> 
     4355<item defaultPriority="2" deflate="0" deflate_level="0" description="This is needed in case ice sheet thickness changes in time" frequency="yr" label="lithk" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="5" shuffle="0" stid="9439f414-8b06-11e6-94d1-5404a60d96b5" title="Ice Sheet Thickness" type="real" uid="d5b3990e-c78d-11e6-9b25-5404a60d96b5" vid="59176b14-9e49-11e5-803c-0d0b866b59f3"></item> 
     4356<item defaultPriority="2" deflate="0" deflate_level="0" description="This is needed in case ice sheet thickness changes in time" frequency="yr" label="lithk" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="5" shuffle="0" stid="943ca1c8-8b06-11e6-94d1-5404a60d96b5" title="Ice Sheet Thickness" type="real" uid="d5b43076-c78d-11e6-9b25-5404a60d96b5" vid="59176b14-9e49-11e5-803c-0d0b866b59f3"></item> 
    44684357<item defaultPriority="1" deflate="0" deflate_level="0" 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 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. 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)." frequency="day" label="loadbc" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="CFMIP [aeroDay_2d]" provNote="" rowIndex="7" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Load of Black Carbon Aerosol" type="real" uid="8b8b08ee-4a5b-11e6-9cd2-ac72891c3257" vid="63f4c915f87b16a8be343d68da4cb588"></item> 
    44694358<item defaultPriority="1" deflate="0" deflate_level="0" 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." frequency="mon" label="loaddust" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="PMIP [PMIP-aero-02]" provNote="" rowIndex="28" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Load of Dust" type="real" uid="6d5b0b84-a39e-11e6-8a8c-ac72891c3257" vid="c23a39645d860d5a2d7f34ea91d1fd82"></item> 
     
    45374426<item defaultPriority="1" deflate="0" deflate_level="0" description="subsurface_runoff_flux" frequency="day" label="mrrob" mipTable="Eday" modeling_realm="land" mtid="MIPtable::Eday" positive="" prov="LS3MIP [LWday]" provNote="" rowIndex="21" shuffle="0" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Subsurface runoff" type="real" uid="d22844da-4a9f-11e6-b84e-ac72891c3257" vid="5914f050-9e49-11e5-803c-0d0b866b59f3"></item> 
    45384427<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="mrroIs" mipTable="LImon" mipTableSection="new" modeling_realm="landIce" mtid="MIPtable::LImon" positive="" prov="ISMIP6 [new_LImon]" provNote="" rowIndex="16" shuffle="0" stid="f94a76ea-80ba-11e6-ab6e-5404a60d96b5" title="Ice Sheet Total Run-off" type="real" uid="132b3a2e-be44-11e6-9e13-f9e3356200b3" vid="538266e8-bf01-11e6-a554-ac72891c3257"></item> 
    4539 <item defaultPriority="1" deflate="0" deflate_level="0" description="Runoff flux over land ice is the difference between any available liquid water in the snowpack less any refreezing. Computed as the sum of rainfall and melt of snow or ice less any refreezing or water retained in the snowpack" frequency="mon" label="mrroLi" mipTable="ImonGre" modeling_realm="atmos" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="18" shuffle="0" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Land Ice Runoff Flux" type="real" uid="d5b2b2dc-c78d-11e6-9b25-5404a60d96b5" vid="41455e80-4f40-11e6-a814-ac72891c3257"></item> 
    4540 <item defaultPriority="1" deflate="0" deflate_level="0" description="Runoff flux over land ice is the difference between any available liquid water in the snowpack less any refreezing. Computed as the sum of rainfall and melt of snow or ice less any refreezing or water retained in the snowpack" frequency="mon" label="mrroLi" mipTable="ImonAnt" modeling_realm="atmos" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="18" shuffle="0" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Land Ice Runoff Flux" type="real" uid="d5b32a1e-c78d-11e6-9b25-5404a60d96b5" vid="41455e80-4f40-11e6-a814-ac72891c3257"></item> 
     4428<item defaultPriority="1" deflate="0" deflate_level="0" description="Runoff flux over land ice is the difference between any available liquid water in the snowpack less any refreezing. Computed as the sum of rainfall and melt of snow or ice less any refreezing or water retained in the snowpack" frequency="mon" label="mrroLi" mipTable="ImonGre" modeling_realm="landIce land" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="18" shuffle="0" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Land Ice Runoff Flux" type="real" uid="d5b2b2dc-c78d-11e6-9b25-5404a60d96b5" vid="41455e80-4f40-11e6-a814-ac72891c3257"></item> 
     4429<item defaultPriority="1" deflate="0" deflate_level="0" description="Runoff flux over land ice is the difference between any available liquid water in the snowpack less any refreezing. Computed as the sum of rainfall and melt of snow or ice less any refreezing or water retained in the snowpack" frequency="mon" label="mrroLi" mipTable="ImonAnt" modeling_realm="landIce land" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="18" shuffle="0" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Land Ice Runoff Flux" type="real" uid="d5b32a1e-c78d-11e6-9b25-5404a60d96b5" vid="41455e80-4f40-11e6-a814-ac72891c3257"></item> 
    45414430<item defaultPriority="1" deflate="0" deflate_level="0" description="the total runoff (including &quot;drainage&quot; through the base of the soil model) leaving the land use tile portion of the grid cell" frequency="mon" label="mrroLut" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="LUMIP [Lmon_Lut]" provNote="" rowIndex="21" shuffle="0" stid="e9fa6830-c1ce-11e6-8067-ac72891c3257" title="Total runoff from land use tile" type="real" uid="d22ddfda-4a9f-11e6-b84e-ac72891c3257" vid="5913bc80-9e49-11e5-803c-0d0b866b59f3"></item> 
    45424431<item defaultPriority="1" deflate="" deflate_level="" description="the total surface runoff leaving the land portion of the grid cell." frequency="mon" label="mrros" mipTable="Lmon" modeling_realm="land" mtid="MIPtable::Lmon" positive="" prov="Lmon ((isd.003))" provNote="" rowIndex="17" shuffle="" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Surface Runoff" type="real" uid="bab19ff8-e5dd-11e5-8482-ac72891c3257" vid="26a31ad76858198bd4d719aafeebe801"></item> 
     
    46424531<item defaultPriority="1" deflate="" deflate_level="" description="ONLY provide the sum of the following reactions: (i) O(1D)+H2O; (ii) O3+HO2; (iii) O3+OH; (iv) O3+alkenes (isoprene, ethene,...)" frequency="mon" label="o3loss" 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="O3 destruction rate" type="real" uid="19bec7d6-81b1-11e6-92de-ac72891c3257" vid="8f702d9afa69b3f0e0fb2a64470e12d8"></item> 
    46434532<item defaultPriority="1" deflate="" deflate_level="" description="ONLY provide the sum of all the HO2/RO2 + NO reactions (as k*[HO2]*[NO])" frequency="mon" label="o3prod" 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="O3 production rate" type="real" uid="19be78c6-81b1-11e6-92de-ac72891c3257" vid="9799d95c5c691eec9bb4c1bf9b050191"></item> 
    4644 <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="real" uid="fdb19130-96ec-11e6-b81e-c9e268aff03a" vid="218a6b28-8995-11e6-b63d-5404a60d96b5"></item> 
     4533<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="Stratospheric Ozone Tracer Volume Mixing Ratio" type="real" uid="fdb19130-96ec-11e6-b81e-c9e268aff03a" vid="218a6b28-8995-11e6-b63d-5404a60d96b5"></item> 
    46454534<item defaultPriority="1" deflate="" deflate_level="" description="The phrase &quot;square_of_X&quot; means X*X. Frequency is the number of oscillations of a wave per unit time. Brunt-Vaisala frequency is also sometimes called &quot;buoyancy frequency&quot; and is a measure of the vertical stratification of the medium." frequency="mon" label="obvfsq" mipTable="Omon" mipTableSection="Omon_3d" modeling_realm="ocean" mtid="MIPtable::Omon" positive="" processing="Report on native horizontal grid as well as on a spherical latitude/longitude grid. Online mapping to depth/pressure vertical grid if depth or pressure are not native." prov="Omon ((isd.003))" provNote="Omon_3d" rowIndex="32" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" subGroup="Omon_3d" title="Square of Brunt Vaisala Frequency in Sea Water" type="real" uid="1aab5d20-b006-11e6-9289-ac72891c3257" vid="d4eeac2e-b00f-11e6-a1f0-ac72891c3257"></item> 
    46464535<item defaultPriority="3" deflate="" deflate_level="" description="Organic Carbon supply to ocean through runoff (separate from gas exchange)" frequency="mon" label="ocfriver" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocnBgchem" mtid="MIPtable::Omon" positive="" prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="166" shuffle="" stid="f9495c2e-80ba-11e6-ab6e-5404a60d96b5" subGroup="Omon_oth" title="Flux of Organic Carbon Into Ocean Surface by Runoff" type="real" uid="baa0f57c-e5dd-11e5-8482-ac72891c3257" vid="5be0620fea71e2541aa08aac57ed9243"></item> 
     
    48304719<item defaultPriority="1" deflate="" deflate_level="" description="at surface; includes both liquid and solid phases." frequency="3hrPt" label="prc" mipTable="CF3hr" mipTableSection="CF3hr_grid" modeling_realm="atmos" mtid="MIPtable::CF3hr" positive="" prov="CFMIP (CMIP5)" provNote="Amon_2d" rowIndex="227" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" subGroup="Amon_2d" title="Convective Precipitation" type="real" uid="e0ab4d54-4b7f-11e7-903f-5404a60d96b5" vid="aa2bea81f238ad8f2c35a7e16ad97801"></item> 
    48314720<item defaultPriority="2" deflate="" deflate_level="" description="In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." frequency="3hrPt" label="prcprof" mipTable="CF3hr" mipTableSection="CF3hr_grid" modeling_realm="atmos" mtid="MIPtable::CF3hr" positive="" processing="report on model half-levels" prov="CF3hr ((isd.003))" provNote="CF3hr_grid" rowIndex="32" shuffle="" stid="f7dc8770-562c-11e6-a2a4-ac72891c3257" subGroup="cf3hr_grid" title="Convective Rainfall Flux" type="real" uid="bab40e64-e5dd-11e5-8482-ac72891c3257" vid="efca52ebca27f2ee5c0c7926f776ac1d"></item> 
    4832 <item defaultPriority="1" deflate="0" deflate_level="0" description="includes both liquid and solid phases" frequency="mon" label="prCrop" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="10" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Precipitation over Crop Tile" type="real" uid="124a1b8a-c14f-11e6-bb78-ac72891c3257" vid="81f029ba-b63d-11e6-98cb-ac72891c3257"></item> 
    4833 <item defaultPriority="1" deflate="0" deflate_level="0" description="includes both liquid and solid phases" frequency="day" label="prCrop" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="11" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Precipitation over Crop Tile" type="real" uid="2eb1b640-b64e-11e6-b9ee-ac72891c3257" vid="81f029ba-b63d-11e6-98cb-ac72891c3257"></item> 
     4721<item defaultPriority="1" deflate="0" deflate_level="0" description="includes both liquid and solid phases" frequency="mon" label="prCrop" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="10" shuffle="0" stid="fa240aaa-267c-11e7-9bed-ac72891c3257" title="Precipitation over Crop Tile" type="real" uid="124a1b8a-c14f-11e6-bb78-ac72891c3257" vid="81f029ba-b63d-11e6-98cb-ac72891c3257"></item> 
     4722<item defaultPriority="1" deflate="0" deflate_level="0" description="includes both liquid and solid phases" frequency="day" label="prCrop" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="11" shuffle="0" stid="fa240aaa-267c-11e7-9bed-ac72891c3257" title="Precipitation over Crop Tile" type="real" uid="2eb1b640-b64e-11e6-b9ee-ac72891c3257" vid="81f029ba-b63d-11e6-98cb-ac72891c3257"></item> 
    48344723<item defaultPriority="1" deflate="0" deflate_level="0" description="Shallow convection precipitation flux" frequency="3hr" label="prcsh" mipTable="E3hr" modeling_realm="atmos" mtid="MIPtable::E3hr" positive="" prov="HighResMIP [3hr_extr]" provNote="" rowIndex="16" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Precipitation Flux from Shallow Convection" type="real" uid="8bae892c-4a5b-11e6-9cd2-ac72891c3257" vid="590d6e02-9e49-11e5-803c-0d0b866b59f3"></item> 
    48354724<item defaultPriority="1" deflate="0" deflate_level="0" description="In accordance with common usage in geophysical disciplines, &quot;flux&quot; implies per unit area, called &quot;flux density&quot; in physics." frequency="mon" label="prhmax" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="DCPP [DCPP-mon]" provNote="" rowIndex="48" shuffle="0" stid="b639160c-c69e-11e6-9990-ac72891c3257" title="Maximum Hourly Precipitation Rate" type="real" uid="8b91ffaa-4a5b-11e6-9cd2-ac72891c3257" vid="7553003ead183dd3276108b6311a337f"></item> 
     
    48414730<item defaultPriority="2" deflate="" deflate_level="" description="computed as the total mass of liquid water falling as liquid rain  into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell." frequency="mon" label="prra" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="atmos" mtid="MIPtable::Omon" positive="" processing="Report on native horizontal grid." prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="61" shuffle="" stid="f948921c-80ba-11e6-ab6e-5404a60d96b5" subGroup="Omon_oth" title="Rainfall Flux where Ice Free Ocean over Sea" type="real" uid="7c61e914-1ab7-11e7-8dfc-5404a60d96b5" vid="5912cab4-9e49-11e5-803c-0d0b866b59f3"></item> 
    48424731<item defaultPriority="2" deflate="" deflate_level="" description="rainfall_flux" frequency="day" label="prra" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="LS3MIP [LWday]" provNote="" rowIndex="5" shuffle="" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Rainfall Flux over Land" type="real" uid="d227fb60-4a9f-11e6-b84e-ac72891c3257" vid="5912cab4-9e49-11e5-803c-0d0b866b59f3"></item> 
    4843 <item defaultPriority="1" deflate="" deflate_level="" description="over Land Ice//quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods" frequency="mon" label="prra" mipTable="ImonGre" modeling_realm="atmos" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="12" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Rainfall Flux over Land Ice" type="real" uid="d5b29cde-c78d-11e6-9b25-5404a60d96b5" vid="5912cab4-9e49-11e5-803c-0d0b866b59f3"></item> 
    4844 <item defaultPriority="2" deflate="" deflate_level="" description="over Land Ice//quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods" frequency="mon" label="prra" mipTable="ImonAnt" modeling_realm="atmos" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="12" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Rainfall Flux over Land Ice" type="real" uid="d5b3136c-c78d-11e6-9b25-5404a60d96b5" vid="5912cab4-9e49-11e5-803c-0d0b866b59f3"></item> 
     4732<item defaultPriority="1" deflate="" deflate_level="" description="over Land Ice//quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods" frequency="mon" label="prra" mipTable="ImonGre" modeling_realm="landIce land" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="12" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Rainfall Flux over Land Ice" type="real" uid="d5b29cde-c78d-11e6-9b25-5404a60d96b5" vid="5912cab4-9e49-11e5-803c-0d0b866b59f3"></item> 
     4733<item defaultPriority="2" deflate="" deflate_level="" description="over Land Ice//quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods" frequency="mon" label="prra" mipTable="ImonAnt" modeling_realm="landIce land" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="12" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Rainfall Flux over Land Ice" type="real" uid="d5b3136c-c78d-11e6-9b25-5404a60d96b5" vid="5912cab4-9e49-11e5-803c-0d0b866b59f3"></item> 
    48454734<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="prraIs" mipTable="LImon" mipTableSection="new" modeling_realm="landIce" mtid="MIPtable::LImon" positive="" prov="ISMIP6 [new_LImon]" provNote="" rowIndex="10" shuffle="0" stid="f94a76ea-80ba-11e6-ab6e-5404a60d96b5" title="Ice Sheet Rainfall rate" type="real" uid="8120d9de-bf17-11e6-b0d8-ac72891c3257" vid="5382550e-bf01-11e6-a554-ac72891c3257"></item> 
    48464735<item defaultPriority="1" deflate="0" deflate_level="0" description="Convective Rainfall rate" frequency="3hr" label="prrc" mipTable="E3hr" modeling_realm="atmos" mtid="MIPtable::E3hr" positive="" prov="LS3MIP [L3hr]" provNote="" rowIndex="15" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Convective Rainfall rate" type="real" uid="7b1a4246-a220-11e6-a33f-ac72891c3257" vid="5917e2ba-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    48524741<item defaultPriority="1" deflate="" deflate_level="" description="at surface; includes precipitation of all forms of water in the solid phase" frequency="mon" label="prsn" mipTable="Amon" mipTableSection="Amon_2d" modeling_realm="atmos" mtid="MIPtable::Amon" positive="" prov="Amon ((isd.003))" provNote="Amon_2d" rowIndex="26" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="Amon_2d" title="Snowfall Flux" type="real" uid="bab42b88-e5dd-11e5-8482-ac72891c3257" vid="051919eddec810e292c883205c944ceb"></item> 
    48534742<item defaultPriority="1" deflate="" deflate_level="" description="at surface; includes precipitation of all forms of water in the solid phase" frequency="day" label="prsn" mipTable="day" mipTableSection="day_ss" modeling_realm="atmos" mtid="MIPtable::day" positive="" prov="day ((isd.003))" provNote="day_ss" rowIndex="34" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="day_ss" title="Snowfall Flux" type="real" uid="bab43b50-e5dd-11e5-8482-ac72891c3257" vid="051919eddec810e292c883205c944ceb"></item> 
    4854 <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="prsn" mipTable="ImonGre" modeling_realm="atmos" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="11" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Snowfall Flux" type="real" uid="d5b2982e-c78d-11e6-9b25-5404a60d96b5" vid="051919eddec810e292c883205c944ceb"></item> 
    4855 <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="prsn" mipTable="ImonAnt" modeling_realm="atmos" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="11" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Snowfall Flux" type="real" uid="d5b30fc0-c78d-11e6-9b25-5404a60d96b5" vid="051919eddec810e292c883205c944ceb"></item> 
     4743<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="prsn" mipTable="ImonGre" modeling_realm="landIce land" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="11" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Snowfall Flux" type="real" uid="d5b2982e-c78d-11e6-9b25-5404a60d96b5" vid="051919eddec810e292c883205c944ceb"></item> 
     4744<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="prsn" mipTable="ImonAnt" modeling_realm="landIce land" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="11" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Snowfall Flux" type="real" uid="d5b30fc0-c78d-11e6-9b25-5404a60d96b5" vid="051919eddec810e292c883205c944ceb"></item> 
    48564745<item defaultPriority="1" deflate="" deflate_level="" description="at surface; includes precipitation of all forms of water in the solid phase" frequency="3hrPt" label="prsn" mipTable="CF3hr" mipTableSection="CF3hr_grid" modeling_realm="atmos" mtid="MIPtable::CF3hr" positive="" prov="CFMIP (CMIP5)" provNote="Amon_2d" rowIndex="226" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" subGroup="Amon_2d" title="Snowfall Flux" type="real" uid="e0ab4fc0-4b7f-11e7-903f-5404a60d96b5" vid="051919eddec810e292c883205c944ceb"></item> 
    48574746<item defaultPriority="1" deflate="0" deflate_level="0" description="Precipitation mass flux of water molecules that contain the oxygen-17 isotope (H2 17O), including solid phase only." frequency="mon" label="prsn17O" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="PMIP [PMIP-Amon-02]" provNote="" rowIndex="11" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Precipitation Flux of Snow and Ice containing Oxygen-17 (H2 17O)" type="real" uid="6f68c1fe-9acb-11e6-b7ee-ac72891c3257" vid="591401a4-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    49624851<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &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." frequency="mon" label="rlds" mipTable="Amon" mipTableSection="Amon_2d" modeling_realm="atmos" mtid="MIPtable::Amon" positive="down" prov="Amon ((isd.003))" provNote="Amon_2d" rowIndex="34" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="Amon_2d" title="Surface Downwelling Longwave Radiation" type="real" uid="bab52da8-e5dd-11e5-8482-ac72891c3257" vid="70d7d6fc0e9c2f14624a0270bf2b99b9"></item> 
    49634852<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &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." frequency="day" label="rlds" mipTable="day" mipTableSection="day_ss" modeling_realm="atmos" mtid="MIPtable::day" positive="down" prov="day ((isd.003))" provNote="day_ss" rowIndex="41" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="day_ss" title="Surface Downwelling Longwave Radiation" type="real" uid="bab538d4-e5dd-11e5-8482-ac72891c3257" vid="70d7d6fc0e9c2f14624a0270bf2b99b9"></item> 
    4964 <item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &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." frequency="mon" label="rlds" mipTable="ImonGre" modeling_realm="atmos" mtid="MIPtable::ImonGre" positive="down" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="23" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Downwelling Longwave Radiation" type="real" uid="d5b2c4e8-c78d-11e6-9b25-5404a60d96b5" vid="70d7d6fc0e9c2f14624a0270bf2b99b9"></item> 
    4965 <item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &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." frequency="mon" label="rlds" mipTable="ImonAnt" modeling_realm="atmos" mtid="MIPtable::ImonAnt" positive="down" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="23" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Downwelling Longwave Radiation" type="real" uid="d5b33c0c-c78d-11e6-9b25-5404a60d96b5" vid="70d7d6fc0e9c2f14624a0270bf2b99b9"></item> 
     4853<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &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." frequency="mon" label="rlds" mipTable="ImonGre" modeling_realm="landIce land" mtid="MIPtable::ImonGre" positive="down" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="23" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Downwelling Longwave Radiation" type="real" uid="d5b2c4e8-c78d-11e6-9b25-5404a60d96b5" vid="70d7d6fc0e9c2f14624a0270bf2b99b9"></item> 
     4854<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &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." frequency="mon" label="rlds" mipTable="ImonAnt" modeling_realm="landIce land" mtid="MIPtable::ImonAnt" positive="down" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="23" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Downwelling Longwave Radiation" type="real" uid="d5b33c0c-c78d-11e6-9b25-5404a60d96b5" vid="70d7d6fc0e9c2f14624a0270bf2b99b9"></item> 
    49664855<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &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." frequency="3hrPt" label="rlds" mipTable="CF3hr" mipTableSection="CF3hr_grid" modeling_realm="atmos" mtid="MIPtable::CF3hr" positive="down" prov="CFMIP (CMIP5)" provNote="Amon_2d" rowIndex="234" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" subGroup="Amon_2d" title="Surface Downwelling Longwave Radiation" type="real" uid="e0ab54ac-4b7f-11e7-903f-5404a60d96b5" vid="70d7d6fc0e9c2f14624a0270bf2b99b9"></item> 
    49674856<item defaultPriority="1" deflate="" deflate_level="" description="Surface downwelling clear-sky longwave radiation" frequency="subhrPt" label="rldscs" 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="1040" shuffle="" stid="63c0a932-15f2-11e7-87e0-5404a60d96b5" title="Surface Downwelling Clear-Sky Longwave Radiation" type="real" uid="800903fe-f906-11e6-a176-5404a60d96b5" vid="7b2d1e1a3ece1169d8ac61af4b758ed2"></item> 
     
    49864875<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;longwave&quot; means longwave 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." frequency="day" label="rlus" mipTable="day" mipTableSection="day_ss" modeling_realm="atmos" mtid="MIPtable::day" positive="up" prov="day ((isd.003))" provNote="day_ss" rowIndex="42" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="day_ss" title="Surface Upwelling Longwave Radiation" type="real" uid="bab57f92-e5dd-11e5-8482-ac72891c3257" vid="89027ee0079acb709750ddeac1c08899"></item> 
    49874876<item defaultPriority="1" deflate="" deflate_level="" description="This is the 3-hour mean flux." frequency="3hr" label="rlus" mipTable="3hr" modeling_realm="atmos" mtid="MIPtable::3hr" positive="up" prov="3hr ((isd.003))" provNote="" rowIndex="19" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Surface Upwelling Longwave Radiation" type="real" uid="bab59202-e5dd-11e5-8482-ac72891c3257" vid="89027ee0079acb709750ddeac1c08899"></item> 
    4988 <item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;longwave&quot; means longwave 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." frequency="mon" label="rlus" mipTable="ImonGre" modeling_realm="atmos" mtid="MIPtable::ImonGre" positive="up" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="24" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Upwelling Longwave Radiation" type="real" uid="d5b2c8a8-c78d-11e6-9b25-5404a60d96b5" vid="89027ee0079acb709750ddeac1c08899"></item> 
    4989 <item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;longwave&quot; means longwave 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." frequency="mon" label="rlus" mipTable="ImonAnt" modeling_realm="atmos" mtid="MIPtable::ImonAnt" positive="up" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="24" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Upwelling Longwave Radiation" type="real" uid="d5b33fa4-c78d-11e6-9b25-5404a60d96b5" vid="89027ee0079acb709750ddeac1c08899"></item> 
     4877<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;longwave&quot; means longwave 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." frequency="mon" label="rlus" mipTable="ImonGre" modeling_realm="landIce land" mtid="MIPtable::ImonGre" positive="up" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="24" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Upwelling Longwave Radiation" type="real" uid="d5b2c8a8-c78d-11e6-9b25-5404a60d96b5" vid="89027ee0079acb709750ddeac1c08899"></item> 
     4878<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;longwave&quot; means longwave 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." frequency="mon" label="rlus" mipTable="ImonAnt" modeling_realm="landIce land" mtid="MIPtable::ImonAnt" positive="up" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="24" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Upwelling Longwave Radiation" type="real" uid="d5b33fa4-c78d-11e6-9b25-5404a60d96b5" vid="89027ee0079acb709750ddeac1c08899"></item> 
    49904879<item defaultPriority="1" deflate="" deflate_level="" description="The surface called &quot;surface&quot; means the lower boundary of the atmosphere. &quot;longwave&quot; means longwave 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." frequency="3hrPt" label="rlus" mipTable="CF3hr" mipTableSection="CF3hr_grid" modeling_realm="atmos" mtid="MIPtable::CF3hr" positive="up" prov="CFMIP (CMIP5)" provNote="Amon_2d" rowIndex="235" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" subGroup="Amon_2d" title="Surface Upwelling Longwave Radiation" type="real" uid="e0ab598e-4b7f-11e7-903f-5404a60d96b5" vid="89027ee0079acb709750ddeac1c08899"></item> 
    49914880<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="rlusIs" mipTable="LImon" mipTableSection="new" modeling_realm="landIce" mtid="MIPtable::LImon" positive="up" prov="ISMIP6 [new_LImon]" provNote="" rowIndex="27" shuffle="0" stid="f94a76ea-80ba-11e6-ab6e-5404a60d96b5" title="Ice Sheet Surface Upwelling Longwave Radiation" type="real" uid="81212d26-bf17-11e6-b0d8-ac72891c3257" vid="538287c2-bf01-11e6-a554-ac72891c3257"></item> 
     
    50304919<item defaultPriority="1" deflate="" deflate_level="" description="surface solar irradiance for UV calculations" frequency="mon" label="rsds" mipTable="Amon" mipTableSection="Amon_2d" modeling_realm="atmos" mtid="MIPtable::Amon" positive="down" prov="Amon ((isd.003))" provNote="Amon_2d" rowIndex="36" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="Amon_2d" title="Surface Downwelling Shortwave Radiation" type="real" uid="bab5e1b2-e5dd-11e5-8482-ac72891c3257" vid="6e7b9f984d3bba15daccaaa18039a85d"></item> 
    50314920<item defaultPriority="1" deflate="" deflate_level="" description="surface solar irradiance for UV calculations" frequency="day" label="rsds" mipTable="day" mipTableSection="day_ss" modeling_realm="atmos" mtid="MIPtable::day" positive="down" prov="day ((isd.003))" provNote="day_ss" rowIndex="43" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="day_ss" title="Surface Downwelling Shortwave Radiation" type="real" uid="bab5ecd4-e5dd-11e5-8482-ac72891c3257" vid="6e7b9f984d3bba15daccaaa18039a85d"></item> 
    5032 <item defaultPriority="1" deflate="" deflate_level="" description="surface solar irradiance for UV calculations" frequency="mon" label="rsds" mipTable="ImonGre" modeling_realm="atmos" mtid="MIPtable::ImonGre" positive="down" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="21" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Downwelling Shortwave Radiation" type="real" uid="d5b2bdc2-c78d-11e6-9b25-5404a60d96b5" vid="6e7b9f984d3bba15daccaaa18039a85d"></item> 
    5033 <item defaultPriority="1" deflate="" deflate_level="" description="surface solar irradiance for UV calculations" frequency="mon" label="rsds" mipTable="ImonAnt" modeling_realm="atmos" mtid="MIPtable::ImonAnt" positive="down" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="21" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Downwelling Shortwave Radiation" type="real" uid="d5b334e6-c78d-11e6-9b25-5404a60d96b5" vid="6e7b9f984d3bba15daccaaa18039a85d"></item> 
     4921<item defaultPriority="1" deflate="" deflate_level="" description="surface solar irradiance for UV calculations" frequency="mon" label="rsds" mipTable="ImonGre" modeling_realm="landIce land" mtid="MIPtable::ImonGre" positive="down" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="21" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Downwelling Shortwave Radiation" type="real" uid="d5b2bdc2-c78d-11e6-9b25-5404a60d96b5" vid="6e7b9f984d3bba15daccaaa18039a85d"></item> 
     4922<item defaultPriority="1" deflate="" deflate_level="" description="surface solar irradiance for UV calculations" frequency="mon" label="rsds" mipTable="ImonAnt" modeling_realm="landIce land" mtid="MIPtable::ImonAnt" positive="down" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="21" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Downwelling Shortwave Radiation" type="real" uid="d5b334e6-c78d-11e6-9b25-5404a60d96b5" vid="6e7b9f984d3bba15daccaaa18039a85d"></item> 
    50344923<item defaultPriority="1" deflate="" deflate_level="" description="surface solar irradiance for UV calculations" frequency="3hrPt" label="rsds" mipTable="CF3hr" mipTableSection="CF3hr_grid" modeling_realm="atmos" mtid="MIPtable::CF3hr" positive="down" prov="CFMIP (CMIP5)" provNote="Amon_2d" rowIndex="236" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" subGroup="Amon_2d" title="Surface Downwelling Shortwave Radiation" type="real" uid="e0ab60be-4b7f-11e7-903f-5404a60d96b5" vid="6e7b9f984d3bba15daccaaa18039a85d"></item> 
    50354924<item defaultPriority="1" deflate="" deflate_level="" description="surface solar irradiance clear sky for UV calculations" 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> 
     
    50734962<item defaultPriority="1" deflate="" deflate_level="" 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." frequency="mon" label="rsus" mipTable="Amon" mipTableSection="Amon_2d" modeling_realm="atmos" mtid="MIPtable::Amon" positive="up" prov="Amon ((isd.003))" provNote="Amon_2d" rowIndex="37" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="Amon_2d" title="Surface Upwelling Shortwave Radiation" type="real" uid="bab6537c-e5dd-11e5-8482-ac72891c3257" vid="70bf79db957daa3b82413da949233ac7"></item> 
    50744963<item defaultPriority="1" deflate="" deflate_level="" 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." frequency="day" label="rsus" mipTable="day" mipTableSection="day_ss" modeling_realm="atmos" mtid="MIPtable::day" positive="up" prov="day ((isd.003))" provNote="day_ss" rowIndex="44" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="day_ss" title="Surface Upwelling Shortwave Radiation" type="real" uid="bab65ad4-e5dd-11e5-8482-ac72891c3257" vid="70bf79db957daa3b82413da949233ac7"></item> 
    5075 <item defaultPriority="1" deflate="" deflate_level="" 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." frequency="mon" label="rsus" mipTable="ImonGre" modeling_realm="atmos" mtid="MIPtable::ImonGre" positive="up" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="22" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Upwelling Shortwave Radiation" type="real" uid="d5b2c150-c78d-11e6-9b25-5404a60d96b5" vid="70bf79db957daa3b82413da949233ac7"></item> 
    5076 <item defaultPriority="1" deflate="" deflate_level="" 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." frequency="mon" label="rsus" mipTable="ImonAnt" modeling_realm="atmos" mtid="MIPtable::ImonAnt" positive="up" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="22" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Upwelling Shortwave Radiation" type="real" uid="d5b33874-c78d-11e6-9b25-5404a60d96b5" vid="70bf79db957daa3b82413da949233ac7"></item> 
     4964<item defaultPriority="1" deflate="" deflate_level="" 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." frequency="mon" label="rsus" mipTable="ImonGre" modeling_realm="landIce land" mtid="MIPtable::ImonGre" positive="up" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="22" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Upwelling Shortwave Radiation" type="real" uid="d5b2c150-c78d-11e6-9b25-5404a60d96b5" vid="70bf79db957daa3b82413da949233ac7"></item> 
     4965<item defaultPriority="1" deflate="" deflate_level="" 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." frequency="mon" label="rsus" mipTable="ImonAnt" modeling_realm="landIce land" mtid="MIPtable::ImonAnt" positive="up" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="22" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Upwelling Shortwave Radiation" type="real" uid="d5b33874-c78d-11e6-9b25-5404a60d96b5" vid="70bf79db957daa3b82413da949233ac7"></item> 
    50774966<item defaultPriority="1" deflate="" deflate_level="" 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." 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> 
    50784967<item defaultPriority="1" deflate="" deflate_level="" description="Surface Upwelling Clear-sky Shortwave Radiation" frequency="subhrPt" label="rsuscs" mipTable="CFsubhr" modeling_realm="atmos" mtid="MIPtable::CFsubhr" positive="up" 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="1039" shuffle="" stid="63c0a932-15f2-11e7-87e0-5404a60d96b5" title="Surface Upwelling Clear-Sky Shortwave Radiation" type="real" uid="8008f0ee-f906-11e6-a176-5404a60d96b5" vid="90df05fe3dcd9fe0c9b48aaa74b5e9e2"></item> 
     
    51775066<item defaultPriority="1" deflate="" deflate_level="" description="Area fraction of grid cell covered by sea ice" frequency="mon" label="siconca" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="5" shuffle="" stid="452107da-3580-11e7-8257-5404a60d96b5" title="Sea Ice Area Fraction (Atmospheric Grid)" type="real" uid="71190054-faa7-11e6-bfb7-ac72891c3257" vid="5914ab90-9e49-11e5-803c-0d0b866b59f3"></item> 
    51785067<item defaultPriority="1" deflate="" deflate_level="" description="Area fraction of grid cell covered by sea ice" frequency="day" label="siconca" mipTable="SIday" modeling_realm="seaIce" mtid="MIPtable::SIday" positive="" prov="SIMIP [seaiceday]" provNote="" rowIndex="5" shuffle="" stid="452107da-3580-11e7-8257-5404a60d96b5" title="Sea Ice Area Fraction (Atmospheric Grid)" type="real" uid="d243b4a4-4a9f-11e6-b84e-ac72891c3257" vid="5914ab90-9e49-11e5-803c-0d0b866b59f3"></item> 
    5179 <item defaultPriority="2" deflate="0" deflate_level="0" description="Total change in sea-ice area fraction through dynamics-related processes (advection, divergence...)" frequency="mon" label="sidconcdyn" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="33" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="sea-ice area fraction change from dynamics" type="real" uid="714c1d90-faa7-11e6-bfb7-ac72891c3257" vid="590ee584-9e49-11e5-803c-0d0b866b59f3"></item> 
    5180 <item defaultPriority="2" deflate="0" deflate_level="0" description="Total change in sea-ice area fraction through thermodynamic processes" frequency="mon" label="sidconcth" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="32" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="sea-ice area fraction change from thermodynamics" type="real" uid="711e985c-faa7-11e6-bfb7-ac72891c3257" vid="590dc60e-9e49-11e5-803c-0d0b866b59f3"></item> 
     5068<item defaultPriority="2" deflate="0" deflate_level="0" description="Total change in sea-ice area fraction through dynamics-related processes (advection, divergence...)" frequency="mon" label="sidconcdyn" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="33" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="sea-ice area fraction change from dynamics" type="real" uid="714c1d90-faa7-11e6-bfb7-ac72891c3257" vid="590ee584-9e49-11e5-803c-0d0b866b59f3"></item> 
     5069<item defaultPriority="2" deflate="0" deflate_level="0" description="Total change in sea-ice area fraction through thermodynamic processes" frequency="mon" label="sidconcth" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="32" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="sea-ice area fraction change from thermodynamics" type="real" uid="711e985c-faa7-11e6-bfb7-ac72891c3257" vid="590dc60e-9e49-11e5-803c-0d0b866b59f3"></item> 
    51815070<item defaultPriority="2" deflate="0" deflate_level="0" description="Divergence of sea-ice velocity field (first shear strain invariant)" frequency="monPt" label="sidivvel" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="82" shuffle="0" stid="f7ec3940-562c-11e6-a2a4-ac72891c3257" title="Divergence of the sea-ice velocity field" type="real" uid="71436966-faa7-11e6-bfb7-ac72891c3257" vid="590d7924-9e49-11e5-803c-0d0b866b59f3"></item> 
    5182 <item defaultPriority="2" deflate="0" deflate_level="0" description="Total change in sea-ice mass through dynamics-related processes (advection,...) divided by grid-cell area" 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="real" uid="711e3862-faa7-11e6-bfb7-ac72891c3257" vid="591357b8-9e49-11e5-803c-0d0b866b59f3"></item> 
    5183 <item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea-ice mass change through evaporation and sublimation divided by grid-cell area" frequency="mon" label="sidmassevapsubl" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="up" prov="SIMIP [seaicemon]" provNote="" rowIndex="39" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="sea-ice mass change through evaporation and sublimation" type="real" uid="713aff10-faa7-11e6-bfb7-ac72891c3257" vid="59146180-9e49-11e5-803c-0d0b866b59f3"></item> 
    5184 <item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea ice mass due to vertical growth of existing sea ice at its base divided by grid-cell area." frequency="mon" label="sidmassgrowthbot" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="37" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="sea-ice mass change through basal growth" type="real" uid="71190c48-faa7-11e6-bfb7-ac72891c3257" vid="590db4ac-9e49-11e5-803c-0d0b866b59f3"></item> 
    5185 <item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea ice mass due to sea ice formation in supercooled water (often through frazil formation) divided by grid-cell area. Together, sidmassgrowthwat and sidmassgrowthbot should give total ice growth" frequency="mon" label="sidmassgrowthwat" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="36" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="sea-ice mass change through growth in supercooled open water (aka frazil)" type="real" uid="71310690-faa7-11e6-bfb7-ac72891c3257" vid="59149c7c-9e49-11e5-803c-0d0b866b59f3"></item> 
    5186 <item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea ice mass through lateral melting divided by grid-cell area (report 0 if not explicitly calculated thermodynamically)" frequency="mon" label="sidmasslat" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="42" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Lateral sea ice melt rate" type="real" uid="7124ed7e-faa7-11e6-bfb7-ac72891c3257" vid="590ea5c4-9e49-11e5-803c-0d0b866b59f3"></item> 
    5187 <item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea ice mass through melting at the ice bottom divided by grid-cell area" frequency="mon" label="sidmassmeltbot" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="41" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="sea-ice mass change through bottom melting" type="real" uid="7129c466-faa7-11e6-bfb7-ac72891c3257" vid="5917ea6c-9e49-11e5-803c-0d0b866b59f3"></item> 
    5188 <item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea ice mass through melting at the ice surface divided by grid-cell area" frequency="mon" label="sidmassmelttop" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="40" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="sea-ice mass change through surface melting" type="real" uid="7124e0ea-faa7-11e6-bfb7-ac72891c3257" vid="59179aee-9e49-11e5-803c-0d0b866b59f3"></item> 
    5189 <item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea ice mass due to transformation of snow to sea ice divided by grid-cell area" frequency="mon" label="sidmasssi" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="38" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="sea-ice mass change through snow-to-ice conversion" type="real" uid="714ef880-faa7-11e6-bfb7-ac72891c3257" vid="590d3518-9e49-11e5-803c-0d0b866b59f3"></item> 
    5190 <item defaultPriority="2" deflate="0" deflate_level="0" description="Total change in sea-ice mass from thermodynamic processes divided by grid-cell area" frequency="mon" label="sidmassth" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="34" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="sea-ice mass change from thermodynamics" type="real" uid="7127bce8-faa7-11e6-bfb7-ac72891c3257" vid="590d95d0-9e49-11e5-803c-0d0b866b59f3"></item> 
     5071<item defaultPriority="2" deflate="0" deflate_level="0" description="Total change in sea-ice mass through dynamics-related processes (advection,...) divided by grid-cell area" frequency="mon" label="sidmassdyn" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="35" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="sea-ice mass change from dynamics" type="real" uid="711e3862-faa7-11e6-bfb7-ac72891c3257" vid="591357b8-9e49-11e5-803c-0d0b866b59f3"></item> 
     5072<item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea-ice mass change through evaporation and sublimation divided by grid-cell area" frequency="mon" label="sidmassevapsubl" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="up" prov="SIMIP [seaicemon]" provNote="" rowIndex="39" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="sea-ice mass change through evaporation and sublimation" type="real" uid="713aff10-faa7-11e6-bfb7-ac72891c3257" vid="59146180-9e49-11e5-803c-0d0b866b59f3"></item> 
     5073<item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea ice mass due to vertical growth of existing sea ice at its base divided by grid-cell area." frequency="mon" label="sidmassgrowthbot" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="37" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="sea-ice mass change through basal growth" type="real" uid="71190c48-faa7-11e6-bfb7-ac72891c3257" vid="590db4ac-9e49-11e5-803c-0d0b866b59f3"></item> 
     5074<item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea ice mass due to sea ice formation in supercooled water (often through frazil formation) divided by grid-cell area. Together, sidmassgrowthwat and sidmassgrowthbot should give total ice growth" frequency="mon" label="sidmassgrowthwat" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="36" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="sea-ice mass change through growth in supercooled open water (aka frazil)" type="real" uid="71310690-faa7-11e6-bfb7-ac72891c3257" vid="59149c7c-9e49-11e5-803c-0d0b866b59f3"></item> 
     5075<item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea ice mass through lateral melting divided by grid-cell area (report 0 if not explicitly calculated thermodynamically)" frequency="mon" label="sidmasslat" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="42" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="Lateral sea ice melt rate" type="real" uid="7124ed7e-faa7-11e6-bfb7-ac72891c3257" vid="590ea5c4-9e49-11e5-803c-0d0b866b59f3"></item> 
     5076<item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea ice mass through melting at the ice bottom divided by grid-cell area" frequency="mon" label="sidmassmeltbot" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="41" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="sea-ice mass change through bottom melting" type="real" uid="7129c466-faa7-11e6-bfb7-ac72891c3257" vid="5917ea6c-9e49-11e5-803c-0d0b866b59f3"></item> 
     5077<item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea ice mass through melting at the ice surface divided by grid-cell area" frequency="mon" label="sidmassmelttop" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="40" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="sea-ice mass change through surface melting" type="real" uid="7124e0ea-faa7-11e6-bfb7-ac72891c3257" vid="59179aee-9e49-11e5-803c-0d0b866b59f3"></item> 
     5078<item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of sea ice mass due to transformation of snow to sea ice divided by grid-cell area" frequency="mon" label="sidmasssi" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="38" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="sea-ice mass change through snow-to-ice conversion" type="real" uid="714ef880-faa7-11e6-bfb7-ac72891c3257" vid="590d3518-9e49-11e5-803c-0d0b866b59f3"></item> 
     5079<item defaultPriority="2" deflate="0" deflate_level="0" description="Total change in sea-ice mass from thermodynamic processes divided by grid-cell area" frequency="mon" label="sidmassth" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="34" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="sea-ice mass change from thermodynamics" type="real" uid="7127bce8-faa7-11e6-bfb7-ac72891c3257" vid="590d95d0-9e49-11e5-803c-0d0b866b59f3"></item> 
    51915080<item defaultPriority="2" deflate="0" deflate_level="0" description="Includes transport of both sea ice and snow by advection" frequency="mon" label="sidmasstranx" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="65" shuffle="0" stid="84e98694-e85f-11e6-b2bf-ac72891c3257" title="X-component of sea-ice mass transport" type="real" uid="71375d1a-faa7-11e6-bfb7-ac72891c3257" vid="59172e42-9e49-11e5-803c-0d0b866b59f3"></item> 
    51925081<item defaultPriority="2" deflate="0" deflate_level="0" description="Includes transport of both sea ice and snow by advection" frequency="mon" label="sidmasstrany" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="66" shuffle="0" stid="84e98694-e85f-11e6-b2bf-ac72891c3257" title="Y-component of sea-ice mass transport" type="real" uid="714b47f8-faa7-11e6-bfb7-ac72891c3257" vid="59172bcc-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    52145103<item defaultPriority="3" deflate="0" deflate_level="0" description="X-component of force on sea ice caused by sea-surface tilt" frequency="mon" label="siforcetiltx" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="74" shuffle="0" stid="f94c7fbc-80ba-11e6-ab6e-5404a60d96b5" title="Sea-surface tilt term in force balance (x-component)" type="real" uid="71220f64-faa7-11e6-bfb7-ac72891c3257" vid="590ed33c-9e49-11e5-803c-0d0b866b59f3"></item> 
    52155104<item defaultPriority="3" deflate="0" deflate_level="0" description="Y-component of force on sea ice caused by sea-surface tilt" frequency="mon" label="siforcetilty" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="75" shuffle="0" stid="f94c7fbc-80ba-11e6-ab6e-5404a60d96b5" title="Sea-surface tilt term in force balance (y-component)" type="real" uid="710bfb0c-faa7-11e6-bfb7-ac72891c3257" vid="590d7654-9e49-11e5-803c-0d0b866b59f3"></item> 
    5216 <item defaultPriority="2" deflate="0" deflate_level="0" description="Heat content of all ice in grid cell divided by total grid-cell area. Water at 0 Celsius is assumed to have a heat content of 0 J.  Does not include heat content of snow, but does include heat content of brine. Heat content is always negative, since both the sensible and the latent heat content of ice are less than that of water" frequency="mon" label="sihc" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="29" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Sea-ice heat content per unit area" type="real" uid="71492018-faa7-11e6-bfb7-ac72891c3257" vid="590f9d30-9e49-11e5-803c-0d0b866b59f3"></item> 
     5105<item defaultPriority="2" deflate="0" deflate_level="0" description="Heat content of all ice in grid cell divided by total grid-cell area. Water at 0 Celsius is assumed to have a heat content of 0 J.  Does not include heat content of snow, but does include heat content of brine. Heat content is always negative, since both the sensible and the latent heat content of ice are less than that of water" frequency="mon" label="sihc" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="29" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="Sea-ice heat content per unit area" type="real" uid="71492018-faa7-11e6-bfb7-ac72891c3257" vid="590f9d30-9e49-11e5-803c-0d0b866b59f3"></item> 
    52175106<item defaultPriority="3" deflate="0" deflate_level="0" description="K=ice depth bands" frequency="mon" label="siitdconc" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="12" shuffle="0" stid="f94ad41e-80ba-11e6-ab6e-5404a60d96b5" title="Sea-ice area fractions in thickness categories" type="real" uid="711b61dc-faa7-11e6-bfb7-ac72891c3257" vid="590d98b4-9e49-11e5-803c-0d0b866b59f3"></item> 
    52185107<item defaultPriority="3" deflate="0" deflate_level="0" description="K=ice depth bands" frequency="mon" label="siitdsnconc" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="14" shuffle="0" stid="c2cae79a-19f2-11e7-bdec-ac72891c3257" title="Snow area fractions in thickness categories" type="real" uid="71147dcc-faa7-11e6-bfb7-ac72891c3257" vid="590f0442-9e49-11e5-803c-0d0b866b59f3"></item> 
    52195108<item defaultPriority="3" deflate="0" deflate_level="0" description="K=ice depth bands" frequency="mon" label="siitdsnthick" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="15" shuffle="0" stid="c2cae79a-19f2-11e7-bdec-ac72891c3257" title="Snow thickness in thickness categories" type="real" uid="713fa34e-faa7-11e6-bfb7-ac72891c3257" vid="590dfdc2-9e49-11e5-803c-0d0b866b59f3"></item> 
    52205109<item defaultPriority="3" deflate="0" deflate_level="0" description="K=ice depth bands" frequency="mon" label="siitdthick" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="13" shuffle="0" stid="c2cae79a-19f2-11e7-bdec-ac72891c3257" title="Sea-ice thickness in thickness categories" type="real" uid="712a1fc4-faa7-11e6-bfb7-ac72891c3257" vid="59133288-9e49-11e5-803c-0d0b866b59f3"></item> 
    5221 <item defaultPriority="1" deflate="0" deflate_level="0" description="Silt Fraction" frequency="fx" label="siltfrac" mipTable="Efx" modeling_realm="atmos" mtid="MIPtable::Efx" positive="" prov="LS3MIP [fxLS3MIP]" provNote="" rowIndex="11" shuffle="0" stid="81737d70-f751-11e6-8899-5404a60d96b5" title="Silt Fraction" type="real" uid="819641f0-f906-11e6-a176-5404a60d96b5" vid="71248dd0-c7b6-11e6-bb2a-ac72891c3257"></item> 
    5222 <item defaultPriority="1" deflate="0" deflate_level="0" description="(in OImon, sim included snow and sea ice mass)" frequency="mon" label="simass" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="6" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Sea-ice mass per area" type="real" uid="714b603a-faa7-11e6-bfb7-ac72891c3257" vid="5917184e-9e49-11e5-803c-0d0b866b59f3"></item> 
     5110<item defaultPriority="1" deflate="0" deflate_level="0" description="Volume fraction of silt in soil" frequency="fx" label="siltfrac" mipTable="Efx" modeling_realm="atmos" mtid="MIPtable::Efx" positive="" prov="LS3MIP [fxLS3MIP]" provNote="" rowIndex="11" shuffle="0" stid="81737d70-f751-11e6-8899-5404a60d96b5" title="Silt Fraction" type="real" uid="819641f0-f906-11e6-a176-5404a60d96b5" vid="71248dd0-c7b6-11e6-bb2a-ac72891c3257"></item> 
     5111<item defaultPriority="1" deflate="0" deflate_level="0" description="(in OImon, sim included snow and sea ice mass)" frequency="mon" label="simass" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="6" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="Sea-ice mass per area" type="real" uid="714b603a-faa7-11e6-bfb7-ac72891c3257" vid="5917184e-9e49-11e5-803c-0d0b866b59f3"></item> 
    52235112<item defaultPriority="2" deflate="0" deflate_level="0" description="Flux across 4 straits" frequency="mon" label="simassacrossline" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="90" shuffle="0" stid="e9fa5c14-c1ce-11e6-8067-ac72891c3257" title="Sea mass area flux through straits" type="real" uid="7109b964-faa7-11e6-bfb7-ac72891c3257" vid="7309e7f8-7a68-11e6-8db2-ac72891c3257"></item> 
    52245113<item defaultPriority="3" deflate="0" deflate_level="0" description="Percentage of sea ice, by area, which is covered by melt ponds, giving equal weight to every square metre of sea ice ." frequency="mon" label="simpconc" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="22" shuffle="0" stid="af256dfc-1e00-11e7-a625-5404a60d96b5" title="Percentage Cover of Sea-Ice by Meltpond" type="real" uid="71238a60-faa7-11e6-bfb7-ac72891c3257" vid="590eb1ea-9e49-11e5-803c-0d0b866b59f3"></item> 
    5225 <item defaultPriority="3" deflate="0" deflate_level="0" description="Meltpond mass per area of sea ice." frequency="mon" label="simpmass" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="23" shuffle="0" stid="c2cc3578-19f2-11e7-bdec-ac72891c3257" title="Meltpond Mass per Unit Area" type="real" uid="7117858a-faa7-11e6-bfb7-ac72891c3257" vid="aa9073c2-1b36-11e6-a696-35cd2d8034df"></item> 
     5114<item defaultPriority="3" deflate="0" deflate_level="0" description="Meltpond Depth" frequency="mon" label="simpmass" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="23" shuffle="0" stid="c2cc3578-19f2-11e7-bdec-ac72891c3257" title="Meltpond Mass per Unit Area" type="real" uid="7117858a-faa7-11e6-bfb7-ac72891c3257" vid="aa9073c2-1b36-11e6-a696-35cd2d8034df"></item> 
    52265115<item defaultPriority="3" deflate="0" deflate_level="0" description="Volume of refrozen ice on melt ponds divided by meltpond covered area" frequency="mon" label="simprefrozen" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="24" shuffle="0" stid="c2cc3578-19f2-11e7-bdec-ac72891c3257" title="Thickness of Refrozen Ice on Melt Pond" type="real" uid="711b6ea2-faa7-11e6-bfb7-ac72891c3257" vid="591523cc-9e49-11e5-803c-0d0b866b59f3"></item> 
    52275116<item defaultPriority="2" deflate="" deflate_level="" 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-)." frequency="mon" label="sios" mipTable="Omon" mipTableSection="Omon_oth" modeling_realm="ocnBgchem" mtid="MIPtable::Omon" positive="" prov="Omon ((isd.003))" provNote="Omon_oth" rowIndex="36" shuffle="" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" subGroup="Omon_oth" title="Surface Total Dissolved Inorganic Silicon Concentration" type="real" uid="c9194dd4-c5e8-11e6-84e6-5404a60d96b5" vid="c96df0fc-c5f0-11e6-ac20-5404a60d96b5"></item> 
     
    52305119<item defaultPriority="3" deflate="0" deflate_level="0" description="Sea Ice Ridge Height (representing mean height over the ridged area)" frequency="mon" label="sirdgthick" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="26" shuffle="0" stid="6592521a-5930-11e8-85dc-1c4d70487308" title="Ridged ice thickness" type="real" uid="714c1192-faa7-11e6-bfb7-ac72891c3257" vid="5914eb78-9e49-11e5-803c-0d0b866b59f3"></item> 
    52315120<item defaultPriority="3" deflate="0" deflate_level="0" description="Mean sea-ice salinity of all sea ice in grid cell" frequency="mon" label="sisali" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="27" shuffle="0" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="Sea ice salinity" type="real" uid="7113f7b2-faa7-11e6-bfb7-ac72891c3257" vid="5913e674-9e49-11e5-803c-0d0b866b59f3"></item> 
    5232 <item defaultPriority="3" deflate="0" deflate_level="0" description="Total mass of all salt in sea ice divided by grid-cell area" frequency="mon" label="sisaltmass" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="21" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Mass of salt in sea ice per area" type="real" uid="713cf6a8-faa7-11e6-bfb7-ac72891c3257" vid="590c7920-9e49-11e5-803c-0d0b866b59f3"></item> 
     5121<item defaultPriority="3" deflate="0" deflate_level="0" description="Total mass of all salt in sea ice divided by grid-cell area" frequency="mon" label="sisaltmass" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="21" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="Mass of salt in sea ice per area" type="real" uid="713cf6a8-faa7-11e6-bfb7-ac72891c3257" vid="590c7920-9e49-11e5-803c-0d0b866b59f3"></item> 
    52335122<item defaultPriority="2" deflate="0" deflate_level="0" description="Maximum shear of sea-ice velocity field (second shear strain invariant)" frequency="monPt" label="sishevel" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="83" shuffle="0" stid="f7ec3940-562c-11e6-a2a4-ac72891c3257" title="Maximum shear of sea-ice velocity field" type="real" uid="713564ba-faa7-11e6-bfb7-ac72891c3257" vid="590d70b4-9e49-11e5-803c-0d0b866b59f3"></item> 
    52345123<item defaultPriority="1" deflate="0" deflate_level="0" description="Fraction of sea ice, by area, which is covered by snow, giving equal weight to every square metre of sea ice . Exclude snow that lies on land or land ice." frequency="mon" label="sisnconc" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="9" shuffle="0" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="Snow area fraction" type="real" uid="7112255e-faa7-11e6-bfb7-ac72891c3257" vid="590d38b0-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    52515140<item defaultPriority="1" deflate="" deflate_level="" description="(in OImon, sit was volume per entire cell area)" frequency="mon" label="sithick" mipTable="SImon" modeling_realm="seaIce ocean" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="7" shuffle="" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="Sea Ice Thickness" type="real" uid="d241a6d2-4a9f-11e6-b84e-ac72891c3257" vid="591321f8-9e49-11e5-803c-0d0b866b59f3"></item> 
    52525141<item defaultPriority="1" deflate="" deflate_level="" description="Actual (floe) thickness of sea ice (NOT volume divided by grid area as was done in CMIP5)" frequency="day" label="sithick" mipTable="SIday" modeling_realm="seaIce ocean" mtid="MIPtable::SIday" positive="" prov="SIMIP [seaiceday]" provNote="" rowIndex="6" shuffle="" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="Sea Ice Thickness" type="real" uid="d243ba76-4a9f-11e6-b84e-ac72891c3257" vid="591321f8-9e49-11e5-803c-0d0b866b59f3"></item> 
    5253 <item defaultPriority="1" deflate="0" deflate_level="0" description="Fraction of time steps of the averaging period during which sea ice is present (siconc >0 ) in a grid cell" frequency="mon" label="sitimefrac" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="4" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Fraction of time steps with sea ice" type="real" uid="714344cc-faa7-11e6-bfb7-ac72891c3257" vid="590e8b2a-9e49-11e5-803c-0d0b866b59f3"></item> 
    5254 <item defaultPriority="1" deflate="0" deflate_level="0" description="Fraction of time steps of the averaging period during which sea ice is present (siconc >0 ) in a grid cell" frequency="day" label="sitimefrac" mipTable="SIday" modeling_realm="seaIce" mtid="MIPtable::SIday" positive="" prov="SIMIP [seaiceday]" provNote="" rowIndex="4" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Fraction of time steps with sea ice" type="real" uid="d243af0e-4a9f-11e6-b84e-ac72891c3257" vid="590e8b2a-9e49-11e5-803c-0d0b866b59f3"></item> 
     5142<item defaultPriority="1" deflate="0" deflate_level="0" description="Fraction of time steps of the averaging period during which sea ice is present (siconc >0 ) in a grid cell" frequency="mon" label="sitimefrac" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="4" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="Fraction of time steps with sea ice" type="real" uid="714344cc-faa7-11e6-bfb7-ac72891c3257" vid="590e8b2a-9e49-11e5-803c-0d0b866b59f3"></item> 
     5143<item defaultPriority="1" deflate="0" deflate_level="0" description="Fraction of time steps of the averaging period during which sea ice is present (siconc >0 ) in a grid cell" frequency="day" label="sitimefrac" mipTable="SIday" modeling_realm="seaIce" mtid="MIPtable::SIday" positive="" prov="SIMIP [seaiceday]" provNote="" rowIndex="4" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="Fraction of time steps with sea ice" type="real" uid="d243af0e-4a9f-11e6-b84e-ac72891c3257" vid="590e8b2a-9e49-11e5-803c-0d0b866b59f3"></item> 
    52555144<item defaultPriority="1" deflate="0" deflate_level="0" description="The x-velocity of ice on native model grid" frequency="mon" label="siu" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="62" shuffle="0" stid="f94c7fbc-80ba-11e6-ab6e-5404a60d96b5" title="X-component of sea ice velocity" type="real" uid="7147b8fe-faa7-11e6-bfb7-ac72891c3257" vid="590e80c6-9e49-11e5-803c-0d0b866b59f3"></item> 
    52565145<item defaultPriority="1" deflate="0" deflate_level="0" description="The x-velocity of ice on native model grid" frequency="day" label="siu" mipTable="SIday" modeling_realm="seaIce" mtid="MIPtable::SIday" positive="" prov="SIMIP [seaiceday]" provNote="" rowIndex="9" shuffle="0" stid="f94c7fbc-80ba-11e6-ab6e-5404a60d96b5" title="X-component of sea ice velocity" type="real" uid="b811a784-7c00-11e6-bcdf-ac72891c3257" vid="590e80c6-9e49-11e5-803c-0d0b866b59f3"></item> 
    52575146<item defaultPriority="1" deflate="0" deflate_level="0" description="The y-velocity of ice on native model grid" frequency="mon" label="siv" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="63" shuffle="0" stid="f94c7fbc-80ba-11e6-ab6e-5404a60d96b5" title="Y-component of sea ice velocity" type="real" uid="71237944-faa7-11e6-bfb7-ac72891c3257" vid="59141748-9e49-11e5-803c-0d0b866b59f3"></item> 
    52585147<item defaultPriority="1" deflate="0" deflate_level="0" description="The y-velocity of ice on native model grid" frequency="day" label="siv" mipTable="SIday" modeling_realm="seaIce" mtid="MIPtable::SIday" positive="" prov="SIMIP [seaiceday]" provNote="" rowIndex="10" shuffle="0" stid="f94c7fbc-80ba-11e6-ab6e-5404a60d96b5" title="Y-component of sea ice velocity" type="real" uid="b811b062-7c00-11e6-bcdf-ac72891c3257" vid="59141748-9e49-11e5-803c-0d0b866b59f3"></item> 
    5259 <item defaultPriority="1" deflate="0" deflate_level="0" description="Total volume of sea ice divided by grid-cell area (this used to be called ice thickness in CMIP5)" frequency="mon" label="sivol" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="8" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Sea-ice volume per area" type="real" uid="71291d86-faa7-11e6-bfb7-ac72891c3257" vid="591801d2-9e49-11e5-803c-0d0b866b59f3"></item> 
     5148<item defaultPriority="1" deflate="0" deflate_level="0" description="Total volume of sea ice divided by grid-cell area (this used to be called ice thickness in CMIP5)" frequency="mon" label="sivol" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="8" shuffle="0" stid="e9f9f6ca-c1ce-11e6-8067-ac72891c3257" title="Sea-ice volume per area" type="real" uid="71291d86-faa7-11e6-bfb7-ac72891c3257" vid="591801d2-9e49-11e5-803c-0d0b866b59f3"></item> 
    52605149<item defaultPriority="2" deflate="0" deflate_level="0" description="total volume of sea ice in the Northern hemisphere" frequency="mon" label="sivoln" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="86" shuffle="0" stid="e9fb0b1e-c1ce-11e6-8067-ac72891c3257" title="Sea ice volume North" type="real" uid="712c4bd2-faa7-11e6-bfb7-ac72891c3257" vid="5913c9aa-9e49-11e5-803c-0d0b866b59f3"></item> 
    52615150<item defaultPriority="2" deflate="0" deflate_level="0" description="total volume of sea ice in the Southern hemisphere" frequency="mon" label="sivols" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="87" shuffle="0" stid="e9fb0b1e-c1ce-11e6-8067-ac72891c3257" title="Sea ice volume South" type="real" uid="711edae2-faa7-11e6-bfb7-ac72891c3257" vid="590ee2fa-9e49-11e5-803c-0d0b866b59f3"></item> 
    52625151<item defaultPriority="2" deflate="0" deflate_level="0" description="function of latitude, basin" frequency="mon" label="sltbasin" mipTable="EmonZ" modeling_realm="ocean" mtid="MIPtable::EmonZ" positive="" prov="DCPP [DCPP-mon]" provNote="" rowIndex="33" shuffle="0" stid="f949dcb2-80ba-11e6-ab6e-5404a60d96b5" title="Northward Ocean Salt Transport" type="real" uid="f2b4239a-26b8-11e7-8344-ac72891c3257" vid="59171588-9e49-11e5-803c-0d0b866b59f3"></item> 
    52635152<item defaultPriority="1" deflate="0" deflate_level="0" description="Thickness of Soil Layers" frequency="fx" label="slthick" mipTable="Efx" modeling_realm="land" mtid="MIPtable::Efx" positive="" prov="LS3MIP [fxLS3MIP]" provNote="" rowIndex="16" shuffle="0" stid="81737d70-f751-11e6-8899-5404a60d96b5" title="Thickness of Soil Layers" type="real" uid="f2fad86e-c38d-11e6-abc1-1b922e5e1118" vid="7124901e-c7b6-11e6-bb2a-ac72891c3257"></item> 
    5264 <item defaultPriority="1" deflate="0" deflate_level="0" description="Atlantic Northward Ocean Salt Transport" frequency="mon" label="sltnortha" mipTable="EmonZ" modeling_realm="ocean" mtid="MIPtable::EmonZ" positive="" prov="PMIP [PMIP-Omon-02]" provNote="" rowIndex="30" shuffle="0" stid="f949dcb2-80ba-11e6-ab6e-5404a60d96b5" title="Atlantic Northward Ocean Salt Transport" type="real" uid="9162b7e6-267c-11e7-8933-ac72891c3257" vid="16566aed8c1a15e598240020f11b8fd4"></item> 
    52655153<item defaultPriority="2" deflate="" deflate_level="" description="From all advective mass transport processes, resolved and parameterized." frequency="mon" label="sltovgyre" 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="58" shuffle="" stid="f7df8fce-562c-11e6-a2a4-ac72891c3257" subGroup="Omon_oth" title="Northward Ocean Salt Transport due to Gyre" type="real" uid="baa5f7de-e5dd-11e5-8482-ac72891c3257" vid="9e64d2aadc59070a13e29979b6c9541b"></item> 
    52665154<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> 
     
    52715159<item defaultPriority="1" deflate="" deflate_level="" description="quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only, to avoid contamination from other surfaces (eg: permafrost)" frequency="mon" label="snc" mipTable="ImonAnt" modeling_realm="landIce land" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="31" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="snow cover fraction" type="real" uid="d5b35b06-c78d-11e6-9b25-5404a60d96b5" vid="e53e97d7e904fe67aa54b721b3c6a290"></item> 
    52725160<item defaultPriority="1" deflate="" deflate_level="" description="quantity averaged over ice sheet  only, to avoid contamination from other surfaces (eg: permafrost)" frequency="yr" label="snc" mipTable="IyrGre" modeling_realm="landIce land" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="16" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="snow cover fraction" type="real" uid="d5b3c500-c78d-11e6-9b25-5404a60d96b5" vid="e53e97d7e904fe67aa54b721b3c6a290"></item> 
    5273 <item defaultPriority="1" deflate="" deflate_level="" description="quantity averaged over ice sheet  only, to avoid contamination from other surfaces (eg: permafrost)" frequency="yr" label="snc" mipTable="IyrAnt" modeling_realm="landIce land" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="16" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="snow cover fraction" type="real" uid="d5b45c2c-c78d-11e6-9b25-5404a60d96b5" vid="e53e97d7e904fe67aa54b721b3c6a290"></item> 
     5161<item defaultPriority="1" deflate="" deflate_level="" description="quantity averaged over ice sheet  only, to avoid contamination from other surfaces (eg: permafrost)" frequency="yr" label="snc" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="16" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="snow cover fraction" type="real" uid="d5b45c2c-c78d-11e6-9b25-5404a60d96b5" vid="e53e97d7e904fe67aa54b721b3c6a290"></item> 
    52745162<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="sncIs" mipTable="LImon" mipTableSection="new" modeling_realm="landIce" mtid="MIPtable::LImon" positive="" prov="ISMIP6 [new_LImon]" provNote="" rowIndex="17" shuffle="0" stid="f94a76ea-80ba-11e6-ab6e-5404a60d96b5" title="Ice Sheet Snow Cover Percentage" type="real" uid="132b3e66-be44-11e6-9e13-f9e3356200b3" vid="53826ae4-bf01-11e6-a554-ac72891c3257"></item> 
    52755163<item defaultPriority="3" deflate="" deflate_level="" description="where land over land, this is computed as the mean thickness of snow in the land portion of the grid cell (averaging over the entire land portion, including the snow-free fraction).  Reported as 0.0 where the land fraction is 0." frequency="day" label="snd" mipTable="Eday" modeling_realm="landIce land" mtid="MIPtable::Eday" positive="" prov="DCPP [DCPP-day]" provNote="" rowIndex="56" shuffle="" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Snow Depth" type="real" uid="b7ccdf0a-7c00-11e6-bcdf-ac72891c3257" vid="19058c0a2aaaf3eaeca5093ea87c7e46"></item> 
    52765164<item defaultPriority="1" deflate="" deflate_level="" description="where land over land, this is computed as the mean thickness of snow in the land portion of the grid cell (averaging over the entire land portion, including the snow-free fraction).  Reported as missing where the land fraction is 0." frequency="mon" label="snd" mipTable="LImon" modeling_realm="landIce land" mtid="MIPtable::LImon" positive="" prov="LImon ((isd.003))" provNote="" rowIndex="16" shuffle="" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Snow Depth" type="real" uid="bab7e05c-e5dd-11e5-8482-ac72891c3257" vid="19058c0a2aaaf3eaeca5093ea87c7e46"></item> 
    5277 <item defaultPriority="2" deflate="0" deflate_level="0" description="the rate of change of snow mass through advection with sea ice divided by grid-cell area" frequency="mon" label="sndmassdyn" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="46" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Snow Mass Rate of Change through Avection by Sea-ice Dynamics" type="real" uid="7110e568-faa7-11e6-bfb7-ac72891c3257" vid="59139246-9e49-11e5-803c-0d0b866b59f3"></item> 
    5278 <item defaultPriority="2" deflate="0" deflate_level="0" description="the rate of change of snow mass through melt divided by grid-cell area" frequency="mon" label="sndmassmelt" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="44" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Snow Mass Rate of Change through Melt" type="real" uid="714129a8-faa7-11e6-bfb7-ac72891c3257" vid="590e1ef6-9e49-11e5-803c-0d0b866b59f3"></item> 
    5279 <item defaultPriority="2" deflate="0" deflate_level="0" description="the rate of change of snow mass due to transformation of snow to sea ice divided by grid-cell area" frequency="mon" label="sndmasssi" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="47" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Snow Mass Rate of Change through Snow-to-Ice Conversion" type="real" uid="714d7898-faa7-11e6-bfb7-ac72891c3257" vid="5914c95e-9e49-11e5-803c-0d0b866b59f3"></item> 
    5280 <item defaultPriority="2" deflate="0" deflate_level="0" description="mass of solid precipitation falling onto sea ice divided by grid-cell area" 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="real" uid="71401c0c-faa7-11e6-bfb7-ac72891c3257" vid="59142a3a-9e49-11e5-803c-0d0b866b59f3"></item> 
    5281 <item defaultPriority="2" deflate="0" deflate_level="0" description="the rate of change of snow mass through sublimation and evaporation divided by grid-cell area" frequency="mon" label="sndmasssubl" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="45" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Snow Mass Rate of Change through Evaporation or Sublimation" type="real" uid="712fc2da-faa7-11e6-bfb7-ac72891c3257" vid="590de2ce-9e49-11e5-803c-0d0b866b59f3"></item> 
    5282 <item defaultPriority="2" deflate="0" deflate_level="0" description="the rate of change of snow mass through wind drift of snow (from sea-ice into the sea) divided by grid-cell area" frequency="mon" label="sndmasswindrif" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="48" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="Snow Mass Rate of Change through Wind Drift of Snow" type="real" uid="712046d4-faa7-11e6-bfb7-ac72891c3257" vid="590d7370-9e49-11e5-803c-0d0b866b59f3"></item> 
     5165<item defaultPriority="2" deflate="0" deflate_level="0" description="The rate of change of snow mass through advection with sea ice divided by sea-ice area" frequency="mon" label="sndmassdyn" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="46" shuffle="0" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="Snow Mass Rate of Change through Avection by Sea-ice Dynamics" type="real" uid="7110e568-faa7-11e6-bfb7-ac72891c3257" vid="59139246-9e49-11e5-803c-0d0b866b59f3"></item> 
     5166<item defaultPriority="2" deflate="0" deflate_level="0" description="the rate of change of snow mass through melt divided by sea-ice area" frequency="mon" label="sndmassmelt" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="44" shuffle="0" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="Snow Mass Rate of Change through Melt" type="real" uid="714129a8-faa7-11e6-bfb7-ac72891c3257" vid="590e1ef6-9e49-11e5-803c-0d0b866b59f3"></item> 
     5167<item defaultPriority="2" deflate="0" deflate_level="0" description="the rate of change of snow mass due to transformation of snow to sea ice divided by sea-ice area" frequency="mon" label="sndmasssi" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="47" shuffle="0" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="Snow Mass Rate of Change through Snow-to-Ice Conversion" type="real" uid="714d7898-faa7-11e6-bfb7-ac72891c3257" vid="5914c95e-9e49-11e5-803c-0d0b866b59f3"></item> 
     5168<item defaultPriority="2" deflate="0" deflate_level="0" description="mass of solid precipitation falling onto sea ice divided by sea-ice area" frequency="mon" label="sndmasssnf" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="43" shuffle="0" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="snow mass change through snow fall" type="real" uid="71401c0c-faa7-11e6-bfb7-ac72891c3257" vid="59142a3a-9e49-11e5-803c-0d0b866b59f3"></item> 
     5169<item defaultPriority="2" deflate="0" deflate_level="0" description="the rate of change of snow mass through sublimation and evaporation divided by sea-ice area" frequency="mon" label="sndmasssubl" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="45" shuffle="0" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="Snow Mass Rate of Change through Evaporation or Sublimation" type="real" uid="712fc2da-faa7-11e6-bfb7-ac72891c3257" vid="590de2ce-9e49-11e5-803c-0d0b866b59f3"></item> 
     5170<item defaultPriority="2" deflate="0" deflate_level="0" description="the rate of change of snow mass through wind drift of snow (from sea-ice into the sea) divided by sea-ice area" frequency="mon" label="sndmasswindrif" mipTable="SImon" modeling_realm="seaIce" mtid="MIPtable::SImon" positive="" prov="SIMIP [seaicemon]" provNote="" rowIndex="48" shuffle="0" stid="f94dae78-80ba-11e6-ab6e-5404a60d96b5" title="Snow Mass Rate of Change through Wind Drift of Snow" type="real" uid="712046d4-faa7-11e6-bfb7-ac72891c3257" vid="590d7370-9e49-11e5-803c-0d0b866b59f3"></item> 
    52835171<item defaultPriority="2" deflate="0" deflate_level="0" description="Mass flux of surface meltwater which refreezes within the snowpack. Computed as the total refreezing on the land ice portion of the grid cell divided by land ice area in the grid cell." 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="real" uid="d5b2af3a-c78d-11e6-9b25-5404a60d96b5" vid="59150216-9e49-11e5-803c-0d0b866b59f3"></item> 
    52845172<item defaultPriority="2" deflate="0" deflate_level="0" description="Mass flux of surface meltwater which refreezes within the snowpack. Computed as the total refreezing on the land ice portion of the grid cell divided by land ice area in the grid cell." frequency="mon" label="snicefreez" mipTable="ImonAnt" modeling_realm="landIce" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="17" shuffle="0" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface snow and ice refreeze flux" type="real" uid="d5b32686-c78d-11e6-9b25-5404a60d96b5" vid="59150216-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    52975185<item defaultPriority="3" deflate="0" deflate_level="0" description="Snow mixing ratio" frequency="6hrPt" label="snowmxrat27" mipTable="6hrPlevPt" modeling_realm="atmos" mtid="MIPtable::6hrPlevPt" positive="" prov="HighResMIP [6hrPlev_intense]" provNote="" rowIndex="21" shuffle="0" stid="f7ea8046-562c-11e6-a2a4-ac72891c3257" title="snow_mixing_ratio" type="real" uid="f2cb0dee-26b8-11e7-8344-ac72891c3257" vid="5917d1d0-9e49-11e5-803c-0d0b866b59f3"></item> 
    52985186<item defaultPriority="1" deflate="0" deflate_level="0" description="surface_snow_and_ice_refreezing_flux" frequency="day" label="snrefr" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="LS3MIP [LWday]" provNote="" rowIndex="23" shuffle="0" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Re-freezing of water in the snow" type="real" uid="d2284d90-4a9f-11e6-b84e-ac72891c3257" vid="59171af6-9e49-11e5-803c-0d0b866b59f3"></item> 
    5299 <item defaultPriority="3" deflate="" deflate_level="" description="The mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as missing where the land fraction is 0; excludes snow on vegetation canopy or on sea ice." frequency="6hrPt" label="snw" mipTable="6hrPlevPt" modeling_realm="landIce land" mtid="MIPtable::6hrPlevPt" positive="" prov="HighResMIP [6hrPlev_intense]" provNote="" rowIndex="32" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" title="Surface Snow Amount" type="real" uid="8bb08740-4a5b-11e6-9cd2-ac72891c3257" vid="0e1704f8fbacbe223946d84392b8064e"></item> 
     5187<item defaultPriority="3" deflate="" deflate_level="" description="The mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as missing where the land fraction is 0; excludes snow on vegetation canopy or on sea ice." frequency="6hrPt" label="snw" mipTable="6hrPlevPt" modeling_realm="landIce land" mtid="MIPtable::6hrPlevPt" positive="" prov="HighResMIP [6hrPlev_intense]" provNote="" rowIndex="32" shuffle="" stid="fa23fd12-267c-11e7-9bed-ac72891c3257" title="Surface Snow Amount" type="real" uid="8bb08740-4a5b-11e6-9cd2-ac72891c3257" vid="0e1704f8fbacbe223946d84392b8064e"></item> 
    53005188<item defaultPriority="1" deflate="" deflate_level="" description="Computed as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as missing where the land fraction is 0; excluded is snow on vegetation canopy or on sea ice." frequency="mon" label="snw" mipTable="LImon" modeling_realm="landIce land" mtid="MIPtable::LImon" positive="" prov="LImon ((isd.003))" provNote="" rowIndex="16" shuffle="" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Surface Snow Amount" type="real" uid="bab81e50-e5dd-11e5-8482-ac72891c3257" vid="0e1704f8fbacbe223946d84392b8064e"></item> 
    53015189<item defaultPriority="1" deflate="" deflate_level="" description="the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as missing where the land fraction is 0; excludes snow on vegetation canopy or on sea ice." frequency="day" label="snw" mipTable="day" mipTableSection="day_ss" modeling_realm="landIce land" mtid="MIPtable::day" positive="" prov="day ((isd.003))" provNote="day_ss" rowIndex="32" shuffle="" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" subGroup="day_ss" title="Surface Snow Amount" type="real" uid="bab820b2-e5dd-11e5-8482-ac72891c3257" vid="0e1704f8fbacbe223946d84392b8064e"></item> 
     
    53735261<item defaultPriority="1" deflate="" deflate_level="" description="near-surface (usually, 2 meter) air temperature" frequency="mon" label="tas" mipTable="Amon" mipTableSection="Amon_2d" modeling_realm="atmos" mtid="MIPtable::Amon" positive="" processing="normally, the temperature should be reported at the 2 meter height" prov="Amon ((isd.003))" provNote="Amon_2d" rowIndex="14" shuffle="" stid="f7e1ef26-562c-11e6-a2a4-ac72891c3257" subGroup="Amon_2d" title="Near-Surface Air Temperature" type="real" uid="bab9237c-e5dd-11e5-8482-ac72891c3257" vid="5c4978e802ba55d5a298cf1b3bdc2b3a"></item> 
    53745262<item defaultPriority="1" deflate="" deflate_level="" description="near-surface (usually, 2 meter) air temperature" frequency="day" label="tas" 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="17" shuffle="" stid="f7e1ef26-562c-11e6-a2a4-ac72891c3257" subGroup="day_oth" title="Near-Surface Air Temperature" type="real" uid="bab928ae-e5dd-11e5-8482-ac72891c3257" vid="5c4978e802ba55d5a298cf1b3bdc2b3a"></item> 
    5375 <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="tas" mipTable="ImonGre" modeling_realm="atmos" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="4" shuffle="" stid="af240246-1e00-11e7-a625-5404a60d96b5" title="Surface Air Temperature" type="real" uid="d5b27c7c-c78d-11e6-9b25-5404a60d96b5" vid="5c4978e802ba55d5a298cf1b3bdc2b3a"></item> 
    5376 <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="tas" mipTable="ImonAnt" modeling_realm="atmos" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="4" shuffle="" stid="af240246-1e00-11e7-a625-5404a60d96b5" title="Surface Air Temperature" type="real" uid="d5b2f3f0-c78d-11e6-9b25-5404a60d96b5" vid="5c4978e802ba55d5a298cf1b3bdc2b3a"></item> 
     5263<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="tas" mipTable="ImonGre" modeling_realm="landIce land" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="4" shuffle="" stid="af240246-1e00-11e7-a625-5404a60d96b5" title="Surface Air Temperature" type="real" uid="d5b27c7c-c78d-11e6-9b25-5404a60d96b5" vid="5c4978e802ba55d5a298cf1b3bdc2b3a"></item> 
     5264<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="tas" mipTable="ImonAnt" modeling_realm="landIce land" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="4" shuffle="" stid="af240246-1e00-11e7-a625-5404a60d96b5" title="Surface Air Temperature" type="real" uid="d5b2f3f0-c78d-11e6-9b25-5404a60d96b5" vid="5c4978e802ba55d5a298cf1b3bdc2b3a"></item> 
    53775265<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="tasIs" mipTable="LImon" mipTableSection="new" modeling_realm="landIce" mtid="MIPtable::LImon" positive="" prov="ISMIP6 [new_LImon]" provNote="" rowIndex="4" shuffle="0" stid="f94a76ea-80ba-11e6-ab6e-5404a60d96b5" title="Ice Sheet Near-Surface Air Temperature" type="real" uid="8120b9f4-bf17-11e6-b0d8-ac72891c3257" vid="53823c4a-bf01-11e6-a554-ac72891c3257"></item> 
    53785266<item defaultPriority="1" deflate="0" deflate_level="0" description="Air temperature is the bulk temperature of the air, not the surface (skin) temperature." frequency="mon" label="tasLut" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="LUMIP [Lmon_Lut]" provNote="" rowIndex="11" shuffle="0" stid="fa26b836-267c-11e7-9bed-ac72891c3257" title="near-surface air temperature (2m above displacement height, i.e. t_ref) on land use tile" type="real" uid="d22dae98-4a9f-11e6-b84e-ac72891c3257" vid="590f1a90-9e49-11e5-803c-0d0b866b59f3"></item> 
    53795267<item defaultPriority="1" deflate="" deflate_level="" description="monthly mean of the daily-maximum near-surface air temperature." frequency="mon" label="tasmax" mipTable="Amon" mipTableSection="Amon_2d" modeling_realm="atmos" mtid="MIPtable::Amon" positive="" processing="normally, this should be reported at the 2 meter height." prov="Amon ((isd.003))" provNote="Amon_2d" rowIndex="17" shuffle="" stid="f7e04194-562c-11e6-a2a4-ac72891c3257" subGroup="Amon_2d" title="Daily Maximum Near-Surface Air Temperature" type="real" uid="bab942a8-e5dd-11e5-8482-ac72891c3257" vid="2dd48e8c50b4b88a83ff07d308e4e642"></item> 
    53805268<item defaultPriority="1" deflate="" deflate_level="" description="maximum near-surface (usually, 2 meter) air temperature (add cell_method attribute &quot;time: max&quot;)" frequency="day" label="tasmax" 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="16" shuffle="" stid="f7e2a074-562c-11e6-a2a4-ac72891c3257" subGroup="day_oth" title="Daily Maximum Near-Surface Air Temperature" type="real" uid="bab94a50-e5dd-11e5-8482-ac72891c3257" vid="2dd48e8c50b4b88a83ff07d308e4e642"></item> 
    5381 <item defaultPriority="1" deflate="0" deflate_level="0" description="maximum near-surface (usually, 2 meter) air temperature (add cell_method attribute &quot;time: max&quot;)" frequency="mon" label="tasmaxCrop" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="6" shuffle="0" stid="f7e04194-562c-11e6-a2a4-ac72891c3257" title="Daily Maximum Near-Surface Air Temperature over Crop Tile" type="real" uid="124a0c76-c14f-11e6-bb78-ac72891c3257" vid="170ff384-b622-11e6-bbe2-ac72891c3257"></item> 
    5382 <item defaultPriority="1" deflate="0" deflate_level="0" description="maximum near-surface (usually, 2 meter) air temperature (add cell_method attribute &quot;time: max&quot;)" 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="real" uid="2eb1ab6e-b64e-11e6-b9ee-ac72891c3257" vid="170ff384-b622-11e6-bbe2-ac72891c3257"></item> 
     5269<item defaultPriority="1" deflate="0" deflate_level="0" description="maximum near-surface (usually, 2 meter) air temperature (add cell_method attribute &quot;time: max&quot;)" frequency="mon" label="tasmaxCrop" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="6" shuffle="0" stid="deffdb19-ce15-11e8-8bae-a44cc8186c64" title="Daily Maximum Near-Surface Air Temperature over Crop Tile" type="real" uid="124a0c76-c14f-11e6-bb78-ac72891c3257" vid="170ff384-b622-11e6-bbe2-ac72891c3257"></item> 
     5270<item defaultPriority="1" deflate="0" deflate_level="0" description="maximum near-surface (usually, 2 meter) air temperature (add cell_method attribute &quot;time: max&quot;)" frequency="day" label="tasmaxCrop" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="4" shuffle="0" stid="deffdb1a-ce15-11e8-8bae-a44cc8186c64" title="Daily Maximum Near-Surface Air Temperature over Crop Tile" type="real" uid="2eb1ab6e-b64e-11e6-b9ee-ac72891c3257" vid="170ff384-b622-11e6-bbe2-ac72891c3257"></item> 
    53835271<item defaultPriority="1" deflate="" deflate_level="" description="monthly mean of the daily-minimum near-surface air temperature." frequency="mon" label="tasmin" mipTable="Amon" mipTableSection="Amon_2d" modeling_realm="atmos" mtid="MIPtable::Amon" positive="" processing="normally, this should be reported at the 2 meter height." prov="Amon ((isd.003))" provNote="Amon_2d" rowIndex="16" shuffle="" stid="f7e03122-562c-11e6-a2a4-ac72891c3257" subGroup="Amon_2d" title="Daily Minimum Near-Surface Air Temperature" type="real" uid="bab955ea-e5dd-11e5-8482-ac72891c3257" vid="cce3dd39c138bf3c4d713263cc2e6cff"></item> 
    53845272<item defaultPriority="1" deflate="" deflate_level="" description="minimum near-surface (usually, 2 meter) air temperature (add cell_method attribute &quot;time: min&quot;)" frequency="day" label="tasmin" 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="15" shuffle="" stid="f7e59f36-562c-11e6-a2a4-ac72891c3257" subGroup="day_oth" title="Daily Minimum Near-Surface Air Temperature" type="real" uid="bab95fae-e5dd-11e5-8482-ac72891c3257" vid="cce3dd39c138bf3c4d713263cc2e6cff"></item> 
    5385 <item defaultPriority="1" deflate="0" deflate_level="0" description="minimum near-surface (usually, 2 meter) air temperature (add cell_method attribute &quot;time: min&quot;)" frequency="mon" label="tasminCrop" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="7" shuffle="0" stid="f7e03122-562c-11e6-a2a4-ac72891c3257" title="Daily Minimum Near-Surface Air Temperature over Crop Tile" type="real" uid="124a104a-c14f-11e6-bb78-ac72891c3257" vid="1758307c-b622-11e6-bbe2-ac72891c3257"></item> 
    5386 <item defaultPriority="1" deflate="0" deflate_level="0" description="minimum near-surface (usually, 2 meter) air temperature (add cell_method attribute &quot;time: min&quot;)" frequency="day" label="tasminCrop" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="5" shuffle="0" stid="f7e59f36-562c-11e6-a2a4-ac72891c3257" title="Daily Minimum Near-Surface Air Temperature over Crop Tile" type="real" uid="2eb1b0aa-b64e-11e6-b9ee-ac72891c3257" vid="1758307c-b622-11e6-bbe2-ac72891c3257"></item> 
     5273<item defaultPriority="1" deflate="0" deflate_level="0" description="minimum near-surface (usually, 2 meter) air temperature (add cell_method attribute &quot;time: min&quot;)" frequency="mon" label="tasminCrop" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="7" shuffle="0" stid="deffdb18-ce15-11e8-8bae-a44cc8186c64" title="Daily Minimum Near-Surface Air Temperature over Crop Tile" type="real" uid="124a104a-c14f-11e6-bb78-ac72891c3257" vid="1758307c-b622-11e6-bbe2-ac72891c3257"></item> 
     5274<item defaultPriority="1" deflate="0" deflate_level="0" description="minimum near-surface (usually, 2 meter) air temperature (add cell_method attribute &quot;time: min&quot;)" frequency="day" label="tasminCrop" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="5" shuffle="0" stid="e002acac-ce15-11e8-8bae-a44cc8186c64" title="Daily Minimum Near-Surface Air Temperature over Crop Tile" type="real" uid="2eb1b0aa-b64e-11e6-b9ee-ac72891c3257" vid="1758307c-b622-11e6-bbe2-ac72891c3257"></item> 
    53875275<item defaultPriority="1" deflate="" deflate_level="" description="2D monthly mean thermal tropopause calculated using WMO tropopause definition on 3d temperature" frequency="mon" label="tatp" 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 Air Temperature" type="real" uid="19bf81b2-81b1-11e6-92de-ac72891c3257" vid="cff597224d260da1a1c769aab1bbea9d"></item> 
    53885276<item defaultPriority="1" deflate="0" deflate_level="0" description="Momentum flux" frequency="day" label="tau" mipTable="Eday" modeling_realm="atmos" mtid="MIPtable::Eday" positive="" prov="LS3MIP [LEday]" provNote="" rowIndex="18" shuffle="0" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Momentum flux" type="real" uid="d227a0d4-4a9f-11e6-b84e-ac72891c3257" vid="590e6e4c-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    54065294<item defaultPriority="2" deflate="0" deflate_level="0" description="Dew point temperature is the temperature at which a parcel of air reaches saturation upon being cooled at constant pressure and specific humidity." frequency="mon" label="tdps" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="DCPP [DCPP-mon]" provNote="" rowIndex="26" shuffle="0" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" title="2m dewpoint temperature" type="real" uid="6f68feda-9acb-11e6-b7ee-ac72891c3257" vid="4f3e5df56723b77c87e15cce7594ab94"></item> 
    54075295<item defaultPriority="2" deflate="0" deflate_level="0" description="Dew point temperature is the temperature at which a parcel of air reaches saturation upon being cooled at constant pressure and specific humidity." 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="real" uid="8b926364-4a5b-11e6-9cd2-ac72891c3257" vid="4f3e5df56723b77c87e15cce7594ab94"></item> 
    5408 <item defaultPriority="3" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="tendacabf" mipTable="IyrGre" modeling_realm="atmos" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="34" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Total surface mass balance flux" type="real" uid="d5b40e16-c78d-11e6-9b25-5404a60d96b5" vid="4146943a-4f40-11e6-a814-ac72891c3257"></item> 
    5409 <item defaultPriority="3" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="tendacabf" mipTable="IyrAnt" modeling_realm="atmos" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="34" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Total surface mass balance flux" type="real" uid="d5b4a2d6-c78d-11e6-9b25-5404a60d96b5" vid="4146943a-4f40-11e6-a814-ac72891c3257"></item> 
    5410 <item defaultPriority="3" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="tendlibmassbf" mipTable="IyrGre" modeling_realm="atmos" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="35" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Total basal mass balance flux" type="real" uid="d5b41370-c78d-11e6-9b25-5404a60d96b5" vid="414699d0-4f40-11e6-a814-ac72891c3257"></item> 
    5411 <item defaultPriority="3" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="tendlibmassbf" mipTable="IyrAnt" modeling_realm="atmos" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="35" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Total basal mass balance flux" type="real" uid="d5b4a6e6-c78d-11e6-9b25-5404a60d96b5" vid="414699d0-4f40-11e6-a814-ac72891c3257"></item> 
    5412 <item defaultPriority="3" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="tendlicalvf" mipTable="IyrGre" modeling_realm="atmos" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="36" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Total calving flux" type="real" uid="d5b4179e-c78d-11e6-9b25-5404a60d96b5" vid="41469f3e-4f40-11e6-a814-ac72891c3257"></item> 
    5413 <item defaultPriority="3" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="tendlicalvf" mipTable="IyrAnt" modeling_realm="atmos" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="36" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Total calving flux" type="real" uid="d5b4aaec-c78d-11e6-9b25-5404a60d96b5" vid="41469f3e-4f40-11e6-a814-ac72891c3257"></item> 
     5296<item defaultPriority="3" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="tendacabf" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="34" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Total surface mass balance flux" type="real" uid="d5b40e16-c78d-11e6-9b25-5404a60d96b5" vid="4146943a-4f40-11e6-a814-ac72891c3257"></item> 
     5297<item defaultPriority="3" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="tendacabf" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="34" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Total surface mass balance flux" type="real" uid="d5b4a2d6-c78d-11e6-9b25-5404a60d96b5" vid="4146943a-4f40-11e6-a814-ac72891c3257"></item> 
     5298<item defaultPriority="3" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="tendlibmassbf" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="35" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Total basal mass balance flux" type="real" uid="d5b41370-c78d-11e6-9b25-5404a60d96b5" vid="414699d0-4f40-11e6-a814-ac72891c3257"></item> 
     5299<item defaultPriority="3" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="tendlibmassbf" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="35" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Total basal mass balance flux" type="real" uid="d5b4a6e6-c78d-11e6-9b25-5404a60d96b5" vid="414699d0-4f40-11e6-a814-ac72891c3257"></item> 
     5300<item defaultPriority="3" deflate="0" deflate_level="0" description="Greenland" frequency="yr" label="tendlicalvf" mipTable="IyrGre" modeling_realm="landIce" mtid="MIPtable::IyrGre" positive="" prov="ISMIP6 [IyrGre]" provNote="" rowIndex="36" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Total calving flux" type="real" uid="d5b4179e-c78d-11e6-9b25-5404a60d96b5" vid="41469f3e-4f40-11e6-a814-ac72891c3257"></item> 
     5301<item defaultPriority="3" deflate="0" deflate_level="0" description="Antarctica" frequency="yr" label="tendlicalvf" mipTable="IyrAnt" modeling_realm="landIce" mtid="MIPtable::IyrAnt" positive="" prov="ISMIP6 [IyrAnt]" provNote="" rowIndex="36" shuffle="0" stid="b0ec4e62-a42a-11e6-bfbb-ac72891c3257" title="Total calving flux" type="real" uid="d5b4aaec-c78d-11e6-9b25-5404a60d96b5" vid="41469f3e-4f40-11e6-a814-ac72891c3257"></item> 
    54145302<item defaultPriority="1" deflate="0" deflate_level="0" description="Temperature of bare soil" frequency="day" label="tgs" mipTable="Eday" modeling_realm="land" mtid="MIPtable::Eday" positive="" prov="LS3MIP [LEday]" provNote="" rowIndex="25" shuffle="0" stid="f7de23aa-562c-11e6-a2a4-ac72891c3257" title="Temperature of bare soil" type="real" uid="d227c0d2-4a9f-11e6-b84e-ac72891c3257" vid="5913f290-9e49-11e5-803c-0d0b866b59f3"></item> 
    54155303<item defaultPriority="1" deflate="" deflate_level="" description="Diagnostic should be contributed even for models using conservative temperature as prognostic field." frequency="dec" label="thetao" mipTable="Odec" modeling_realm="ocean" mtid="MIPtable::Odec" positive="" processing="Note change from CMIP5 K to CMIP6 C. Report on native horizontal grid as well as on a spherical latitude/longitude grid. Online mapping to depth/pressure vertical grid if depth or pressure are not native." prov="Odec ((isd.003))" provNote="" rowIndex="6" shuffle="" stid="f7e4000e-562c-11e6-a2a4-ac72891c3257" title="Sea Water Potential Temperature" type="real" uid="479522ca-bb0b-11e6-8316-5980f7b176d1" vid="cf53bdf4168a9107354d059ff39b5753"></item> 
     
    55245412<item defaultPriority="3" deflate="" deflate_level="" description="Temperature of the lower boundary of the atmosphere" frequency="6hrPt" label="ts" mipTable="6hrPlevPt" modeling_realm="atmos" mtid="MIPtable::6hrPlevPt" positive="" prov="HighResMIP [6hrPlev_intense]" provNote="" rowIndex="26" shuffle="" stid="63c0cae8-15f2-11e7-87e0-5404a60d96b5" title="Surface Temperature" type="real" uid="8bb06940-4a5b-11e6-9cd2-ac72891c3257" vid="90c49fce92dc1f21647dad07d1342843"></item> 
    55255413<item defaultPriority="1" deflate="" deflate_level="" description="Surface temperature (skin for open ocean)" frequency="mon" label="ts" mipTable="Amon" mipTableSection="Amon_2d" modeling_realm="atmos" mtid="MIPtable::Amon" positive="" prov="Amon ((isd.003))" provNote="Amon_2d" rowIndex="15" shuffle="" stid="f7dcac96-562c-11e6-a2a4-ac72891c3257" subGroup="Amon_2d" title="Surface Temperature" type="real" uid="babaef0e-e5dd-11e5-8482-ac72891c3257" vid="90c49fce92dc1f21647dad07d1342843"></item> 
    5526 <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="ts" mipTable="ImonGre" modeling_realm="atmos" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="5" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Temperature" type="real" uid="d5b280fa-c78d-11e6-9b25-5404a60d96b5" vid="90c49fce92dc1f21647dad07d1342843"></item> 
    5527 <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="ts" mipTable="ImonAnt" modeling_realm="atmos" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="5" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Temperature" type="real" uid="d5b2f7ce-c78d-11e6-9b25-5404a60d96b5" vid="90c49fce92dc1f21647dad07d1342843"></item> 
     5414<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="ts" mipTable="ImonGre" modeling_realm="landIce land" mtid="MIPtable::ImonGre" positive="" prov="ISMIP6 [ImonGre]" provNote="" rowIndex="5" shuffle="" stid="943abae8-8b06-11e6-94d1-5404a60d96b5" title="Surface Temperature" type="real" uid="d5b280fa-c78d-11e6-9b25-5404a60d96b5" vid="90c49fce92dc1f21647dad07d1342843"></item> 
     5415<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="ts" mipTable="ImonAnt" modeling_realm="landIce land" mtid="MIPtable::ImonAnt" positive="" prov="ISMIP6 [ImonAnt]" provNote="" rowIndex="5" shuffle="" stid="943b4f4e-8b06-11e6-94d1-5404a60d96b5" title="Surface Temperature" type="real" uid="d5b2f7ce-c78d-11e6-9b25-5404a60d96b5" vid="90c49fce92dc1f21647dad07d1342843"></item> 
    55285416<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="tsIs" mipTable="LImon" mipTableSection="new" modeling_realm="landIce" mtid="MIPtable::LImon" positive="" prov="ISMIP6 [new_LImon]" provNote="" rowIndex="5" shuffle="0" stid="f94a76ea-80ba-11e6-ab6e-5404a60d96b5" title="Ice Sheet Surface Temperature" type="real" uid="8120c020-bf17-11e6-b0d8-ac72891c3257" vid="5382419a-bf01-11e6-a554-ac72891c3257"></item> 
    55295417<item defaultPriority="3" deflate="" deflate_level="" description="Temperature of single near-surface soil layer.  Reported as &quot;missing&quot; for grid cells occupied entirely by &quot;sea&quot;." frequency="6hr" label="tsl" mipTable="6hrPlevPt" modeling_realm="land" mtid="MIPtable::6hrPlevPt" positive="" prov="HighResMIP [6hrPlev_intense]" provNote="" rowIndex="30" shuffle="" stid="f7e54ec8-562c-11e6-a2a4-ac72891c3257" title="Temperature of Near-Surface Soil Layer" type="real" uid="9138eb1e-267c-11e7-8933-ac72891c3257" vid="3fd3cb4e2d6dd15b7dd73def96fea129"></item> 
     
    55585446<item defaultPriority="1" deflate="" deflate_level="" 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.)" frequency="mon" label="ua" 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="Eastward Wind" type="real" uid="f1f36fa2-aa70-11e6-9736-5404a60d96b5" vid="21db90c0a12448299f855fdab60930d4"></item> 
    55595447<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="real" uid="19bdde3e-81b1-11e6-92de-ac72891c3257" vid="0cde14f7745a201d47b856579bf6e759"></item> 
    5560 <item defaultPriority="1" deflate="0" deflate_level="0" description="Zonal wind at 100m" frequency="6hr" label="ua100m" mipTable="6hrPlev" modeling_realm="" mtid="MIPtable::6hrPlev" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="12" shuffle="0" stid="fa251fda-267c-11e7-9bed-ac72891c3257" title="Eastward Wind at 100m" type="real" uid="917b79b6-267c-11e7-8933-ac72891c3257" vid="0117314a-b8b2-11e6-a189-5404a60d96b5"></item> 
     5448<item defaultPriority="1" deflate="0" deflate_level="0" description="Zonal wind at 100m" frequency="6hr" label="ua100m" mipTable="6hrPlev" modeling_realm="atmos" mtid="MIPtable::6hrPlev" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="12" shuffle="0" stid="fa251fda-267c-11e7-9bed-ac72891c3257" title="Eastward Wind at 100m" type="real" uid="917b79b6-267c-11e7-8933-ac72891c3257" vid="0117314a-b8b2-11e6-a189-5404a60d96b5"></item> 
    55615449<item defaultPriority="2" deflate="0" deflate_level="0" 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.)" frequency="mon" label="ua27" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="HighResMIP [Amon_diag]" provNote="" rowIndex="17" shuffle="0" stid="f7ea1f3e-562c-11e6-a2a4-ac72891c3257" title="Eastward Wind" type="real" uid="8bafdd4a-4a5b-11e6-9cd2-ac72891c3257" vid="21db90c0a12448299f855fdab60930d4"></item> 
    55625450<item defaultPriority="3" deflate="0" deflate_level="0" description="Model levels or plev_27" frequency="1hrPt" label="ua27" mipTable="E1hr" modeling_realm="atmos" mtid="MIPtable::E1hr" positive="" prov="HighResMIP [1hr_strat]" provNote="" rowIndex="13" shuffle="0" stid="f7ea8046-562c-11e6-a2a4-ac72891c3257" title="Eastward Wind" type="real" uid="8bb0f00e-4a5b-11e6-9cd2-ac72891c3257" vid="21db90c0a12448299f855fdab60930d4"></item> 
     
    56025490<item defaultPriority="1" deflate="" deflate_level="" description="&quot;Northward&quot; indicates a vector component which is positive when directed northward (negative southward). 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.)" frequency="mon" label="va" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="Emon" provNote="" rowIndex="64" shuffle="" stid="6586d31a-6dfc-11e7-81fb-5404a60d96b5" title="Northward Wind" type="real" uid="cad8979a-6e00-11e7-9fbe-5404a60d96b5" vid="2dedcb347c18e132a2f4d625abf94585"></item> 
    56035491<item defaultPriority="1" deflate="" deflate_level="" description="&quot;Northward&quot; indicates a vector component which is positive when directed northward (negative southward). 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.)" frequency="mon" label="va" 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="Northward Wind" type="real" uid="fda662f6-96ec-11e6-b81e-c9e268aff03a" vid="2dedcb347c18e132a2f4d625abf94585"></item> 
    5604 <item defaultPriority="1" deflate="0" deflate_level="0" description="Meridional wind at 100m above the surface." frequency="6hr" label="va100m" mipTable="6hrPlev" modeling_realm="" mtid="MIPtable::6hrPlev" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="13" shuffle="0" stid="fa251fda-267c-11e7-9bed-ac72891c3257" title="Northward Wind at 100m" type="real" uid="917b7d94-267c-11e7-8933-ac72891c3257" vid="020dcc8a-b8b2-11e6-a189-5404a60d96b5"></item> 
     5492<item defaultPriority="1" deflate="0" deflate_level="0" description="Meridional wind at 100m above the surface." frequency="6hr" label="va100m" mipTable="6hrPlev" modeling_realm="atmos" mtid="MIPtable::6hrPlev" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="13" shuffle="0" stid="fa251fda-267c-11e7-9bed-ac72891c3257" title="Northward Wind at 100m" type="real" uid="917b7d94-267c-11e7-8933-ac72891c3257" vid="020dcc8a-b8b2-11e6-a189-5404a60d96b5"></item> 
    56055493<item defaultPriority="2" deflate="0" deflate_level="0" description="&quot;Northward&quot; indicates a vector component which is positive when directed northward (negative southward). 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.)" frequency="mon" label="va27" mipTable="Emon" modeling_realm="atmos" mtid="MIPtable::Emon" positive="" prov="HighResMIP [Amon_diag]" provNote="" rowIndex="18" shuffle="0" stid="f7ea1f3e-562c-11e6-a2a4-ac72891c3257" title="Northward Wind" type="real" uid="8bafe24a-4a5b-11e6-9cd2-ac72891c3257" vid="2dedcb347c18e132a2f4d625abf94585"></item> 
    56065494<item defaultPriority="3" deflate="0" deflate_level="0" description="Model levels or plev_27" frequency="1hrPt" label="va27" mipTable="E1hr" modeling_realm="atmos" mtid="MIPtable::E1hr" positive="" prov="HighResMIP [1hr_strat]" provNote="" rowIndex="14" shuffle="0" stid="f7ea8046-562c-11e6-a2a4-ac72891c3257" title="Northward Wind" type="real" uid="8bb0f518-4a5b-11e6-9cd2-ac72891c3257" vid="2dedcb347c18e132a2f4d625abf94585"></item> 
     
    56865574<item defaultPriority="1" deflate="" deflate_level="" description="Prognostic z-ward velocity component resolved by the model." frequency="mon" label="wo" 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. Those who wish to record vertical velocities and vertical fluxes on ocean half-levels may do so. If using CMOR3 you will be required to specify artificial bounds (e.g. located at full model levels) to avoid an error exit." prov="Omon ((isd.003))" provNote="Omon_3d" rowIndex="35" shuffle="" stid="00b8a31e-8f1d-11e6-a5a6-ac72891c3257" subGroup="Omon_3d" title="Sea Water Z Velocity" type="real" uid="1aab80fc-b006-11e6-9289-ac72891c3257" vid="d476e6113f5c466d27fd3aa9e9c35411"></item> 
    56875575<item defaultPriority="1" deflate="" deflate_level="" description="Prognostic z-ward velocity component resolved by the model." frequency="dec" label="wo" mipTable="Odec" modeling_realm="ocean" mtid="MIPtable::Odec" positive="" processing="Report on native horizontal grid. Online mapping to depth/pressure vertical grid if depth or pressure are not native. Those who wish to record vertical velocities and vertical fluxes on ocean half-levels may do so. If using CMOR3 you will be required to specify artificial bounds (e.g. located at full model levels) to avoid an error exit." prov="Odec ((isd.003))" provNote="" rowIndex="18" shuffle="" stid="00b8a31e-8f1d-11e6-a5a6-ac72891c3257" title="Sea Water Z Velocity" type="real" uid="4795c766-bb0b-11e6-8316-5980f7b176d1" vid="d476e6113f5c466d27fd3aa9e9c35411"></item> 
    5688 <item defaultPriority="1" deflate="0" deflate_level="0" description="Wind speed gust maximum at 100m above surface" frequency="6hr" label="wsgmax100m" mipTable="6hrPlev" modeling_realm="" mtid="MIPtable::6hrPlev" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="14" shuffle="0" stid="fa2573e0-267c-11e7-9bed-ac72891c3257" title="Maximum Wind Speed of Gust at 100m" type="real" uid="917b8168-267c-11e7-8933-ac72891c3257" vid="e4b039da-b621-11e6-bbe2-ac72891c3257"></item> 
    5689 <item defaultPriority="1" deflate="0" deflate_level="0" description="Wind speed gust maximum at 10m above surface" frequency="6hr" label="wsgmax10m" mipTable="6hrPlev" modeling_realm="" mtid="MIPtable::6hrPlev" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="14" shuffle="0" stid="f7de8a48-562c-11e6-a2a4-ac72891c3257" title="Maximum Wind Speed of Gust at 10m" type="real" uid="ef05c7e6-34cb-11e7-8257-5404a60d96b5" vid="dc801d88-34c6-11e7-8257-5404a60d96b5"></item> 
     5576<item defaultPriority="1" deflate="0" deflate_level="0" description="Wind speed gust maximum at 100m above surface" frequency="6hr" label="wsgmax100m" mipTable="6hrPlev" modeling_realm="atmos" mtid="MIPtable::6hrPlev" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="14" shuffle="0" stid="fa2573e0-267c-11e7-9bed-ac72891c3257" title="Maximum Wind Speed of Gust at 100m" type="real" uid="917b8168-267c-11e7-8933-ac72891c3257" vid="e4b039da-b621-11e6-bbe2-ac72891c3257"></item> 
     5577<item defaultPriority="1" deflate="0" deflate_level="0" description="Wind speed gust maximum at 10m above surface" frequency="6hr" label="wsgmax10m" mipTable="6hrPlev" modeling_realm="atmos" mtid="MIPtable::6hrPlev" positive="" prov="VIACSAB [viacsabExtra]" provNote="" rowIndex="14" shuffle="0" stid="f7de8a48-562c-11e6-a2a4-ac72891c3257" title="Maximum Wind Speed of Gust at 10m" type="real" uid="ef05c7e6-34cb-11e7-8257-5404a60d96b5" vid="dc801d88-34c6-11e7-8257-5404a60d96b5"></item> 
    56905578<item defaultPriority="2" deflate="0" deflate_level="0" description="Depth is the vertical distance below the surface. The water table is the surface below which the soil is saturated with water such that all pore spaces are filled." frequency="mon" label="wtd" mipTable="Emon" modeling_realm="land" mtid="MIPtable::Emon" positive="" prov="C4MIP [C_LandT1]" provNote="" rowIndex="47" shuffle="0" stid="52a3bdee-cba8-11e7-b9a8-1c4d70487308" title="Water table depth from surface." type="real" uid="8b81f0ce-4a5b-11e6-9cd2-ac72891c3257" vid="5913c4dc-9e49-11e5-803c-0d0b866b59f3"></item> 
    56915579<item defaultPriority="1" deflate="0" deflate_level="0" description="depth_of_soil_moisture_saturation" frequency="day" label="wtd" mipTable="Eday" modeling_realm="land" mtid="MIPtable::Eday" positive="" prov="LS3MIP [LWday]" provNote="" rowIndex="43" shuffle="0" stid="52a3bdee-cba8-11e7-b9a8-1c4d70487308" title="Water table depth" type="real" uid="d228a89e-4a9f-11e6-b84e-ac72891c3257" vid="5913c4dc-9e49-11e5-803c-0d0b866b59f3"></item> 
     
    57645652<objective id="obj" label="objective" title="1.6 Scientific objectives" uid="SECTION:objective" useClass="vocab"> 
    57655653<!-- <info srcType="dummy" srcRef="ptxt.py">Dummy entries</info> --> 
     5654<item description="AerChemMIP diagnostics" label="aerChem" mip="AerChemMIP" title="AerChemMIP diagnostics" uid="030af762-c570-11e8-8bae-a44cc8186c64"></item> 
    57665655<item description="Evaluate model instantaneous radiative forcing from aerosols" label="AerosolIrf" mip="RFMIP" title="Aerosol Instantaneous Forcing" uid="ebb4fea2-04e9-11e7-9857-5404a60d96b5"></item> 
    5767 <item description="AgMIP requirements input to VIACSAB" label="AgMIP" mip="VIACSAB" title="VIACSAB: AgMIP" uid="07e90ae6-26b9-11e7-9d3d-ac72891c3257"></item> 
     5656<item description="Agricultural Model Intercomparison and Improvement Project" label="AgMIP" mip="VIACSAB" title="VIACSAB: Agriculture" uid="07e90ae6-26b9-11e7-9d3d-ac72891c3257"></item> 
    57685657<item description="understand the roles of SST forcing and external forcings" label="All" mip="GMMIP" title="All forcing" uid="ebb4b168-04e9-11e7-9857-5404a60d96b5"></item> 
    57695658<item description="understand the forcing of AMO-related SST to global monsoon changes" label="Amo" mip="GMMIP" title="AMO-related forcing" uid="ebb4b654-04e9-11e7-9857-5404a60d96b5"></item> 
    57705659<item description="Allows an analysis of climate over and surrounding ice sheets. This is applicable for any climate model. It does not matter if the AOGCM does  not have a coupled ice sheet model. What is important is that the atmospheric fields are saved over the ice sheet portion of the grid cell to avoid contamination of permafrost for example" label="Analysis" mip="ISMIP6" title="ice sheet climate analysis" uid="ebb4e11a-04e9-11e7-9857-5404a60d96b5"></item> 
    5771 <item description="Apex Predators ECOSystem Model (APECOSM) impact model requirements input to VIACSAB (https://doi.org/10.1016/j.pocean.2009.09.013)" label="APECOSM" mip="VIACSAB" title="Apex Predators ECOSystem Model (APECOSM)" uid="07e68c58-26b9-11e7-9d3d-ac72891c3257"></item> 
    5772 <item description="Arctic requirements input to VIACSAB" label="Arctic" mip="VIACSAB" title="VIACSAB: Arctic" uid="07e90906-26b9-11e7-9d3d-ac72891c3257"></item> 
    5773 <item description="Atlantis [Fulton et al. 2004, 2011] is a modelling framework that was developed to support management strategy evaluation for marine systems  and includes dynamic, integrated representations of the biophysical system, human use and adaptive management" label="Atlantis" mip="VIACSAB" title="VIACSAB: Atlantis" uid="07e90366-26b9-11e7-9d3d-ac72891c3257"></item> 
     5660<item description="Apex Predators ECOSystem Model (APECOSM) impact model submission to VIACSAB (https://doi.org/10.1016/j.pocean.2009.09.013)" label="APECOSM" mip="VIACSAB" title="Apex Predators ECOSystem Model (APECOSM)" uid="07e68c58-26b9-11e7-9d3d-ac72891c3257"></item> 
     5661<item description="Arctic Climate Impact Assessment (ACIA) and CORDEX-Arctic submission to VIACSAB" label="Arctic" mip="VIACSAB" title="VIACSAB: Arctic Region" uid="07e90906-26b9-11e7-9d3d-ac72891c3257"></item> 
     5662<item description="Atlantis [Fulton et al. 2004, 2011] is a modelling framework that was developed to support management strategy evaluation for marine systems  and includes dynamic, integrated representations of the biophysical system, human use and adaptive management" label="Atlantis" mip="VIACSAB" title="VIACSAB: Marine System Management" uid="07e90366-26b9-11e7-9d3d-ac72891c3257"></item> 
    57745663<item description="Simulations of geoengineering, particularly multi-model simulations like those found in GeoMIP, can reveal the dominant processes that contribute to systematic model biases." label="Bias" mip="GeoMIP" title="origins of model bias" uid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5"></item> 
    5775 <item description="BOATS-1.0: a bioenergetically constrained model of marine upper trophic levels suitable for studies of fisheries and ocean biogeochemistry  (https://doi.org/10.5194/gmd-9-1545-2016)" label="BOATS" mip="VIACSAB" title="VIACSAB: BOATS" uid="07e8289c-26b9-11e7-9d3d-ac72891c3257"></item> 
     5664<item description="BOATS-1.0: a bioenergetically constrained model of marine upper trophic levels suitable for studies of fisheries and ocean biogeochemistry  (https://doi.org/10.5194/gmd-9-1545-2016)" label="BOATS" mip="VIACSAB" title="VIACSAB: Fisheries (upper trophic levels)" uid="07e8289c-26b9-11e7-9d3d-ac72891c3257"></item> 
    57765665<item description="quantitative evaluation of carbon cycle and other BGC components of the Earth System" label="CarbonEvaluation" mip="C4MIP" title="carbon cycle evaluation" uid="ebb321a4-04e9-11e7-9857-5404a60d96b5"></item> 
    57775666<item description="quantify and understand land and ocean carbon cycle feedbacks with climate" label="CarbonFeedbacks" mip="C4MIP" title="climate-carbon cycle feedbacks" uid="ebb2a9cc-04e9-11e7-9857-5404a60d96b5"></item> 
    57785667<item description="projections of future carbon fluxes and stores and implications for carbon budgets to achieve targets" label="CarbonProjections" mip="C4MIP" title="carbon cycle projections and carbon budgets" uid="ebb396ca-04e9-11e7-9857-5404a60d96b5"></item> 
    5779 <item description="Caribbean requirements input to VIACSAB" label="Caribbean" mip="VIACSAB" title="VIACSAB: Caribbean" uid="07e5bb5c-26b9-11e7-9d3d-ac72891c3257"></item> 
    5780 <item description="Assess downscaled projections of regional climate change" label="ClimateChange" mip="CORDEX" title="CORDEX climate change" uid="ebb4935e-04e9-11e7-9857-5404a60d96b5"></item> 
    5781 <item description="Climate services requirements input to VIACSAB" label="climateServices" mip="VIACSAB" title="VIACSAB: climateServices" uid="07e75ad4-26b9-11e7-9d3d-ac72891c3257"></item> 
     5668<item description="WMO Caribbean Climate Center submission to VIACSAB" label="Caribbean" mip="VIACSAB" title="VIACSAB: Caribbean region" uid="07e5bb5c-26b9-11e7-9d3d-ac72891c3257"></item> 
     5669<item description="Climate services submissions to VIACSAB" label="climateServices" mip="VIACSAB" title="VIACSAB: Climate Services" uid="07e75ad4-26b9-11e7-9d3d-ac72891c3257"></item> 
    57825670<item description="How do clouds and their changes interact with other elements of the climate system?" label="Cloudcoupling" mip="CFMIP" title="cloud couplings in the climate system" uid="ebb48b3e-04e9-11e7-9857-5404a60d96b5"></item> 
    57835671<item description="How well do clouds and other relevant variables simulated by models agree with observations?" label="Cloudevaluation" mip="CFMIP" title="cloud evaluation diagnostics" uid="ebb40bb4-04e9-11e7-9857-5404a60d96b5"></item> 
    57845672<item description="What physical processes and mechanisms are important for a credible simulation of clouds, cloud feedbacks and cloud adjustments in climate models?  Which models have the most credible representations of processes relevant to the simulation of clouds?" label="Cloudprocesses" mip="CFMIP" title="cloud process diagnostics" uid="ebb47ff4-04e9-11e7-9857-5404a60d96b5"></item> 
     5673<item description="Baseline diagnostics to ensure there are no gaps in the request" label="CMIP6baseline" mip="CMIP" title="Baseline Diagnostices for all experiments" uid="x09581_6554f3a1-81af-11e8-b252-1c4d70487308"></item> 
    57855674<item description="While Carbon Dioxide Removal (CDR) is implemented in many scenarios that limit climate change, at present it remains undeveloped at the scales required, and its efficacy and impacts upon the Earth system are not well known. The Carbon Dioxide Removal Model Intercomparison Project (CDR-MIP) brings together models of the Earth system in a common framework to explore the potential, impacts, and challenges of CDR. CDR-MIP experiments are designed to address questions concerning CDR-induced climate &quot;reversibility&quot;, the response of the Earth system to direct atmospheric CO2 removal (direct air capture and storage), and the CDR potential of proposed schemes such as afforestation/reforestation and ocean alkalinization." label="co2removal" mip="CDRMIP" title="Consequences of Carbon Dioxide Removal" uid="df311dd6-b114-11e8-96ca-1c4d70487308"></item> 
    5786 <item description="Climate Services Partnership requirements input to VIACSAB" label="CSP" mip="VIACSAB" title="Climate Services Partnership (VIACSAB)" uid="07e9139c-26b9-11e7-9d3d-ac72891c3257"></item> 
     5675<item description="Climate Services Partnership submission to VIACSAB" label="CSP" mip="VIACSAB" title="Climate Services Partnership (VIACSAB)" uid="07e9139c-26b9-11e7-9d3d-ac72891c3257"></item> 
    57875676<item description="Attempt to understand past climate change and constrain future projections with observations of past climates." label="Da" mip="DAMIP" title="detection and attribution" uid="ebb49b24-04e9-11e7-9857-5404a60d96b5"></item> 
    5788 <item description="DBEM (dynamic bioclimate envelope model) requirements input to VIACSAB" label="DBEM" mip="VIACSAB" title="VIACSAB: DBEM" uid="07e911e4-26b9-11e7-9d3d-ac72891c3257"></item> 
    5789 <item description="DBPM (global fisheries model)requirements input to VIACSAB" label="DBPM" mip="VIACSAB" title="VIACSAB: DBPM" uid="07e90730-26b9-11e7-9d3d-ac72891c3257"></item> 
    5790 <item description="Assess potential for regional climate change detection through downscaling of pre-industrial climate" label="Detection" mip="CORDEX" title="CORDEX climate detection" uid="ebb49890-04e9-11e7-9857-5404a60d96b5"></item> 
     5677<item description="DBEM (Dynamic Bioclimate Envelope Model) submission to VIACSAB" label="DBEM" mip="VIACSAB" title="VIACSAB: Fisheries (species modelling)" uid="07e911e4-26b9-11e7-9d3d-ac72891c3257"></item> 
     5678<item description="DBPM (dynamic benthic pelagic model) submission to VIACSAB" label="DBPM" mip="VIACSAB" title="VIACSAB: Fisheris (Benthic)" uid="07e90730-26b9-11e7-9d3d-ac72891c3257"></item> 
    57915679<item description="Improved understanding of biases in the simulated diurnal cycle, and potential consequences for surface fluxes, energy cycle, and extremes" label="DiurnalCycle" mip="HighResMIP" title="Diurnal cycle in temperature, precipitation" uid="ebb4d4ea-04e9-11e7-9857-5404a60d96b5"></item> 
     5680<item description="To support production of downscaled projections of regional climate change" label="downscaling" mip="CORDEX" title="CORDEX climate change" uid="ebb4935e-04e9-11e7-9857-5404a60d96b5"></item> 
    57925681<item description="Allows an analysis of the downscaling of climate variables over ice sheets. This is only needed when models have a downscaling capability" label="Downscaling" mip="ISMIP6" title="ice sheet downscaling" uid="ebb4dee0-04e9-11e7-9857-5404a60d96b5"></item> 
    57935682<item description="Improve understanding of the (seasonal to interannual) mechanisms underlying the dynamical atmospheric response to large volcanic eruptions, in particular separating indirect responses from the direct radiative response; improve understanding of decadal feedback mechanisms induced in the coupled ocean-atmosphere system by large volcanic eruptions." label="Dynamics" mip="VolMIP" title="understand atmospheric dynamics forced by volcanic eruptions" uid="ebb527f6-04e9-11e7-9857-5404a60d96b5"></item> 
    57945683<item description="Evaluate model effective radaitive forcing using fixed SST and sea-ice experiments. Concentrating on present day forcing but also looking at some past and future forcings" label="Erf" mip="RFMIP" title="Effective Radiative Forcing" uid="ebb500dc-04e9-11e7-9857-5404a60d96b5"></item> 
     5684<item description="Supporting the ESMVAL diagostic suite" label="esmval" mip="CMIP" title="ESMVal " uid="84d6375c-c575-11e8-8bae-a44cc8186c64"></item> 
    57955685<item description="uncoupled ocean model evaluation" label="Evaluation" mip="OMIP" title="model evaluation" uid="ebb4ec6e-04e9-11e7-9857-5404a60d96b5"></item> 
    57965686<item description="systematic biases : benchmarking (with comparison with results of previous PMIP phases PMIP1, 2, 3)" label="Evaluation" mip="PMIP" title="evaluation of climate models for climate states different from the present/recent one" uid="ebb4f236-04e9-11e7-9857-5404a60d96b5"></item> 
    57975687<item description="Evaluate models against observations. Improve understanding of the role of background climate conditions in determining the climate response to the 1991 Pinatubo eruption. The evaluation must take into account the idealized character of VolMIP experiments." label="Evaluation" mip="VolMIP" title="evaluation against observations" uid="ebb520e4-04e9-11e7-9857-5404a60d96b5"></item> 
    5798 <item description="Ecopath with Ecosim (EwE) and Ecoocean requirements input to VIACSAB" label="EwE" mip="VIACSAB" title="VIACSAB: EwE" uid="07e90cb2-26b9-11e7-9d3d-ac72891c3257"></item> 
     5688<item description="Ecopath with Ecosim (EwE) and Ecoocean submission to VIACSAB" label="EwE" mip="VIACSAB" title="VIACSAB: Ocean Ecosphere" uid="07e90cb2-26b9-11e7-9d3d-ac72891c3257"></item> 
     5689<item description="VIACSAB Miscellaneous" label="Extra" mip="VIACSAB" title="VIACSAB Miscellaneous" uid="758fd026-c577-11e8-8bae-a44cc8186c64"></item> 
    57995690<item description="Improvements in the simulation of extreme events such as heat waves, drought and floods and their drivers" label="ExtremeEvents" mip="HighResMIP" title="Extreme events with high impact on society" uid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5"></item> 
    58005691<item description="The goal of FAFMIP is to explain the model spread in AOGCM projections of ocean climate change forced by CO2 increase, especially regarding the geographical  patterns and magnitude of sea-level change, ocean heat uptake and thermal  expansion." label="Fafmip" mip="FAFMIP" title="Coupled Mode Spread" uid="ebb4af10-04e9-11e7-9857-5404a60d96b5"></item> 
    5801 <item description="FISH-MIP requirements input to VIACSAB" label="FISH-MIP" mip="VIACSAB" title="VIACSAB: FISH-MIP" uid="07e9014a-26b9-11e7-9d3d-ac72891c3257"></item> 
     5692<item description="Fisheries and Marine Ecosystems Model Intercomparison Project " label="FISH-MIP" mip="VIACSAB" title="VIACSAB: Fisheries MIP" uid="07e9014a-26b9-11e7-9d3d-ac72891c3257"></item> 
    58025693<item description="One of the goals of GeoMIP is to understand the Earth System's response to climate forcing agents - both single forcing agents and combinations of forcings." label="Forcing" mip="GeoMIP" title="climate forcing" uid="ebb4bf64-04e9-11e7-9857-5404a60d96b5"></item> 
    58035694<item description="Provide climate data sets useful in driving ice sheet standalone models (examples are temperature and surface mass balance)." label="Forcing" mip="ISMIP6" title="ice sheet forcing" uid="ebb4dc6a-04e9-11e7-9857-5404a60d96b5"></item> 
     
    58095700<item description="Allow an analysis of the sea-ice heat budget" label="Heat" mip="SIMIP" title="sea ice heat budget" uid="ebb509e2-04e9-11e7-9857-5404a60d96b5"></item> 
    58105701<item description="Evaluation of the dynamics of heat transfer in the free atmosphere, characterize impacts of external radiative forcing (solar, volcanic, antropogenic) and enable analysis to break down feedbacks in Earth System models. Additional tendencies are requested, for gravity wave diagnostics." label="HeatBudget" mip="DynVar" title="atmospheric heat budget" uid="ebb4ac90-04e9-11e7-9857-5404a60d96b5"></item> 
    5811 <item description="To determine the origin, mechanisms and predictability of long timescale variations including the &quot;hiatus&quot; and similar variations of both signs" label="Hiatusetc" mip="DCPP" title="Mechanisms and case studies" uid="ebb4a286-04e9-11e7-9857-5404a60d96b5"></item> 
    58125702<item description="To assess the decadal predictability and forecast skill of forced and internally generated climate" label="Hindcasts" mip="DCPP" title="decadal hindcasts" uid="ebb49db8-04e9-11e7-9857-5404a60d96b5"></item> 
    58135703<item description="understand the forcing of IPO-related tropical SST to global monsoon changes." label="Ipo" mip="GMMIP" title="IPO-related forcing" uid="ebb4b410-04e9-11e7-9857-5404a60d96b5"></item> 
    5814 <item description="ISI-MIP requirements input to VIACSAB" label="ISI-MIP" mip="VIACSAB" title="VIACSAB: ISI-MIP" uid="07e91d38-26b9-11e7-9d3d-ac72891c3257"></item> 
     5704<item description="Inter-sectoral Model Intercomparison Project (ISI-MIP)" label="ISI-MIP" mip="VIACSAB" title="VIACSAB: ISI-MIP" uid="07e91d38-26b9-11e7-9d3d-ac72891c3257"></item> 
    58155705<item description="provide a comprehensive assessment of land surface-,  snow-, and soil moisture-climate feedbacks" label="LandClimFeedback" mip="LS3MIP" title="land processes and climate feedback" uid="ebb4e7dc-04e9-11e7-9857-5404a60d96b5"></item> 
    58165706<item description="diagnose systematic biases in the land modules of current ESMs using constrained land-module only experiments" label="LandDiag" mip="LS3MIP" title="diagnosis of systematic biases in land modules" uid="ebb4e5a2-04e9-11e7-9857-5404a60d96b5"></item> 
    58175707<item description="Improvement of the simulation of large scale atmospheric circulation phenomena such as ENSO, storm tracks, blocking, monsoons, global water cycle" label="LargeScale" mip="HighResMIP" title="large scale atmospheric circulation characteristics" uid="ebb4c946-04e9-11e7-9857-5404a60d96b5"></item> 
    58185708<item description="Assess and quantify the biogeophysical and carbon cycle consequences for climate of historic and future land cover and land use change" label="Lulcc" mip="LUMIP" title="land use and land cover change forcing on climate" uid="ebb4ea16-04e9-11e7-9857-5404a60d96b5"></item> 
    5819 <item description="Macroecological ( statistical patterns of abundance, distribution and diversity) requirements input to VIACSAB" label="Macroecological" mip="VIACSAB" title="VIACSAB: Macroecological" uid="07e91ee6-26b9-11e7-9d3d-ac72891c3257"></item> 
    5820 <item description="Madingley General Ecosystem Model  requirements input to VIACSAB" label="Madingley" mip="VIACSAB" title="VIACSAB: Madingley" uid="07e91b4e-26b9-11e7-9d3d-ac72891c3257"></item> 
    5821 <item description="Data for malaria studies: requirements input to VIACSAB" label="Malaria" mip="VIACSAB" title="VIACSAB: Malaria" uid="07e90564-26b9-11e7-9d3d-ac72891c3257"></item> 
    5822 <item description="General diagnostics" label="ModelIntercomparison1" mip="CMIP" title="Diagnostics for model intercomparison" uid="x09581_6554f3a1-81af-11e8-b252-1c4d70487308"></item> 
    5823 <item description="General diagnostics" label="ModelIntercomparison2" mip="CMIP" title="Diagnostics for model intercomparison" uid="x09997_6554f541-81af-11e8-b252-1c4d70487308"></item> 
     5709<item description="Macroecological ( statistical patterns of abundance, distribution and diversity) submission to VIACSAB" label="Macroecological" mip="VIACSAB" title="VIACSAB: Macroecological" uid="07e91ee6-26b9-11e7-9d3d-ac72891c3257"></item> 
     5710<item description="Madingley General Ecosystem Model  submission to VIACSAB" label="Madingley" mip="VIACSAB" title="VIACSAB: General Ecosystem" uid="07e91b4e-26b9-11e7-9d3d-ac72891c3257"></item> 
     5711<item description="Data for malaria studies: submission to VIACSAB" label="Malaria" mip="VIACSAB" title="VIACSAB: Malaria Studies" uid="07e90564-26b9-11e7-9d3d-ac72891c3257"></item> 
     5712<item description="To determine the origin, mechanisms and predictability of long timescale variations including the &quot;hiatus&quot; and similar variations of both signs" label="mechanims" mip="DCPP" title="Mechanisms and case studies" uid="ebb4a286-04e9-11e7-9857-5404a60d96b5"></item> 
     5713<item description="" label="modelIntercomparison" mip="CMIP" title="Model Intercomparison" uid="8d157992-c574-11e8-8bae-a44cc8186c64"></item> 
    58245714<item description="Allow an analysis of the sea-ice momentum budget" label="Momentum" mip="SIMIP" title="sea ice momentum budget" uid="ebb50c12-04e9-11e7-9857-5404a60d96b5"></item> 
    58255715<item description="Evaluation of the dynamics of momentum transport in the free atmosphere and at the surface, to understand how dynamical processes contribute to persistent model biases in the mean state and variability of the atmosphere. In the free atmosphere, limited to the  Transformed Eulerian Mean (TEM) zonal momentum balace [2D, daily and monthly.  The TEM diagnostics must be calculated from high frequency (6hr or shorter time intervals) atmospheric fields. The  TEM diagnostics here requested are derived from the TEM primitivie equations in spherical, log-pressure coordinates, see  Andrews et al (1987): Middle Atmospheric Dynamics. Accademic Press. Additional tendencies are requested, for gravity wave diagnostics. The surface momentum balance is 2D, XY, daily and monthly." label="MomentumBudget" mip="DynVar" title="atmospheric TEM zonal momentum budget analysis" uid="ebb4aa06-04e9-11e7-9857-5404a60d96b5"></item> 
    58265716<item description="analysis of mechanisms of climate variability on long (decadal to centennial) time-scales" label="NaturalVariability" mip="PMIP" title="natural variability of climate system over a millenium" uid="ebb4f484-04e9-11e7-9857-5404a60d96b5"></item> 
    58275717<item description="Improvement in the simulation of ocean and sea-ice dynamics and the exchange with the overlying atmopshere in hot spots such as the Gulf Stream" label="Ocean" mip="HighResMIP" title="ocean and sea-ice dynamics" uid="ebb4d2a6-04e9-11e7-9857-5404a60d96b5"></item> 
    5828 <item description="OSMOSE (Modelling Marine Ecosystems) requirements input to VIACSAB (http://www.osmose-model.org/)" label="OSMOSE" mip="VIACSAB" title="VIACSAB: OSMOSE" uid="07e8f880-26b9-11e7-9d3d-ac72891c3257"></item> 
    5829 <item description="Provide climate data sets useful in driving ecosystem models under paleo conditions  (example ....)" label="Paleo" mip="CMIP" title="paleo ecosystems" uid="ebb490de-04e9-11e7-9857-5404a60d96b5"></item> 
    5830 <item description="Provide climate data sets useful in driving ecosystem models under paleo conditions  (example ....)" label="Paleo" mip="VIACSAB" title="paleo ecosystems" uid="ebb513b0-04e9-11e7-9857-5404a60d96b5"></item> 
     5718<item description="OSMOSE (Modelling Marine Ecosystems) submission to VIACSAB (http://www.osmose-model.org/)" label="OSMOSE" mip="VIACSAB" title="VIACSAB: Marine Ecosystems (OSMOSE)" uid="07e8f880-26b9-11e7-9d3d-ac72891c3257"></item> 
    58315719<item description="Evaluate models against paleo reconstructions This objective is motivated by the mismatch between simulated and reconstructed post-eruption surface cooling for volcanic eruptions during the last millennium. The evaluation must take into account the idealized character of VolMIP experiments." label="Paleo" mip="VolMIP" title="evaluation against reconstructions" uid="ebb51d92-04e9-11e7-9857-5404a60d96b5"></item> 
    58325720<item description="Link climate changes to quantities measured to reconstruct paleoclimates: vegetation or ocean biological characteristics, ice-sheets, isotopic tracers (in particular carbon and oxygen) in ocean, land and ice-sheets" label="PaleoImpacts" mip="PMIP" title="impacts on paleoclimate recording systems" uid="ebb4f79a-04e9-11e7-9857-5404a60d96b5"></item> 
    58335721<item description="Run regional climate models for past climate changes, following the same methods as CORDEX for future climate, to test these models in for climates very different from now, and to study the spatial extent of significance for paleo-data" label="Paleorcms" mip="PMIP" title="past climate changes at regional scale" uid="ebb4f9de-04e9-11e7-9857-5404a60d96b5"></item> 
    5834 <item description="POEM requirements input to VIACSAB" label="POEM" mip="VIACSAB" title="VIACSAB: POEM" uid="07e9198c-26b9-11e7-9d3d-ac72891c3257"></item> 
     5722<item description="Princeton Ocean Ecosystem Model (POEM) submission to VIACSAB" label="POEM" mip="VIACSAB" title="VIACSAB: Ocean Ecosystem Modelling with POEM " uid="07e9198c-26b9-11e7-9d3d-ac72891c3257"></item> 
    58355723<item description="Polar Amplification" label="PolarAmp" mip="PAMIP" title="Polar Amplification" uid="0f119af6-4d1c-11e8-be0a-1c4d70487308"></item> 
    58365724<item description="A systematical assessment of regional climate variability - and associated predictability and prediction - during periods of strong volcanic forcing at both intraseasonal-to-seasonal and interannual-to-decadal time scales" label="Predictability" mip="VolMIP" title="predictability of regional climate response to volcanic forcing" uid="ebb5242c-04e9-11e7-9857-5404a60d96b5"></item> 
    58375725<item description="Very high frequency diagnostics are needed to better understand the performance of particularly important model schemes (such as convection) and be able to understand differences between models more thoroughly." label="ProcessStudies" mip="HighResMIP" title="High frequency diagnostics to understand model performance" uid="ebb4d74c-04e9-11e7-9857-5404a60d96b5"></item> 
    58385726<item description="Quantifying adjustments of clouds, precip, land-temperature etc." label="RapidAdjustment" mip="RFMIP" title="Quantifying adjustments" uid="ebb50316-04e9-11e7-9857-5404a60d96b5"></item> 
    5839 <item description="CMIP6 Historical Simulations with prescribed aerosol optical properties for  use in detection atribution studies aimed at identifying magnitude of aerosol forcing.  These runs differ from the corresponding DAMIP runs only in that they require all models to use the same prescribed aerosol forcings.    This distinction is not meaningful when models anyway use the RFMIP historical aerosol climatology as their default." label="RfmipSpaer" mip="RFMIP" title="RFMIP prescribed aerosol historical simulations" uid="ebb50546-04e9-11e7-9857-5404a60d96b5"></item> 
    58405727<item description="Allow an analysis of the sea-ice salt budget" label="Salt" mip="SIMIP" title="sea ice salt budget" uid="ebb50f14-04e9-11e7-9857-5404a60d96b5"></item> 
    5841 <item description="SEAPODYM requirements input to VIACSAB" label="SEAPODYM" mip="VIACSAB" title="VIACSAB: SEAPODYM" uid="07e90e60-26b9-11e7-9d3d-ac72891c3257"></item> 
    5842 <item description="Attempt to constrain climate sensitivity with observations of past climates (example ...)" label="Sensitivity" mip="CMIP" title="climate sensitivity" uid="ebb48e54-04e9-11e7-9857-5404a60d96b5"></item> 
     5728<item description="Baseline diagnostics to ensure there are no gaps in the request from ScenarioMIP experiments" label="ScenarioBaseline" mip="CMIP" title="Baseline Diagnostices for ScenarioMIP experiments" uid="x09997_6554f541-81af-11e8-b252-1c4d70487308"></item> 
     5729<item description="Spatial Ecosystem and Population Dynamics model (SEAPODYM)" label="SEAPODYM" mip="VIACSAB" title="VIACSAB: Ecosystem Dynamics" uid="07e90e60-26b9-11e7-9d3d-ac72891c3257"></item> 
    58435730<item description="Attempt to constrain climate sensitivity and feedbacks due to ice sheets" label="Sensitivity" mip="ISMIP6" title="climate sensitivity due to ice sheets" uid="ebb4e368-04e9-11e7-9857-5404a60d96b5"></item> 
    5844 <item description="Attempt to constrain climate sensitivity with observations of past climates (example ...)" label="Sensitivity" mip="VIACSAB" title="climate sensitivity" uid="ebb51144-04e9-11e7-9857-5404a60d96b5"></item> 
    58455731<item description="Improve the characterization of volcanic forcing and associated climate sensitivity through improved understanding of how the hydrological cycle and the large-scale circulation respond to volcanic forcing, through improved understanding of forced responses of the coupled ocean-atmosphere system, and through improved assessment of internal variability." label="Sensitivity" mip="VolMIP" title="climate sensitivity to volcanic forcing" uid="ebb516a8-04e9-11e7-9857-5404a60d96b5"></item> 
    5846 <item description="SICCME requirements input to VIACSAB" label="SICCME" mip="VIACSAB" title="VIACSAB: SICCME" uid="07e920b2-26b9-11e7-9d3d-ac72891c3257"></item> 
    5847 <item description="Assess regional climate change signal/noise ratios from analyses of climate change and internal variability generated by CMIP GCMs" label="Signals" mip="CORDEX" title="CORDEX climate signals" uid="ebb495e8-04e9-11e7-9857-5404a60d96b5"></item> 
     5732<item description="Strategic Initiative on Climate Change Impacts on Marine Ecosystems submission to VIACSAB" label="SICCME" mip="VIACSAB" title="VIACSAB: Strategic Initiative on Climate Change Impacts on Marine Ecosystems (SICCME)" uid="07e920b2-26b9-11e7-9d3d-ac72891c3257"></item> 
    58485733<item description="Improvement in the simulation of small scale weather phenomena with potentially severe impacts, such as tropical cyclones, polar lows" label="SmallScale" mip="HighResMIP" title="small scale weather phenomena" uid="ebb4cbb2-04e9-11e7-9857-5404a60d96b5"></item> 
    5849 <item description="SMHI-FoUo requirements input to VIACSAB" label="SMHI-FoUo" mip="VIACSAB" title="VIACSAB: SMHI-FoUo" uid="07e91018-26b9-11e7-9d3d-ac72891c3257"></item> 
     5734<item description="SMHI Oceanography R&amp;D submission to VIACSAB" label="SMHI-FoUo" mip="VIACSAB" title="VIACSAB: SMHI-FoUo" uid="07e91018-26b9-11e7-9d3d-ac72891c3257"></item> 
    58505735<item description="Describe the ice sheet state (example are velocities, thickness)" label="State" mip="ISMIP6" title="ice sheet state" uid="ebb4d9b8-04e9-11e7-9857-5404a60d96b5"></item> 
    58515736<item description="Describe sea-ice state" label="State" mip="SIMIP" title="sea ice state" uid="ebb507b2-04e9-11e7-9857-5404a60d96b5"></item> 
     
    59435828<item comment="" grid="" gridreq="" label="Arctic-1" mip="VIACSAB" objective="Arctic" opar="" opt="" refid="6d97bf76-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: Arctic.1" uid="07e966da-26b9-11e7-9d3d-ac72891c3257"></item> 
    59445829<item comment="" grid="" gridreq="" label="Arctic-1c" mip="VIACSAB" objective="Arctic" opar="" opt="" refid="6d9893a6-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: Arctic.1c" uid="07ea0428-26b9-11e7-9d3d-ac72891c3257"></item> 
    5945 <item comment="" grid="" gridreq="" label="Arctic-2" mip="VIACSAB" objective="Arctic" opar="" opt="" refid="6d99465c-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: Arctic.2" uid="07ea85b0-26b9-11e7-9d3d-ac72891c3257"></item> 
    59465830<item comment="" grid="" gridreq="" label="Arctic-2c" mip="VIACSAB" objective="Arctic" opar="" opt="" refid="6d98dac8-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: Arctic.2c" uid="07ea39f2-26b9-11e7-9d3d-ac72891c3257"></item> 
    59475831<item comment="" grid="" gridreq="" label="Arctic-3c" mip="VIACSAB" objective="Arctic" opar="" opt="" refid="6d98150c-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: Arctic.3c" uid="07e9a794-26b9-11e7-9d3d-ac72891c3257"></item> 
     
    61035987<item comment="" grid="" gridreq="" label="esmval" mip="CMIP" objective="esmval" opar="" opt="all" refid="b7d445ce-c16a-11e6-bb6a-ac72891c3257" tab="esmval" title="esmval" uid="b7d445ce-c16a-11e6-bb6a-ac72891c3257__00"></item> 
    61045988<item comment="" grid="" gridreq="" label="esmval-3hr" mip="CMIP" objective="esmval" opar="" opt="all" refid="b8257ed0-c16a-11e6-bb6a-ac72891c3257" tab="esmval-3hr" title="esmval-3hr" uid="b8257ed0-c16a-11e6-bb6a-ac72891c3257__00"></item> 
    6105 <item comment="Baseline set of variables for all experiments" grid="" gridreq="" label="esmvalBaseline" mip="CMIP" objective="ModelIntercomparison1" opar="" opt="" refNote="added by requestReview script" refid="x09583_6554f3a3-81af-11e8-b252-1c4d70487308" title="ESMval baseline" uid="x09582_6554f3a2-81af-11e8-b252-1c4d70487308"></item> 
     5989<item comment="Baseline set of variables for all experiments" grid="" gridreq="" label="esmvalBaseline" mip="CMIP" objective="CMIP6baseline" opar="" opt="" refNote="added by requestReview script" refid="x09583_6554f3a3-81af-11e8-b252-1c4d70487308" title="ESMval baseline" uid="x09582_6554f3a2-81af-11e8-b252-1c4d70487308"></item> 
    61065990<item comment="" grid="" gridreq="" label="EwE-1" mip="VIACSAB" objective="EwE" opar="" opt="" refid="6d97dd76-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: EwE.1" uid="07e97f9e-26b9-11e7-9d3d-ac72891c3257"></item> 
    61075991<item comment="" grid="" gridreq="" label="EwE-1c" mip="VIACSAB" objective="EwE" opar="" opt="" refid="6d98cfd8-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: EwE.1c" uid="07ea3146-26b9-11e7-9d3d-ac72891c3257"></item> 
     
    61196003<item comment="" grid="" gridreq="" label="FISH-MIP-2c" mip="VIACSAB" objective="FISH-MIP" opar="" opt="" refid="6d97d7ae-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: FISH-MIP.2c" uid="07e97b5c-26b9-11e7-9d3d-ac72891c3257"></item> 
    61206004<item comment="" grid="" gridreq="" label="FISH-MIP-3" mip="VIACSAB" objective="FISH-MIP" opar="" opt="" refid="6d990ec6-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: FISH-MIP.3" uid="07ea5d2e-26b9-11e7-9d3d-ac72891c3257"></item> 
    6121 <item comment="" grid="" gridreq="" label="FISH-MIP-3b" mip="VIACSAB" objective="FISH-MIP" opar="" opt="" refid="6d992fc8-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: FISH-MIP.3b" uid="07ea7552-26b9-11e7-9d3d-ac72891c3257"></item> 
    61226005<item comment="" grid="" gridreq="" label="FISH-MIP-3c" mip="VIACSAB" objective="FISH-MIP" opar="" opt="" refid="6d992a64-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: FISH-MIP.3c" uid="07ea7156-26b9-11e7-9d3d-ac72891c3257"></item> 
    61236006<item comment="" grid="" gridreq="" label="fx" mip="PAMIP" objective="PolarAmp" opar="" opt="all" refid="ef12e6f0-5629-11e6-9079-ac72891c3257" tab="fx" title="fx" uid="5a9014e2-4d1e-11e8-be0a-1c4d70487308"></item> 
     
    62036086<item comment="" grid="" gridreq="" label="Madingley-2c" mip="VIACSAB" objective="Madingley" opar="" opt="" refid="6d98ba0c-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: Madingley.2c" uid="07ea219c-26b9-11e7-9d3d-ac72891c3257"></item> 
    62046087<item comment="" grid="" gridreq="" label="Madingley-3" mip="VIACSAB" objective="Madingley" opar="" opt="" refid="6d98a936-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: Madingley.3" uid="07ea1512-26b9-11e7-9d3d-ac72891c3257"></item> 
    6205 <item comment="" grid="" gridreq="" label="Madingley-3b" mip="VIACSAB" objective="Madingley" opar="" opt="" refid="6d9992e2-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: Madingley.3b" uid="07eabc92-26b9-11e7-9d3d-ac72891c3257"></item> 
    62066088<item comment="" grid="" gridreq="" label="Madingley-3c" mip="VIACSAB" objective="Madingley" opar="" opt="" refid="6d998d92-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: Madingley.3c" uid="07eab8b4-26b9-11e7-9d3d-ac72891c3257"></item> 
    62076089<item comment="" grid="" gridreq="" label="Malaria-1c" mip="VIACSAB" objective="Malaria" opar="" opt="" refid="6d99246a-5979-11e6-8fd9-ac72891c3257" title="VIACSAB: Malaria.1c" uid="07ea6ce2-26b9-11e7-9d3d-ac72891c3257"></item> 
     
    62636145<item comment="See PMIP_standard_output.xls" grid="native" gridreq="" label="PMIP-Oyr" mip="PMIP" objective="all except paleoRCMs" opar="Oyr" opt="all" refid="efc0845e-5629-11e6-9079-ac72891c3257" tab="PMIP.Oyr" title="PMIP.Oyr" uid="efc0845e-5629-11e6-9079-ac72891c3257__00"></item> 
    62646146<item comment="New table" grid="native" gridreq="" label="PMIP-PMIP-6hr" mip="PMIP" objective="all" opar="" opt="all" refid="efc0f2b8-5629-11e6-9079-ac72891c3257" tab="PMIP.PMIP-6hr" title="PMIP.PMIP-6hr" uid="efc0f2b8-5629-11e6-9079-ac72891c3257__00"></item> 
    6265 <item comment="New table" grid="native" gridreq="" label="PMIP-PMIP-Aclim" mip="PMIP" objective="forcings &amp; feedbacks, evaluation, paleo-impacts" opar="" opt="all" refid="efc0be06-5629-11e6-9079-ac72891c3257" tab="PMIP.PMIP-Aclim" title="PMIP.PMIP-Aclim" uid="efc0be06-5629-11e6-9079-ac72891c3257__00"></item> 
    6266 <item comment="New table" grid="native" gridreq="" label="PMIP-PMIP-aeroclim" mip="PMIP" objective="forcings &amp; feedbacks, evaluation" opar="" opt="all" refid="efc0908e-5629-11e6-9079-ac72891c3257" tab="PMIP.PMIP-aeroclim" title="PMIP.PMIP-aeroclim" uid="efc0908e-5629-11e6-9079-ac72891c3257__00"></item> 
    6267 <item comment="New table" grid="native" gridreq="" label="PMIP-PMIP-Lclim" mip="PMIP" objective="forcings &amp; feedbacks, evaluation, paleo-impacts" opar="" opt="all" refid="efc0d684-5629-11e6-9079-ac72891c3257" tab="PMIP.PMIP-Lclim" title="PMIP.PMIP-Lclim" uid="efc0d684-5629-11e6-9079-ac72891c3257__00"></item> 
    6268 <item comment="New table" grid="native" gridreq="" label="PMIP-PMIP-LIclim" mip="PMIP" objective="all except natural variability" opar="" opt="all" refid="efc0c8e2-5629-11e6-9079-ac72891c3257" tab="PMIP.PMIP-LIclim" title="PMIP.PMIP-LIclim" uid="efc0c8e2-5629-11e6-9079-ac72891c3257__00"></item> 
    6269 <item comment="New table" grid="native" gridreq="" label="PMIP-PMIP-Oclim" mip="PMIP" objective="forcings &amp; feedbacks, evaluation, paleo-impacts" opar="" opt="all" refid="efc0cc8e-5629-11e6-9079-ac72891c3257" tab="PMIP.PMIP-Oclim" title="PMIP.PMIP-Oclim" uid="efc0cc8e-5629-11e6-9079-ac72891c3257__00"></item> 
    6270 <item comment="New table" grid="native" gridreq="" label="PMIP-PMIP-OIclim" mip="PMIP" objective="all except natural variability" opar="" opt="all" refid="efc0aba0-5629-11e6-9079-ac72891c3257" tab="PMIP.PMIP-OIclim" title="PMIP.PMIP-OIclim" uid="efc0aba0-5629-11e6-9079-ac72891c3257__00"></item> 
    62716147<item comment="See PMIP_standard_output.xls" grid="native" gridreq="" label="PMIP-PMIP-Omon" mip="PMIP" objective="all except paleoRCMs" opar="Omon" opt="all" refid="efc0e098-5629-11e6-9079-ac72891c3257" tab="PMIP.PMIP-Omon" title="PMIP.PMIP-Omon" uid="efc0e098-5629-11e6-9079-ac72891c3257__00"></item> 
    62726148<item comment="See PMIP_standard_output.xls" grid="native" gridreq="" label="PMIP-SImon" mip="PMIP" objective="all except paleoRCMs" opar="Oimon" opt="all" refid="efc0f51a-5629-11e6-9079-ac72891c3257" tab="PMIP-SImon" title="PMIP-SImon" uid="efc0f51a-5629-11e6-9079-ac72891c3257__00"></item> 
     
    62776153<item comment="" grid="" gridreq="" label="RFMIP-AeroIrf" mip="RFMIP" objective="Aerosol IRF" opar="" opt="all" refid="efc0d7ba-5629-11e6-9079-ac72891c3257" tab="RFMIP-AeroIrf" title="RFMIP-AeroIrf" uid="efc0d7ba-5629-11e6-9079-ac72891c3257__00"></item> 
    62786154<item comment="" grid="native" gridreq="" label="RFMIP-OfflineRad" mip="RFMIP" objective="Greenhouse Gas IRF" opar="" opt="all" refid="efc0de22-5629-11e6-9079-ac72891c3257" tab="RFMIP.OfflineRad" title="RFMIP.OfflineRad" uid="efc0de22-5629-11e6-9079-ac72891c3257__00"></item> 
    6279 <item comment="Baseline set of variables for ScenarioMIP experiments" grid="" gridreq="" label="scenarioMipBaseline" mip="CMIP" objective="ModelIntercomparison2" opar="" opt="" refNote="added by requestReview script" refid="x09999_6554f543-81af-11e8-b252-1c4d70487308" title="ScenarioMIP baseline" uid="x09998_6554f542-81af-11e8-b252-1c4d70487308"></item> 
     6155<item comment="Baseline set of variables for ScenarioMIP experiments" grid="" gridreq="" label="scenarioMipBaseline" mip="CMIP" objective="ScenarioBaseline" opar="" opt="" refNote="added by requestReview script" refid="x09999_6554f543-81af-11e8-b252-1c4d70487308" title="ScenarioMIP baseline" uid="x09998_6554f542-81af-11e8-b252-1c4d70487308"></item> 
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     6342<item label="CFMIP" oid="ebb48b3e-04e9-11e7-9857-5404a60d96b5" rid="90104242-a26e-11e6-bfbb-ac72891c3257__00" title="cloud couplings in the climate system [CFMIP]" uid="f5cf07ac-26b8-11e7-8344-ac72891c3257"></item> 
     6343<item label="CFMIP" oid="ebb48b3e-04e9-11e7-9857-5404a60d96b5" rid="efc0b564-5629-11e6-9079-ac72891c3257__00" title="cloud couplings in the climate system [CFMIP]" uid="f5cf0ca2-26b8-11e7-8344-ac72891c3257"></item> 
     6344<item label="CFMIP" oid="ebb48b3e-04e9-11e7-9857-5404a60d96b5" rid="efc16608-5629-11e6-9079-ac72891c3257__00" title="cloud couplings in the climate system [CFMIP]" uid="f5cf10f8-26b8-11e7-8344-ac72891c3257"></item> 
     6345<item label="CFMIP" oid="ebb48b3e-04e9-11e7-9857-5404a60d96b5" rid="efc0db98-5629-11e6-9079-ac72891c3257__00" title="cloud couplings in the climate system [CFMIP]" uid="f5cf1418-26b8-11e7-8344-ac72891c3257"></item> 
     6346<item label="CFMIP" oid="ebb48b3e-04e9-11e7-9857-5404a60d96b5" rid="5c72dd92-a277-11e6-bfbb-ac72891c3257__00" title="cloud couplings in the climate system [CFMIP]" uid="f5cf172e-26b8-11e7-8344-ac72891c3257"></item> 
     6347<item label="CFMIP" oid="ebb47ff4-04e9-11e7-9857-5404a60d96b5" rid="efc0f8bc-5629-11e6-9079-ac72891c3257__00" title="cloud process diagnostics [CFMIP]" uid="f5cf1a44-26b8-11e7-8344-ac72891c3257"></item> 
     6348<item label="CFMIP" oid="ebb47ff4-04e9-11e7-9857-5404a60d96b5" rid="efc17d96-5629-11e6-9079-ac72891c3257__00" title="cloud process diagnostics [CFMIP]" uid="f5cf1d50-26b8-11e7-8344-ac72891c3257"></item> 
     6349<item label="CFMIP" oid="ebb47ff4-04e9-11e7-9857-5404a60d96b5" rid="efc17eea-5629-11e6-9079-ac72891c3257__00" title="cloud process diagnostics [CFMIP]" uid="f5cf205c-26b8-11e7-8344-ac72891c3257"></item> 
     6350<item label="CFMIP" oid="ebb47ff4-04e9-11e7-9857-5404a60d96b5" rid="efc081de-5629-11e6-9079-ac72891c3257__00" title="cloud process diagnostics [CFMIP]" uid="f5cf2368-26b8-11e7-8344-ac72891c3257"></item> 
     6351<item label="CFMIP" oid="ebb47ff4-04e9-11e7-9857-5404a60d96b5" rid="efc07a54-5629-11e6-9079-ac72891c3257__00" title="cloud process diagnostics [CFMIP]" uid="f5cf2688-26b8-11e7-8344-ac72891c3257"></item> 
     6352<item label="CFMIP" oid="ebb47ff4-04e9-11e7-9857-5404a60d96b5" rid="efc15f32-5629-11e6-9079-ac72891c3257__00" title="cloud process diagnostics [CFMIP]" uid="f5cf2994-26b8-11e7-8344-ac72891c3257"></item> 
     6353<item label="CFMIP" oid="ebb47ff4-04e9-11e7-9857-5404a60d96b5" rid="efc17512-5629-11e6-9079-ac72891c3257__00" title="cloud process diagnostics [CFMIP]" uid="f5cf2caa-26b8-11e7-8344-ac72891c3257"></item> 
     6354<item label="CFMIP" oid="ebb47ff4-04e9-11e7-9857-5404a60d96b5" rid="ee2fcab6-7e40-11e6-9b26-f192b4cee584__00" title="cloud process diagnostics [CFMIP]" uid="f5cf2fb6-26b8-11e7-8344-ac72891c3257"></item> 
     6355<item label="CFMIP" oid="ebb47ff4-04e9-11e7-9857-5404a60d96b5" rid="efc07e0a-5629-11e6-9079-ac72891c3257__00" title="cloud process diagnostics [CFMIP]" uid="f5cf32cc-26b8-11e7-8344-ac72891c3257"></item> 
     6356<item label="CFMIP" oid="ebb47ff4-04e9-11e7-9857-5404a60d96b5" rid="efc14b32-5629-11e6-9079-ac72891c3257__00" title="cloud process diagnostics [CFMIP]" uid="f5cf35d8-26b8-11e7-8344-ac72891c3257"></item> 
     6357<item label="CFMIP" oid="ebb40bb4-04e9-11e7-9857-5404a60d96b5" rid="efc1777e-5629-11e6-9079-ac72891c3257__00" title="cloud evaluation diagnostics [CFMIP]" uid="f5cf38e4-26b8-11e7-8344-ac72891c3257"></item> 
     6358<item label="CFMIP" oid="ebb40bb4-04e9-11e7-9857-5404a60d96b5" rid="efc08bac-5629-11e6-9079-ac72891c3257__00" title="cloud evaluation diagnostics [CFMIP]" uid="f5cf3f06-26b8-11e7-8344-ac72891c3257"></item> 
     6359<item label="CFMIP" oid="ebb40bb4-04e9-11e7-9857-5404a60d96b5" rid="efc081de-5629-11e6-9079-ac72891c3257__00" title="cloud evaluation diagnostics [CFMIP]" uid="f5cf423a-26b8-11e7-8344-ac72891c3257"></item> 
     6360<item label="CFMIP" oid="ebb40bb4-04e9-11e7-9857-5404a60d96b5" rid="efc07a54-5629-11e6-9079-ac72891c3257__00" title="cloud evaluation diagnostics [CFMIP]" uid="f5cf4550-26b8-11e7-8344-ac72891c3257"></item> 
     6361<item label="CFMIP" oid="ebb40bb4-04e9-11e7-9857-5404a60d96b5" rid="efc15f32-5629-11e6-9079-ac72891c3257__00" title="cloud evaluation diagnostics [CFMIP]" uid="f5cf485c-26b8-11e7-8344-ac72891c3257"></item> 
     6362<item label="CFMIP" oid="ebb40bb4-04e9-11e7-9857-5404a60d96b5" rid="efc0b082-5629-11e6-9079-ac72891c3257__00" title="cloud evaluation diagnostics [CFMIP]" uid="f5cf4b72-26b8-11e7-8344-ac72891c3257"></item> 
     6363<item label="CFMIP" oid="ebb40bb4-04e9-11e7-9857-5404a60d96b5" rid="ee2fcab6-7e40-11e6-9b26-f192b4cee584__00" title="cloud evaluation diagnostics [CFMIP]" uid="f5cf4e88-26b8-11e7-8344-ac72891c3257"></item> 
     6364<item label="CFMIP" oid="ebb40bb4-04e9-11e7-9857-5404a60d96b5" rid="efc07e0a-5629-11e6-9079-ac72891c3257__00" title="cloud evaluation diagnostics [CFMIP]" uid="f5cf518a-26b8-11e7-8344-ac72891c3257"></item> 
     6365<item label="CFMIP" oid="ebb40bb4-04e9-11e7-9857-5404a60d96b5" rid="efc07b94-5629-11e6-9079-ac72891c3257__00" title="cloud evaluation diagnostics [CFMIP]" uid="f5cf54a0-26b8-11e7-8344-ac72891c3257"></item> 
     6366<item label="CFMIP" oid="ebb40bb4-04e9-11e7-9857-5404a60d96b5" rid="efc14b32-5629-11e6-9079-ac72891c3257__00" title="cloud evaluation diagnostics [CFMIP]" uid="f5cf57ac-26b8-11e7-8344-ac72891c3257"></item> 
     6367<item label="CFMIP" oid="ebb40bb4-04e9-11e7-9857-5404a60d96b5" rid="efc0d062-5629-11e6-9079-ac72891c3257__00" title="cloud evaluation diagnostics [CFMIP]" uid="f5cf5ab8-26b8-11e7-8344-ac72891c3257"></item> 
    64796368<item label="climateServices" oid="07e75ad4-26b9-11e7-9d3d-ac72891c3257" rid="07e94b3c-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: climateServices.1" uid="07e94d58-26b9-11e7-9d3d-ac72891c3257"></item> 
    64806369<item label="climateServices" oid="07e75ad4-26b9-11e7-9d3d-ac72891c3257" rid="07e98408-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: climateServices.1c" uid="07e98624-26b9-11e7-9d3d-ac72891c3257"></item> 
    64816370<item label="climateServices" oid="07e75ad4-26b9-11e7-9d3d-ac72891c3257" rid="07eae5f0-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: climateServices.1d" uid="07eae816-26b9-11e7-9d3d-ac72891c3257"></item> 
     6371<item label="CMIP6baseline" oid="x09581_6554f3a1-81af-11e8-b252-1c4d70487308" rid="x09420_6554f300-81af-11e8-b252-1c4d70487308" title="Baseline Diagnostices for all experiments [CMIP]" uid="x09419_6554f2ff-81af-11e8-b252-1c4d70487308"></item> 
     6372<item label="CMIP6baseline" oid="x09581_6554f3a1-81af-11e8-b252-1c4d70487308" rid="x09582_6554f3a2-81af-11e8-b252-1c4d70487308" title="Baseline Diagnostices for all experiments [CMIP]" uid="x09580_6554f3a0-81af-11e8-b252-1c4d70487308"></item> 
     6373<item label="co2removal" oid="df311dd6-b114-11e8-96ca-1c4d70487308" rid="eb766700-b113-11e8-96ca-1c4d70487308" title="co2removal [CDRMIP]" uid="298f273f0ae2cf97f7b5eacd5a82cbe1217cae20"></item> 
    64826374<item label="CSP" oid="07e9139c-26b9-11e7-9d3d-ac72891c3257" rid="07e946e6-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: CSP.1c" uid="07e9493e-26b9-11e7-9d3d-ac72891c3257"></item> 
    64836375<item label="CSP" oid="07e9139c-26b9-11e7-9d3d-ac72891c3257" rid="07ea9154-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: CSP.1" uid="07ea937a-26b9-11e7-9d3d-ac72891c3257"></item> 
    6484 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__02" title="__unset__" uid="f5ca6f30-26b8-11e7-8344-ac72891c3257"></item> 
    6485 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="6eb8fbae-605e-11e6-b84c-ac72891c3257__00" title="__unset__" uid="f5ca726e-26b8-11e7-8344-ac72891c3257"></item> 
    6486 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc1777e-5629-11e6-9079-ac72891c3257__01" title="__unset__" uid="f5ca758e-26b8-11e7-8344-ac72891c3257"></item> 
    6487 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc17d96-5629-11e6-9079-ac72891c3257__01" title="__unset__" uid="f5ca78a4-26b8-11e7-8344-ac72891c3257"></item> 
    6488 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="26d3ae3c-7c16-11e6-8a5b-ac72891c3257__02" title="__unset__" uid="f5ca7bc4-26b8-11e7-8344-ac72891c3257"></item> 
    6489 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="98d5254e-8344-11e6-959e-ac72891c3257__00" title="__unset__" uid="f5ca7eda-26b8-11e7-8344-ac72891c3257"></item> 
    6490 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="97d52748-8344-11e6-959e-ac72891c3257__01" title="__unset__" uid="f5ca81fa-26b8-11e7-8344-ac72891c3257"></item> 
    6491 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc0c068-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5ca8510-26b8-11e7-8344-ac72891c3257"></item> 
    6492 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc0d40e-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5ca8826-26b8-11e7-8344-ac72891c3257"></item> 
    6493 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc0ca22-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5ca8b46-26b8-11e7-8344-ac72891c3257"></item> 
    6494 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__02" title="__unset__" uid="f5ca8e5c-26b8-11e7-8344-ac72891c3257"></item> 
    6495 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc09a52-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5ca9172-26b8-11e7-8344-ac72891c3257"></item> 
    6496 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__02" title="__unset__" uid="f5ca9488-26b8-11e7-8344-ac72891c3257"></item> 
    6497 <item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__03" title="__unset__" uid="f5ca9794-26b8-11e7-8344-ac72891c3257"></item> 
     6376<item label="Da" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc0aa60-5629-11e6-9079-ac72891c3257__00" title="Da [DAMIP]" uid="05c606653f2e0cf47ed4295f35a07cdb9ef3e24d"></item> 
     6377<item label="Da" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc0f04c-5629-11e6-9079-ac72891c3257__00" title="Da [DAMIP]" uid="665342370fcf73733bbd781d131b6a8a46efb1f9"></item> 
     6378<item label="Da" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc07928-5629-11e6-9079-ac72891c3257__00" title="Da [DAMIP]" uid="94ffd6e68883d0385c00182fc9ac90b1faf7495d"></item> 
     6379<item label="Da" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc0ede0-5629-11e6-9079-ac72891c3257__00" title="Da [DAMIP]" uid="9c8b9b761d428900349a5aeabef76925d7f40047"></item> 
     6380<item label="Da" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc0e6a6-5629-11e6-9079-ac72891c3257__00" title="Da [DAMIP]" uid="dee7892103c8312e02c0dca6e057f993c99d3567"></item> 
     6381<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__02" title="detection and attribution [DAMIP]" uid="f5ca6f30-26b8-11e7-8344-ac72891c3257"></item> 
     6382<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="6eb8fbae-605e-11e6-b84c-ac72891c3257__00" title="detection and attribution [DAMIP]" uid="f5ca726e-26b8-11e7-8344-ac72891c3257"></item> 
     6383<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc1777e-5629-11e6-9079-ac72891c3257__01" title="detection and attribution [DAMIP]" uid="f5ca758e-26b8-11e7-8344-ac72891c3257"></item> 
     6384<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc17d96-5629-11e6-9079-ac72891c3257__01" title="detection and attribution [DAMIP]" uid="f5ca78a4-26b8-11e7-8344-ac72891c3257"></item> 
     6385<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="26d3ae3c-7c16-11e6-8a5b-ac72891c3257__02" title="detection and attribution [DAMIP]" uid="f5ca7bc4-26b8-11e7-8344-ac72891c3257"></item> 
     6386<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="98d5254e-8344-11e6-959e-ac72891c3257__00" title="detection and attribution [DAMIP]" uid="f5ca7eda-26b8-11e7-8344-ac72891c3257"></item> 
     6387<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="97d52748-8344-11e6-959e-ac72891c3257__01" title="detection and attribution [DAMIP]" uid="f5ca81fa-26b8-11e7-8344-ac72891c3257"></item> 
     6388<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc0c068-5629-11e6-9079-ac72891c3257__00" title="detection and attribution [DAMIP]" uid="f5ca8510-26b8-11e7-8344-ac72891c3257"></item> 
     6389<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc0d40e-5629-11e6-9079-ac72891c3257__00" title="detection and attribution [DAMIP]" uid="f5ca8826-26b8-11e7-8344-ac72891c3257"></item> 
     6390<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc0ca22-5629-11e6-9079-ac72891c3257__00" title="detection and attribution [DAMIP]" uid="f5ca8b46-26b8-11e7-8344-ac72891c3257"></item> 
     6391<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__02" title="detection and attribution [DAMIP]" uid="f5ca8e5c-26b8-11e7-8344-ac72891c3257"></item> 
     6392<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc09a52-5629-11e6-9079-ac72891c3257__00" title="detection and attribution [DAMIP]" uid="f5ca9172-26b8-11e7-8344-ac72891c3257"></item> 
     6393<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__02" title="detection and attribution [DAMIP]" uid="f5ca9488-26b8-11e7-8344-ac72891c3257"></item> 
     6394<item label="DAMIP" oid="ebb49b24-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__03" title="detection and attribution [DAMIP]" uid="f5ca9794-26b8-11e7-8344-ac72891c3257"></item> 
    64986395<item label="DBEM" oid="07e911e4-26b9-11e7-9d3d-ac72891c3257" rid="07e9df3e-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: DBEM.3c" uid="07e9e15a-26b9-11e7-9d3d-ac72891c3257"></item> 
    64996396<item label="DBEM" oid="07e911e4-26b9-11e7-9d3d-ac72891c3257" rid="07e9f708-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: DBEM.1" uid="07e9f960-26b9-11e7-9d3d-ac72891c3257"></item> 
     
    65056402<item label="DBPM" oid="07e90730-26b9-11e7-9d3d-ac72891c3257" rid="07e9ab7c-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: DBPM.2c" uid="07e9ada2-26b9-11e7-9d3d-ac72891c3257"></item> 
    65066403<item label="DBPM" oid="07e90730-26b9-11e7-9d3d-ac72891c3257" rid="07e9e330-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: DBPM.3c" uid="07e9e560-26b9-11e7-9d3d-ac72891c3257"></item> 
    6507 <item label="DCPP" oid="ebb49db8-04e9-11e7-9857-5404a60d96b5" rid="efc096a6-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5ca9aa0-26b8-11e7-8344-ac72891c3257"></item> 
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    6597 <item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="603bd560-5979-11e6-ac77-ac72891c3257__00" title="__unset__" uid="f5d006a2-26b8-11e7-8344-ac72891c3257"></item> 
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    6599 <item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="38bf05ea-61f6-11e6-835f-ac72891c3257__00" title="__unset__" uid="f5d00cc4-26b8-11e7-8344-ac72891c3257"></item> 
    6600 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="e24dbd26-5fd1-11e6-914d-5404a60d96b5__00" title="__unset__" uid="f5d00fd0-26b8-11e7-8344-ac72891c3257"></item> 
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    6602 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="ef12e542-5629-11e6-9079-ac72891c3257__03" title="__unset__" uid="f5d015e8-26b8-11e7-8344-ac72891c3257"></item> 
    6603 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__06" title="__unset__" uid="f5d018ea-26b8-11e7-8344-ac72891c3257"></item> 
    6604 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="38bebefa-61f6-11e6-835f-ac72891c3257__00" title="__unset__" uid="f5d01bec-26b8-11e7-8344-ac72891c3257"></item> 
    6605 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="316ca362-b97e-11e6-a189-5404a60d96b5__02" title="__unset__" uid="f5d01ef8-26b8-11e7-8344-ac72891c3257"></item> 
    6606 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="ef12f23a-5629-11e6-9079-ac72891c3257__04" title="__unset__" uid="f5d02204-26b8-11e7-8344-ac72891c3257"></item> 
    6607 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="efc0e304-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5d02510-26b8-11e7-8344-ac72891c3257"></item> 
    6608 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="603be802-5979-11e6-ac77-ac72891c3257__00" title="__unset__" uid="f5d02812-26b8-11e7-8344-ac72891c3257"></item> 
    6609 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__05" title="__unset__" uid="f5d02b28-26b8-11e7-8344-ac72891c3257"></item> 
    6610 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="38c003f0-61f6-11e6-835f-ac72891c3257__00" title="__unset__" uid="f5d02e34-26b8-11e7-8344-ac72891c3257"></item> 
    6611 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="603bd560-5979-11e6-ac77-ac72891c3257__00" title="__unset__" uid="f5d03140-26b8-11e7-8344-ac72891c3257"></item> 
    6612 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__05" title="__unset__" uid="f5d036d6-26b8-11e7-8344-ac72891c3257"></item> 
    6613 <item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="38bf05ea-61f6-11e6-835f-ac72891c3257__00" title="__unset__" uid="f5d03a00-26b8-11e7-8344-ac72891c3257"></item> 
    6614 <item label="GMMIP" oid="ebb4b168-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="__unset__" uid="f5cb9bb2-26b8-11e7-8344-ac72891c3257"></item> 
    6615 <item label="GMMIP" oid="ebb4b168-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="__unset__" uid="f5cb9e50-26b8-11e7-8344-ac72891c3257"></item> 
    6616 <item label="GMMIP" oid="ebb4b168-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="__unset__" uid="f5cba0f8-26b8-11e7-8344-ac72891c3257"></item> 
    6617 <item label="GMMIP" oid="ebb4b168-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="__unset__" uid="f5cba468-26b8-11e7-8344-ac72891c3257"></item> 
    6618 <item label="GMMIP" oid="ebb4b654-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="__unset__" uid="f5cba77e-26b8-11e7-8344-ac72891c3257"></item> 
    6619 <item label="GMMIP" oid="ebb4b654-04e9-11e7-9857-5404a60d96b5" rid="ef12e542-5629-11e6-9079-ac72891c3257__02" title="__unset__" uid="f5cbaa8a-26b8-11e7-8344-ac72891c3257"></item> 
    6620 <item label="GMMIP" oid="ebb4b654-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="__unset__" uid="f5cbada0-26b8-11e7-8344-ac72891c3257"></item> 
    6621 <item label="GMMIP" oid="ebb4b654-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="__unset__" uid="f5cbb0a2-26b8-11e7-8344-ac72891c3257"></item> 
    6622 <item label="GMMIP" oid="ebb4b654-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="__unset__" uid="f5cbb3b8-26b8-11e7-8344-ac72891c3257"></item> 
    6623 <item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="ef12f23a-5629-11e6-9079-ac72891c3257__03" title="__unset__" uid="f5cbb6c4-26b8-11e7-8344-ac72891c3257"></item> 
    6624 <item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="__unset__" uid="f5cbb9da-26b8-11e7-8344-ac72891c3257"></item> 
    6625 <item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="__unset__" uid="f5cbbce6-26b8-11e7-8344-ac72891c3257"></item> 
    6626 <item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__04" title="__unset__" uid="f5cbbff2-26b8-11e7-8344-ac72891c3257"></item> 
    6627 <item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__04" title="__unset__" uid="f5cbc2fe-26b8-11e7-8344-ac72891c3257"></item> 
    6628 <item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="__unset__" uid="f5cbc632-26b8-11e7-8344-ac72891c3257"></item> 
    6629 <item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="__unset__" uid="f5cbc93e-26b8-11e7-8344-ac72891c3257"></item> 
    6630 <item label="GMMIP" oid="ebb4b410-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="__unset__" uid="f5cbcc54-26b8-11e7-8344-ac72891c3257"></item> 
    6631 <item label="GMMIP" oid="ebb4b410-04e9-11e7-9857-5404a60d96b5" rid="ef12e542-5629-11e6-9079-ac72891c3257__02" title="__unset__" uid="f5cbcf6a-26b8-11e7-8344-ac72891c3257"></item> 
    6632 <item label="GMMIP" oid="ebb4b410-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="__unset__" uid="f5cbd5a0-26b8-11e7-8344-ac72891c3257"></item> 
    6633 <item label="GMMIP" oid="ebb4b410-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="__unset__" uid="f5cbd8b6-26b8-11e7-8344-ac72891c3257"></item> 
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    6635 <item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="ef12f23a-5629-11e6-9079-ac72891c3257__03" title="__unset__" uid="f5cbded8-26b8-11e7-8344-ac72891c3257"></item> 
    6636 <item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="__unset__" uid="f5cbe1f8-26b8-11e7-8344-ac72891c3257"></item> 
    6637 <item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="__unset__" uid="f5cbe504-26b8-11e7-8344-ac72891c3257"></item> 
    6638 <item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__04" title="__unset__" uid="f5cbe810-26b8-11e7-8344-ac72891c3257"></item> 
    6639 <item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__04" title="__unset__" uid="f5cbeb1c-26b8-11e7-8344-ac72891c3257"></item> 
    6640 <item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="__unset__" uid="f5cbee28-26b8-11e7-8344-ac72891c3257"></item> 
    6641 <item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="__unset__" uid="f5cbf134-26b8-11e7-8344-ac72891c3257"></item> 
    6642 <item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="ef12f23a-5629-11e6-9079-ac72891c3257__03" title="__unset__" uid="f5cbf44a-26b8-11e7-8344-ac72891c3257"></item> 
    6643 <item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="__unset__" uid="f5cbf756-26b8-11e7-8344-ac72891c3257"></item> 
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    6645 <item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__04" title="__unset__" uid="f5cbfddc-26b8-11e7-8344-ac72891c3257"></item> 
    6646 <item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__04" title="__unset__" uid="f5cc00f2-26b8-11e7-8344-ac72891c3257"></item> 
    6647 <item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="__unset__" uid="f5cc03fe-26b8-11e7-8344-ac72891c3257"></item> 
    6648 <item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="__unset__" uid="f5cc0714-26b8-11e7-8344-ac72891c3257"></item> 
    6649 <item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc08076-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5d03d0c-26b8-11e7-8344-ac72891c3257"></item> 
    6650 <item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc09cbe-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5d04018-26b8-11e7-8344-ac72891c3257"></item> 
    6651 <item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc0fa56-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5d0437e-26b8-11e7-8344-ac72891c3257"></item> 
    6652 <item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc0f3e4-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5d0469e-26b8-11e7-8344-ac72891c3257"></item> 
    6653 <item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc09e12-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5d049b4-26b8-11e7-8344-ac72891c3257"></item> 
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    6655 <item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc0d1a2-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5d04fcc-26b8-11e7-8344-ac72891c3257"></item> 
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    6658 <item label="HighResMIP" oid="ebb4d2a6-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__06" title="__unset__" uid="f5d058f0-26b8-11e7-8344-ac72891c3257"></item> 
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    6660 <item label="HighResMIP" oid="ebb4d2a6-04e9-11e7-9857-5404a60d96b5" rid="efc143a8-5629-11e6-9079-ac72891c3257__01" title="__unset__" uid="f5d05f08-26b8-11e7-8344-ac72891c3257"></item> 
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    6662 <item label="HighResMIP" oid="ebb4d74c-04e9-11e7-9857-5404a60d96b5" rid="efc0f178-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5d0652a-26b8-11e7-8344-ac72891c3257"></item> 
    6663 <item label="HighResMIP" oid="ebb4d74c-04e9-11e7-9857-5404a60d96b5" rid="efc15f32-5629-11e6-9079-ac72891c3257__01" title="__unset__" uid="f5d06840-26b8-11e7-8344-ac72891c3257"></item> 
    6664 <item label="HighResMIP" oid="ebb4d74c-04e9-11e7-9857-5404a60d96b5" rid="efc08e22-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5d06b56-26b8-11e7-8344-ac72891c3257"></item> 
    6665 <item label="HighResMIP" oid="ebb4d74c-04e9-11e7-9857-5404a60d96b5" rid="efc14b32-5629-11e6-9079-ac72891c3257__01" title="__unset__" uid="f5d06e62-26b8-11e7-8344-ac72891c3257"></item> 
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    6680 <item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="efc0bf3c-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5d09ef0-26b8-11e7-8344-ac72891c3257"></item> 
    6681 <item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="efc14b32-5629-11e6-9079-ac72891c3257__01" title="__unset__" uid="f5d0a1fc-26b8-11e7-8344-ac72891c3257"></item> 
    6682 <item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="efc0c540-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5d0a512-26b8-11e7-8344-ac72891c3257"></item> 
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     6476<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="efc17d96-5629-11e6-9079-ac72891c3257__02" title="future climate change [GeoMIP]" uid="f5cfb9ea-26b8-11e7-8344-ac72891c3257"></item> 
     6477<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="ef12e542-5629-11e6-9079-ac72891c3257__03" title="future climate change [GeoMIP]" uid="f5cfbcf6-26b8-11e7-8344-ac72891c3257"></item> 
     6478<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__06" title="future climate change [GeoMIP]" uid="f5cfc00c-26b8-11e7-8344-ac72891c3257"></item> 
     6479<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="38bebefa-61f6-11e6-835f-ac72891c3257__00" title="future climate change [GeoMIP]" uid="f5cfc322-26b8-11e7-8344-ac72891c3257"></item> 
     6480<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="316ca362-b97e-11e6-a189-5404a60d96b5__02" title="future climate change [GeoMIP]" uid="f5cfc638-26b8-11e7-8344-ac72891c3257"></item> 
     6481<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="ef12f23a-5629-11e6-9079-ac72891c3257__04" title="future climate change [GeoMIP]" uid="f5cfc944-26b8-11e7-8344-ac72891c3257"></item> 
     6482<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="efc0e304-5629-11e6-9079-ac72891c3257__00" title="future climate change [GeoMIP]" uid="f5cfcc50-26b8-11e7-8344-ac72891c3257"></item> 
     6483<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="603be802-5979-11e6-ac77-ac72891c3257__00" title="future climate change [GeoMIP]" uid="f5cfcf5c-26b8-11e7-8344-ac72891c3257"></item> 
     6484<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__05" title="future climate change [GeoMIP]" uid="f5cfd272-26b8-11e7-8344-ac72891c3257"></item> 
     6485<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="38c003f0-61f6-11e6-835f-ac72891c3257__00" title="future climate change [GeoMIP]" uid="f5cfd574-26b8-11e7-8344-ac72891c3257"></item> 
     6486<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="603bd560-5979-11e6-ac77-ac72891c3257__00" title="future climate change [GeoMIP]" uid="f5cfd8c6-26b8-11e7-8344-ac72891c3257"></item> 
     6487<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__05" title="future climate change [GeoMIP]" uid="f5cfdbf0-26b8-11e7-8344-ac72891c3257"></item> 
     6488<item label="GeoMIP" oid="ebb4c450-04e9-11e7-9857-5404a60d96b5" rid="38bf05ea-61f6-11e6-835f-ac72891c3257__00" title="future climate change [GeoMIP]" uid="f5cfdf10-26b8-11e7-8344-ac72891c3257"></item> 
     6489<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="e24dbd26-5fd1-11e6-914d-5404a60d96b5__00" title="climate forcing [GeoMIP]" uid="f5cfe1ae-26b8-11e7-8344-ac72891c3257"></item> 
     6490<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="efc17d96-5629-11e6-9079-ac72891c3257__02" title="climate forcing [GeoMIP]" uid="f5cfe4d8-26b8-11e7-8344-ac72891c3257"></item> 
     6491<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="ef12e542-5629-11e6-9079-ac72891c3257__03" title="climate forcing [GeoMIP]" uid="f5cfead2-26b8-11e7-8344-ac72891c3257"></item> 
     6492<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__06" title="climate forcing [GeoMIP]" uid="f5cfedf2-26b8-11e7-8344-ac72891c3257"></item> 
     6493<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="38bebefa-61f6-11e6-835f-ac72891c3257__00" title="climate forcing [GeoMIP]" uid="f5cff108-26b8-11e7-8344-ac72891c3257"></item> 
     6494<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="316ca362-b97e-11e6-a189-5404a60d96b5__02" title="climate forcing [GeoMIP]" uid="f5cff414-26b8-11e7-8344-ac72891c3257"></item> 
     6495<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="ef12f23a-5629-11e6-9079-ac72891c3257__04" title="climate forcing [GeoMIP]" uid="f5cff748-26b8-11e7-8344-ac72891c3257"></item> 
     6496<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="efc0e304-5629-11e6-9079-ac72891c3257__00" title="climate forcing [GeoMIP]" uid="f5cffa5e-26b8-11e7-8344-ac72891c3257"></item> 
     6497<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="603be802-5979-11e6-ac77-ac72891c3257__00" title="climate forcing [GeoMIP]" uid="f5cffd6a-26b8-11e7-8344-ac72891c3257"></item> 
     6498<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__05" title="climate forcing [GeoMIP]" uid="f5d00080-26b8-11e7-8344-ac72891c3257"></item> 
     6499<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="38c003f0-61f6-11e6-835f-ac72891c3257__00" title="climate forcing [GeoMIP]" uid="f5d00396-26b8-11e7-8344-ac72891c3257"></item> 
     6500<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="603bd560-5979-11e6-ac77-ac72891c3257__00" title="climate forcing [GeoMIP]" uid="f5d006a2-26b8-11e7-8344-ac72891c3257"></item> 
     6501<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__05" title="climate forcing [GeoMIP]" uid="f5d009b8-26b8-11e7-8344-ac72891c3257"></item> 
     6502<item label="GeoMIP" oid="ebb4bf64-04e9-11e7-9857-5404a60d96b5" rid="38bf05ea-61f6-11e6-835f-ac72891c3257__00" title="climate forcing [GeoMIP]" uid="f5d00cc4-26b8-11e7-8344-ac72891c3257"></item> 
     6503<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="e24dbd26-5fd1-11e6-914d-5404a60d96b5__00" title="origins of model bias [GeoMIP]" uid="f5d00fd0-26b8-11e7-8344-ac72891c3257"></item> 
     6504<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="efc17d96-5629-11e6-9079-ac72891c3257__02" title="origins of model bias [GeoMIP]" uid="f5d012dc-26b8-11e7-8344-ac72891c3257"></item> 
     6505<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="ef12e542-5629-11e6-9079-ac72891c3257__03" title="origins of model bias [GeoMIP]" uid="f5d015e8-26b8-11e7-8344-ac72891c3257"></item> 
     6506<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__06" title="origins of model bias [GeoMIP]" uid="f5d018ea-26b8-11e7-8344-ac72891c3257"></item> 
     6507<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="38bebefa-61f6-11e6-835f-ac72891c3257__00" title="origins of model bias [GeoMIP]" uid="f5d01bec-26b8-11e7-8344-ac72891c3257"></item> 
     6508<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="316ca362-b97e-11e6-a189-5404a60d96b5__02" title="origins of model bias [GeoMIP]" uid="f5d01ef8-26b8-11e7-8344-ac72891c3257"></item> 
     6509<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="ef12f23a-5629-11e6-9079-ac72891c3257__04" title="origins of model bias [GeoMIP]" uid="f5d02204-26b8-11e7-8344-ac72891c3257"></item> 
     6510<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="efc0e304-5629-11e6-9079-ac72891c3257__00" title="origins of model bias [GeoMIP]" uid="f5d02510-26b8-11e7-8344-ac72891c3257"></item> 
     6511<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="603be802-5979-11e6-ac77-ac72891c3257__00" title="origins of model bias [GeoMIP]" uid="f5d02812-26b8-11e7-8344-ac72891c3257"></item> 
     6512<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__05" title="origins of model bias [GeoMIP]" uid="f5d02b28-26b8-11e7-8344-ac72891c3257"></item> 
     6513<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="38c003f0-61f6-11e6-835f-ac72891c3257__00" title="origins of model bias [GeoMIP]" uid="f5d02e34-26b8-11e7-8344-ac72891c3257"></item> 
     6514<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="603bd560-5979-11e6-ac77-ac72891c3257__00" title="origins of model bias [GeoMIP]" uid="f5d03140-26b8-11e7-8344-ac72891c3257"></item> 
     6515<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__05" title="origins of model bias [GeoMIP]" uid="f5d036d6-26b8-11e7-8344-ac72891c3257"></item> 
     6516<item label="GeoMIP" oid="ebb4c6ee-04e9-11e7-9857-5404a60d96b5" rid="38bf05ea-61f6-11e6-835f-ac72891c3257__00" title="origins of model bias [GeoMIP]" uid="f5d03a00-26b8-11e7-8344-ac72891c3257"></item> 
     6517<item label="GMMIP" oid="ebb4b168-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="All forcing [GMMIP]" uid="f5cb9bb2-26b8-11e7-8344-ac72891c3257"></item> 
     6518<item label="GMMIP" oid="ebb4b168-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="All forcing [GMMIP]" uid="f5cb9e50-26b8-11e7-8344-ac72891c3257"></item> 
     6519<item label="GMMIP" oid="ebb4b168-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="All forcing [GMMIP]" uid="f5cba0f8-26b8-11e7-8344-ac72891c3257"></item> 
     6520<item label="GMMIP" oid="ebb4b168-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="All forcing [GMMIP]" uid="f5cba468-26b8-11e7-8344-ac72891c3257"></item> 
     6521<item label="GMMIP" oid="ebb4b654-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="AMO-related forcing [GMMIP]" uid="f5cba77e-26b8-11e7-8344-ac72891c3257"></item> 
     6522<item label="GMMIP" oid="ebb4b654-04e9-11e7-9857-5404a60d96b5" rid="ef12e542-5629-11e6-9079-ac72891c3257__02" title="AMO-related forcing [GMMIP]" uid="f5cbaa8a-26b8-11e7-8344-ac72891c3257"></item> 
     6523<item label="GMMIP" oid="ebb4b654-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="AMO-related forcing [GMMIP]" uid="f5cbada0-26b8-11e7-8344-ac72891c3257"></item> 
     6524<item label="GMMIP" oid="ebb4b654-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="AMO-related forcing [GMMIP]" uid="f5cbb0a2-26b8-11e7-8344-ac72891c3257"></item> 
     6525<item label="GMMIP" oid="ebb4b654-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="AMO-related forcing [GMMIP]" uid="f5cbb3b8-26b8-11e7-8344-ac72891c3257"></item> 
     6526<item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="ef12f23a-5629-11e6-9079-ac72891c3257__03" title="Tibetan-Iranian plateau [GMMIP]" uid="f5cbb6c4-26b8-11e7-8344-ac72891c3257"></item> 
     6527<item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="Tibetan-Iranian plateau [GMMIP]" uid="f5cbb9da-26b8-11e7-8344-ac72891c3257"></item> 
     6528<item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="Tibetan-Iranian plateau [GMMIP]" uid="f5cbbce6-26b8-11e7-8344-ac72891c3257"></item> 
     6529<item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__04" title="Tibetan-Iranian plateau [GMMIP]" uid="f5cbbff2-26b8-11e7-8344-ac72891c3257"></item> 
     6530<item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__04" title="Tibetan-Iranian plateau [GMMIP]" uid="f5cbc2fe-26b8-11e7-8344-ac72891c3257"></item> 
     6531<item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="Tibetan-Iranian plateau [GMMIP]" uid="f5cbc632-26b8-11e7-8344-ac72891c3257"></item> 
     6532<item label="GMMIP" oid="ebb4b884-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="Tibetan-Iranian plateau [GMMIP]" uid="f5cbc93e-26b8-11e7-8344-ac72891c3257"></item> 
     6533<item label="GMMIP" oid="ebb4b410-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="IPO-related forcing [GMMIP]" uid="f5cbcc54-26b8-11e7-8344-ac72891c3257"></item> 
     6534<item label="GMMIP" oid="ebb4b410-04e9-11e7-9857-5404a60d96b5" rid="ef12e542-5629-11e6-9079-ac72891c3257__02" title="IPO-related forcing [GMMIP]" uid="f5cbcf6a-26b8-11e7-8344-ac72891c3257"></item> 
     6535<item label="GMMIP" oid="ebb4b410-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="IPO-related forcing [GMMIP]" uid="f5cbd5a0-26b8-11e7-8344-ac72891c3257"></item> 
     6536<item label="GMMIP" oid="ebb4b410-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="IPO-related forcing [GMMIP]" uid="f5cbd8b6-26b8-11e7-8344-ac72891c3257"></item> 
     6537<item label="GMMIP" oid="ebb4b410-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="IPO-related forcing [GMMIP]" uid="f5cbdbcc-26b8-11e7-8344-ac72891c3257"></item> 
     6538<item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="ef12f23a-5629-11e6-9079-ac72891c3257__03" title="Topographic effects except for the TIP [GMMIP]" uid="f5cbded8-26b8-11e7-8344-ac72891c3257"></item> 
     6539<item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="Topographic effects except for the TIP [GMMIP]" uid="f5cbe1f8-26b8-11e7-8344-ac72891c3257"></item> 
     6540<item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="Topographic effects except for the TIP [GMMIP]" uid="f5cbe504-26b8-11e7-8344-ac72891c3257"></item> 
     6541<item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__04" title="Topographic effects except for the TIP [GMMIP]" uid="f5cbe810-26b8-11e7-8344-ac72891c3257"></item> 
     6542<item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__04" title="Topographic effects except for the TIP [GMMIP]" uid="f5cbeb1c-26b8-11e7-8344-ac72891c3257"></item> 
     6543<item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="Topographic effects except for the TIP [GMMIP]" uid="f5cbee28-26b8-11e7-8344-ac72891c3257"></item> 
     6544<item label="GMMIP" oid="ebb4bd0c-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="Topographic effects except for the TIP [GMMIP]" uid="f5cbf134-26b8-11e7-8344-ac72891c3257"></item> 
     6545<item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="ef12f23a-5629-11e6-9079-ac72891c3257__03" title="Thermal effects of TIP [GMMIP]" uid="f5cbf44a-26b8-11e7-8344-ac72891c3257"></item> 
     6546<item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="Thermal effects of TIP [GMMIP]" uid="f5cbf756-26b8-11e7-8344-ac72891c3257"></item> 
     6547<item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="Thermal effects of TIP [GMMIP]" uid="f5cbfa6c-26b8-11e7-8344-ac72891c3257"></item> 
     6548<item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__04" title="Thermal effects of TIP [GMMIP]" uid="f5cbfddc-26b8-11e7-8344-ac72891c3257"></item> 
     6549<item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__04" title="Thermal effects of TIP [GMMIP]" uid="f5cc00f2-26b8-11e7-8344-ac72891c3257"></item> 
     6550<item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__03" title="Thermal effects of TIP [GMMIP]" uid="f5cc03fe-26b8-11e7-8344-ac72891c3257"></item> 
     6551<item label="GMMIP" oid="ebb4bac8-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__05" title="Thermal effects of TIP [GMMIP]" uid="f5cc0714-26b8-11e7-8344-ac72891c3257"></item> 
     6552<item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc08076-5629-11e6-9079-ac72891c3257__00" title="Extreme events with high impact on society [HighResMIP]" uid="f5d03d0c-26b8-11e7-8344-ac72891c3257"></item> 
     6553<item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc09cbe-5629-11e6-9079-ac72891c3257__00" title="Extreme events with high impact on society [HighResMIP]" uid="f5d04018-26b8-11e7-8344-ac72891c3257"></item> 
     6554<item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc0fa56-5629-11e6-9079-ac72891c3257__00" title="Extreme events with high impact on society [HighResMIP]" uid="f5d0437e-26b8-11e7-8344-ac72891c3257"></item> 
     6555<item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc0f3e4-5629-11e6-9079-ac72891c3257__00" title="Extreme events with high impact on society [HighResMIP]" uid="f5d0469e-26b8-11e7-8344-ac72891c3257"></item> 
     6556<item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc09e12-5629-11e6-9079-ac72891c3257__00" title="Extreme events with high impact on society [HighResMIP]" uid="f5d049b4-26b8-11e7-8344-ac72891c3257"></item> 
     6557<item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc0b69a-5629-11e6-9079-ac72891c3257__00" title="Extreme events with high impact on society [HighResMIP]" uid="f5d04cc0-26b8-11e7-8344-ac72891c3257"></item> 
     6558<item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="efc0d1a2-5629-11e6-9079-ac72891c3257__00" title="Extreme events with high impact on society [HighResMIP]" uid="f5d04fcc-26b8-11e7-8344-ac72891c3257"></item> 
     6559<item label="HighResMIP" oid="ebb4ce0a-04e9-11e7-9857-5404a60d96b5" rid="ef12df16-5629-11e6-9079-ac72891c3257__02" title="Extreme events with high impact on society [HighResMIP]" uid="f5d052d8-26b8-11e7-8344-ac72891c3257"></item> 
     6560<item label="HighResMIP" oid="ebb4d2a6-04e9-11e7-9857-5404a60d96b5" rid="ef12f514-5629-11e6-9079-ac72891c3257__02" title="ocean and sea-ice dynamics [HighResMIP]" uid="f5d055da-26b8-11e7-8344-ac72891c3257"></item> 
     6561<item label="HighResMIP" oid="ebb4d2a6-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__06" title="ocean and sea-ice dynamics [HighResMIP]" uid="f5d058f0-26b8-11e7-8344-ac72891c3257"></item> 
     6562<item label="HighResMIP" oid="ebb4d2a6-04e9-11e7-9857-5404a60d96b5" rid="efc154f6-5629-11e6-9079-ac72891c3257__01" title="ocean and sea-ice dynamics [HighResMIP]" uid="f5d05bfc-26b8-11e7-8344-ac72891c3257"></item> 
     6563<item label="HighResMIP" oid="ebb4d2a6-04e9-11e7-9857-5404a60d96b5" rid="efc143a8-5629-11e6-9079-ac72891c3257__01" title="ocean and sea-ice dynamics [HighResMIP]" uid="f5d05f08-26b8-11e7-8344-ac72891c3257"></item> 
     6564<item label="HighResMIP" oid="ebb4d74c-04e9-11e7-9857-5404a60d96b5" rid="efc0b2ee-5629-11e6-9079-ac72891c3257__00" title="High frequency diagnostics to understand model performance [HighResMIP]" uid="f5d06214-26b8-11e7-8344-ac72891c3257"></item> 
     6565<item label="HighResMIP" oid="ebb4d74c-04e9-11e7-9857-5404a60d96b5" rid="efc0f178-5629-11e6-9079-ac72891c3257__00" title="High frequency diagnostics to understand model performance [HighResMIP]" uid="f5d0652a-26b8-11e7-8344-ac72891c3257"></item> 
     6566<item label="HighResMIP" oid="ebb4d74c-04e9-11e7-9857-5404a60d96b5" rid="efc15f32-5629-11e6-9079-ac72891c3257__01" title="High frequency diagnostics to understand model performance [HighResMIP]" uid="f5d06840-26b8-11e7-8344-ac72891c3257"></item> 
     6567<item label="HighResMIP" oid="ebb4d74c-04e9-11e7-9857-5404a60d96b5" rid="efc08e22-5629-11e6-9079-ac72891c3257__00" title="High frequency diagnostics to understand model performance [HighResMIP]" uid="f5d06b56-26b8-11e7-8344-ac72891c3257"></item> 
     6568<item label="HighResMIP" oid="ebb4d74c-04e9-11e7-9857-5404a60d96b5" rid="efc14b32-5629-11e6-9079-ac72891c3257__01" title="High frequency diagnostics to understand model performance [HighResMIP]" uid="f5d06e62-26b8-11e7-8344-ac72891c3257"></item> 
     6569<item label="HighResMIP" oid="ebb4d74c-04e9-11e7-9857-5404a60d96b5" rid="efc0ea3e-5629-11e6-9079-ac72891c3257__00" title="High frequency diagnostics to understand model performance [HighResMIP]" uid="f5d0716e-26b8-11e7-8344-ac72891c3257"></item> 
     6570<item label="HighResMIP" oid="ebb4d4ea-04e9-11e7-9857-5404a60d96b5" rid="ef12df16-5629-11e6-9079-ac72891c3257__02" title="Diurnal cycle in temperature, precipitation [HighResMIP]" uid="f5d0747a-26b8-11e7-8344-ac72891c3257"></item> 
     6571<item label="HighResMIP" oid="ebb4d058-04e9-11e7-9857-5404a60d96b5" rid="ef12eca4-5629-11e6-9079-ac72891c3257__02" title="Tropical cyclone performance [HighResMIP]" uid="f5d07790-26b8-11e7-8344-ac72891c3257"></item> 
     6572<item label="HighResMIP" oid="ebb4cbb2-04e9-11e7-9857-5404a60d96b5" rid="26d3ae3c-7c16-11e6-8a5b-ac72891c3257__03" title="small scale weather phenomena [HighResMIP]" uid="f5d07aa6-26b8-11e7-8344-ac72891c3257"></item> 
     6573<item label="HighResMIP" oid="ebb4cbb2-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__04" title="small scale weather phenomena [HighResMIP]" uid="f5d07db2-26b8-11e7-8344-ac72891c3257"></item> 
     6574<item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="98d5254e-8344-11e6-959e-ac72891c3257__01" title="large scale atmospheric circulation characteristics [HighResMIP]" uid="f5d08352-26b8-11e7-8344-ac72891c3257"></item> 
     6575<item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="365499c2-1f70-11e7-acca-5404a60d96b5__00" title="large scale atmospheric circulation characteristics [HighResMIP]" uid="f5d08672-26b8-11e7-8344-ac72891c3257"></item> 
     6576<item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="efc08a76-5629-11e6-9079-ac72891c3257__00" title="large scale atmospheric circulation characteristics [HighResMIP]" uid="f5d08988-26b8-11e7-8344-ac72891c3257"></item> 
     6577<item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="efc0af4c-5629-11e6-9079-ac72891c3257__00" title="large scale atmospheric circulation characteristics [HighResMIP]" uid="f5d08c9e-26b8-11e7-8344-ac72891c3257"></item> 
     6578<item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="efc0a90c-5629-11e6-9079-ac72891c3257__00" title="large scale atmospheric circulation characteristics [HighResMIP]" uid="f5d08faa-26b8-11e7-8344-ac72891c3257"></item> 
     6579<item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__06" title="large scale atmospheric circulation characteristics [HighResMIP]" uid="f5d092b6-26b8-11e7-8344-ac72891c3257"></item> 
     6580<item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="efc0ace0-5629-11e6-9079-ac72891c3257__00" title="large scale atmospheric circulation characteristics [HighResMIP]" uid="f5d095c2-26b8-11e7-8344-ac72891c3257"></item> 
     6581<item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="efc15f32-5629-11e6-9079-ac72891c3257__01" title="large scale atmospheric circulation characteristics [HighResMIP]" uid="f5d098d8-26b8-11e7-8344-ac72891c3257"></item> 
     6582<item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="efc164b4-5629-11e6-9079-ac72891c3257__00" title="large scale atmospheric circulation characteristics [HighResMIP]" uid="f5d09be4-26b8-11e7-8344-ac72891c3257"></item> 
     6583<item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="efc0bf3c-5629-11e6-9079-ac72891c3257__00" title="large scale atmospheric circulation characteristics [HighResMIP]" uid="f5d09ef0-26b8-11e7-8344-ac72891c3257"></item> 
     6584<item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="efc14b32-5629-11e6-9079-ac72891c3257__01" title="large scale atmospheric circulation characteristics [HighResMIP]" uid="f5d0a1fc-26b8-11e7-8344-ac72891c3257"></item> 
     6585<item label="HighResMIP" oid="ebb4c946-04e9-11e7-9857-5404a60d96b5" rid="efc0c540-5629-11e6-9079-ac72891c3257__00" title="large scale atmospheric circulation characteristics [HighResMIP]" uid="f5d0a512-26b8-11e7-8344-ac72891c3257"></item> 
    66836586<item label="ISI-MIP" oid="07e91d38-26b9-11e7-9d3d-ac72891c3257" rid="07e9a3ac-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: ISI-MIP.3c" uid="07e9a5c8-26b9-11e7-9d3d-ac72891c3257"></item> 
    66846587<item label="ISI-MIP" oid="07e91d38-26b9-11e7-9d3d-ac72891c3257" rid="07ea1db4-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: ISI-MIP.1c" uid="07ea1fda-26b9-11e7-9d3d-ac72891c3257"></item> 
     
    66876590<item label="ISI-MIP" oid="07e91d38-26b9-11e7-9d3d-ac72891c3257" rid="07eac8d6-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: ISI-MIP.2" uid="07eacaf2-26b9-11e7-9d3d-ac72891c3257"></item> 
    66886591<item label="ISI-MIP" oid="07e91d38-26b9-11e7-9d3d-ac72891c3257" rid="07eaccbe-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: ISI-MIP.1" uid="07eaceda-26b9-11e7-9d3d-ac72891c3257"></item> 
    6689 <item label="ISMIP6" oid="ebb4dee0-04e9-11e7-9857-5404a60d96b5" rid="efc0a7cc-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5cb0152-26b8-11e7-8344-ac72891c3257"></item> 
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    6691 <item label="ISMIP6" oid="ebb4dee0-04e9-11e7-9857-5404a60d96b5" rid="efc0b42e-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5cb0788-26b8-11e7-8344-ac72891c3257"></item> 
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     6797<item label="PolarAmp" oid="0f119af6-4d1c-11e8-be0a-1c4d70487308" rid="5a9014e2-4d1e-11e8-be0a-1c4d70487308" title="PolarAmp [PAMIP]" uid="033fd7c9cf273bab8c4d231f9a84f409045467a6"></item> 
     6798<item label="PolarAmp" oid="0f119af6-4d1c-11e8-be0a-1c4d70487308" rid="5a9014de-4d1e-11e8-be0a-1c4d70487308" title="PolarAmp [PAMIP]" uid="14bc2463724a9b5a8e1b41a4a1204b80bd64952f"></item> 
     6799<item label="PolarAmp" oid="0f119af6-4d1c-11e8-be0a-1c4d70487308" rid="5a9014d9-4d1e-11e8-be0a-1c4d70487308" title="PolarAmp [PAMIP]" uid="19df0ca4fd248ac478f4f942e98b07493af0e49e"></item> 
     6800<item label="PolarAmp" oid="0f119af6-4d1c-11e8-be0a-1c4d70487308" rid="5a9014db-4d1e-11e8-be0a-1c4d70487308" title="PolarAmp [PAMIP]" uid="22885313f64f512011c37cde3617aa5a79b67eb0"></item> 
     6801<item label="PolarAmp" oid="0f119af6-4d1c-11e8-be0a-1c4d70487308" rid="5a9014da-4d1e-11e8-be0a-1c4d70487308" title="PolarAmp [PAMIP]" uid="48667c310ad6f3a8d599478ec07192a05cf765bd"></item> 
     6802<item label="PolarAmp" oid="0f119af6-4d1c-11e8-be0a-1c4d70487308" rid="5a9014e0-4d1e-11e8-be0a-1c4d70487308" title="PolarAmp [PAMIP]" uid="6556cd301f79b0079b8e897413ed4ffa16ed57f8"></item> 
     6803<item label="PolarAmp" oid="0f119af6-4d1c-11e8-be0a-1c4d70487308" rid="5a9014dd-4d1e-11e8-be0a-1c4d70487308" title="PolarAmp [PAMIP]" uid="a25b7a6606460e1c3a43c2cac54aabe903e078f1"></item> 
     6804<item label="PolarAmp" oid="0f119af6-4d1c-11e8-be0a-1c4d70487308" rid="5a9014d8-4d1e-11e8-be0a-1c4d70487308" title="PolarAmp [PAMIP]" uid="a88719c311ff0bbf98f088c8904530bb4e5b4008"></item> 
     6805<item label="PolarAmp" oid="0f119af6-4d1c-11e8-be0a-1c4d70487308" rid="5a9014df-4d1e-11e8-be0a-1c4d70487308" title="PolarAmp [PAMIP]" uid="cd8c84ada0a897c62b1e659a8c76c2269b548378"></item> 
     6806<item label="PolarAmp" oid="0f119af6-4d1c-11e8-be0a-1c4d70487308" rid="5a9014dc-4d1e-11e8-be0a-1c4d70487308" title="PolarAmp [PAMIP]" uid="d2f0dbc1489f59856fae777991c60d2b9e9d0a10"></item> 
     6807<item label="PolarAmp" oid="0f119af6-4d1c-11e8-be0a-1c4d70487308" rid="5a9014e1-4d1e-11e8-be0a-1c4d70487308" title="PolarAmp [PAMIP]" uid="ebabb94f13440a1ff567b5b8af710add887208f7"></item> 
     6808<item label="RFMIP" oid="ebb4fea2-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__08" title="Aerosol Instantaneous Forcing [RFMIP]" uid="f5cc0a20-26b8-11e7-8344-ac72891c3257"></item> 
     6809<item label="RFMIP" oid="ebb4fea2-04e9-11e7-9857-5404a60d96b5" rid="efc0d7ba-5629-11e6-9079-ac72891c3257__00" title="Aerosol Instantaneous Forcing [RFMIP]" uid="f5cc0d2c-26b8-11e7-8344-ac72891c3257"></item> 
     6810<item label="RFMIP" oid="ebb50316-04e9-11e7-9857-5404a60d96b5" rid="ef12f23a-5629-11e6-9079-ac72891c3257__06" title="Quantifying adjustments [RFMIP]" uid="f5cc1042-26b8-11e7-8344-ac72891c3257"></item> 
     6811<item label="RFMIP" oid="ebb50316-04e9-11e7-9857-5404a60d96b5" rid="ef12f514-5629-11e6-9079-ac72891c3257__04" title="Quantifying adjustments [RFMIP]" uid="f5cc1362-26b8-11e7-8344-ac72891c3257"></item> 
     6812<item label="RFMIP" oid="ebb50316-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__09" title="Quantifying adjustments [RFMIP]" uid="f5cc168c-26b8-11e7-8344-ac72891c3257"></item> 
     6813<item label="RFMIP" oid="ebb50316-04e9-11e7-9857-5404a60d96b5" rid="4f774dc2-a0ff-11e6-bc63-ac72891c3257__00" title="Quantifying adjustments [RFMIP]" uid="f5cc19a2-26b8-11e7-8344-ac72891c3257"></item> 
     6814<item label="RFMIP" oid="ebb500dc-04e9-11e7-9857-5404a60d96b5" rid="ef12f23a-5629-11e6-9079-ac72891c3257__06" title="Effective Radiative Forcing [RFMIP]" uid="f5cc1cb8-26b8-11e7-8344-ac72891c3257"></item> 
     6815<item label="RFMIP" oid="ebb500dc-04e9-11e7-9857-5404a60d96b5" rid="ef12f514-5629-11e6-9079-ac72891c3257__04" title="Effective Radiative Forcing [RFMIP]" uid="f5cc1fc4-26b8-11e7-8344-ac72891c3257"></item> 
     6816<item label="RFMIP" oid="ebb500dc-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__09" title="Effective Radiative Forcing [RFMIP]" uid="f5cc22da-26b8-11e7-8344-ac72891c3257"></item> 
     6817<item label="RFMIP" oid="ebb4fc5e-04e9-11e7-9857-5404a60d96b5" rid="efc0de22-5629-11e6-9079-ac72891c3257__00" title="Greenhouse Gas Instantaneous Forcing [RFMIP]" uid="f5cc25f0-26b8-11e7-8344-ac72891c3257"></item> 
     6818<item label="ScenarioBaseline" oid="x09997_6554f541-81af-11e8-b252-1c4d70487308" rid="x09998_6554f542-81af-11e8-b252-1c4d70487308" title="Baseline Diagnostices for ScenarioMIP experiments [CMIP]" uid="x09996_6554f540-81af-11e8-b252-1c4d70487308"></item> 
    68876819<item label="SEAPODYM" oid="07e90e60-26b9-11e7-9d3d-ac72891c3257" rid="07e923c8-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: SEAPODYM.1c" uid="07e927b0-26b9-11e7-9d3d-ac72891c3257"></item> 
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    68946826<item label="SICCME" oid="07e920b2-26b9-11e7-9d3d-ac72891c3257" rid="07ea7926-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: SICCME.2c" uid="07ea7b4c-26b9-11e7-9d3d-ac72891c3257"></item> 
    68956827<item label="SICCME" oid="07e920b2-26b9-11e7-9d3d-ac72891c3257" rid="07eaa4a0-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: SICCME.3c" uid="07eaa6c6-26b9-11e7-9d3d-ac72891c3257"></item> 
    6896 <item label="SIMIP" oid="ebb509e2-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5cec756-26b8-11e7-8344-ac72891c3257"></item> 
    6897 <item label="SIMIP" oid="ebb509e2-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__09" title="__unset__" uid="f5ceca6c-26b8-11e7-8344-ac72891c3257"></item> 
    6898 <item label="SIMIP" oid="ebb509e2-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__01" title="__unset__" uid="f5cecd82-26b8-11e7-8344-ac72891c3257"></item> 
    6899 <item label="SIMIP" oid="ebb509e2-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__10" title="__unset__" uid="f5ced08e-26b8-11e7-8344-ac72891c3257"></item> 
    6900 <item label="SIMIP" oid="ebb50f14-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5ced39a-26b8-11e7-8344-ac72891c3257"></item> 
    6901 <item label="SIMIP" oid="ebb50f14-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__09" title="__unset__" uid="f5ced6b0-26b8-11e7-8344-ac72891c3257"></item> 
    6902 <item label="SIMIP" oid="ebb50f14-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__01" title="__unset__" uid="f5ced9bc-26b8-11e7-8344-ac72891c3257"></item> 
    6903 <item label="SIMIP" oid="ebb50f14-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__10" title="__unset__" uid="f5cedcc8-26b8-11e7-8344-ac72891c3257"></item> 
    6904 <item label="SIMIP" oid="ebb507b2-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5cee2ea-26b8-11e7-8344-ac72891c3257"></item> 
    6905 <item label="SIMIP" oid="ebb507b2-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__09" title="__unset__" uid="f5cee60a-26b8-11e7-8344-ac72891c3257"></item> 
    6906 <item label="SIMIP" oid="ebb507b2-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__01" title="__unset__" uid="f5cee916-26b8-11e7-8344-ac72891c3257"></item> 
    6907 <item label="SIMIP" oid="ebb507b2-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__10" title="__unset__" uid="f5ceec2c-26b8-11e7-8344-ac72891c3257"></item> 
    6908 <item label="SIMIP" oid="ebb50c12-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__00" title="__unset__" uid="f5ceef42-26b8-11e7-8344-ac72891c3257"></item> 
    6909 <item label="SIMIP" oid="ebb50c12-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__09" title="__unset__" uid="f5cef24e-26b8-11e7-8344-ac72891c3257"></item> 
    6910 <item label="SIMIP" oid="ebb50c12-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__01" title="__unset__" uid="f5cef55a-26b8-11e7-8344-ac72891c3257"></item> 
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     6828<item label="SIMIP" oid="ebb509e2-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__00" title="sea ice heat budget [SIMIP]" uid="f5cec756-26b8-11e7-8344-ac72891c3257"></item> 
     6829<item label="SIMIP" oid="ebb509e2-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__09" title="sea ice heat budget [SIMIP]" uid="f5ceca6c-26b8-11e7-8344-ac72891c3257"></item> 
     6830<item label="SIMIP" oid="ebb509e2-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__01" title="sea ice heat budget [SIMIP]" uid="f5cecd82-26b8-11e7-8344-ac72891c3257"></item> 
     6831<item label="SIMIP" oid="ebb509e2-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__10" title="sea ice heat budget [SIMIP]" uid="f5ced08e-26b8-11e7-8344-ac72891c3257"></item> 
     6832<item label="SIMIP" oid="ebb50f14-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__00" title="sea ice salt budget [SIMIP]" uid="f5ced39a-26b8-11e7-8344-ac72891c3257"></item> 
     6833<item label="SIMIP" oid="ebb50f14-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__09" title="sea ice salt budget [SIMIP]" uid="f5ced6b0-26b8-11e7-8344-ac72891c3257"></item> 
     6834<item label="SIMIP" oid="ebb50f14-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__01" title="sea ice salt budget [SIMIP]" uid="f5ced9bc-26b8-11e7-8344-ac72891c3257"></item> 
     6835<item label="SIMIP" oid="ebb50f14-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__10" title="sea ice salt budget [SIMIP]" uid="f5cedcc8-26b8-11e7-8344-ac72891c3257"></item> 
     6836<item label="SIMIP" oid="ebb507b2-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__00" title="sea ice state [SIMIP]" uid="f5cee2ea-26b8-11e7-8344-ac72891c3257"></item> 
     6837<item label="SIMIP" oid="ebb507b2-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__09" title="sea ice state [SIMIP]" uid="f5cee60a-26b8-11e7-8344-ac72891c3257"></item> 
     6838<item label="SIMIP" oid="ebb507b2-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__01" title="sea ice state [SIMIP]" uid="f5cee916-26b8-11e7-8344-ac72891c3257"></item> 
     6839<item label="SIMIP" oid="ebb507b2-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__10" title="sea ice state [SIMIP]" uid="f5ceec2c-26b8-11e7-8344-ac72891c3257"></item> 
     6840<item label="SIMIP" oid="ebb50c12-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__00" title="sea ice momentum budget [SIMIP]" uid="f5ceef42-26b8-11e7-8344-ac72891c3257"></item> 
     6841<item label="SIMIP" oid="ebb50c12-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__09" title="sea ice momentum budget [SIMIP]" uid="f5cef24e-26b8-11e7-8344-ac72891c3257"></item> 
     6842<item label="SIMIP" oid="ebb50c12-04e9-11e7-9857-5404a60d96b5" rid="efc0a2f4-5629-11e6-9079-ac72891c3257__01" title="sea ice momentum budget [SIMIP]" uid="f5cef55a-26b8-11e7-8344-ac72891c3257"></item> 
     6843<item label="SIMIP" oid="ebb50c12-04e9-11e7-9857-5404a60d96b5" rid="efc072ca-5629-11e6-9079-ac72891c3257__10" title="sea ice momentum budget [SIMIP]" uid="f5cef866-26b8-11e7-8344-ac72891c3257"></item> 
    69126844<item label="SMHI-FoUo" oid="07e91018-26b9-11e7-9d3d-ac72891c3257" rid="07e93228-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: SMHI-FoUo.2" uid="07e93458-26b9-11e7-9d3d-ac72891c3257"></item> 
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    69146845<item label="SMHI-FoUo" oid="07e91018-26b9-11e7-9d3d-ac72891c3257" rid="07e93ee4-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: SMHI-FoUo.1" uid="07e9410a-26b9-11e7-9d3d-ac72891c3257"></item> 
    69156846<item label="SMHI-FoUo" oid="07e91018-26b9-11e7-9d3d-ac72891c3257" rid="07e98bf6-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: SMHI-FoUo.1c" uid="07e98e1c-26b9-11e7-9d3d-ac72891c3257"></item> 
     
    69176848<item label="SMHI-FoUo" oid="07e91018-26b9-11e7-9d3d-ac72891c3257" rid="07e9e72c-26b9-11e7-9d3d-ac72891c3257" title="VIACSAB: SMHI-FoUo.3c" uid="07e9e95c-26b9-11e7-9d3d-ac72891c3257"></item> 
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    6919 <item label="VolMIP" oid="ebb52bca-04e9-11e7-9857-5404a60d96b5" rid="0bb7eb9e-7f05-11e6-b027-ac72891c3257__10" title="__unset__" uid="f5cdcf22-26b8-11e7-8344-ac72891c3257"></item> 
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     6877<item label="VolMIP" oid="ebb516a8-04e9-11e7-9857-5404a60d96b5" rid="efc0c1a8-5629-11e6-9079-ac72891c3257__00" title="climate sensitivity to volcanic forcing [VolMIP]" uid="f5ce265c-26b8-11e7-8344-ac72891c3257"></item> 
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     6892<item label="VolMIP" oid="ebb527f6-04e9-11e7-9857-5404a60d96b5" rid="efc0c1a8-5629-11e6-9079-ac72891c3257__00" title="understand atmospheric dynamics forced by volcanic eruptions [VolMIP]" uid="f5ce582a-26b8-11e7-8344-ac72891c3257"></item> 
     6893<item label="VolMIP" oid="ebb527f6-04e9-11e7-9857-5404a60d96b5" rid="efc0bb72-5629-11e6-9079-ac72891c3257__01" title="understand atmospheric dynamics forced by volcanic eruptions [VolMIP]" uid="f5ce5b36-26b8-11e7-8344-ac72891c3257"></item> 
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     6895<item label="VolMIP" oid="ebb527f6-04e9-11e7-9857-5404a60d96b5" rid="efc0ba3c-5629-11e6-9079-ac72891c3257__01" title="understand atmospheric dynamics forced by volcanic eruptions [VolMIP]" uid="f5ce6158-26b8-11e7-8344-ac72891c3257"></item> 
     6896<item label="VolMIP" oid="ebb527f6-04e9-11e7-9857-5404a60d96b5" rid="26d3ae3c-7c16-11e6-8a5b-ac72891c3257__04" title="understand atmospheric dynamics forced by volcanic eruptions [VolMIP]" uid="f5ce646e-26b8-11e7-8344-ac72891c3257"></item> 
     6897<item label="VolMIP" oid="ebb527f6-04e9-11e7-9857-5404a60d96b5" rid="efc0cb58-5629-11e6-9079-ac72891c3257__00" title="understand atmospheric dynamics forced by volcanic eruptions [VolMIP]" uid="f5ce677a-26b8-11e7-8344-ac72891c3257"></item> 
     6898<item label="VolMIP" oid="ebb51a4a-04e9-11e7-9857-5404a60d96b5" rid="efc0c1a8-5629-11e6-9079-ac72891c3257__00" title="estimation of volcanic radiative forcing [VolMIP]" uid="f5ce6a90-26b8-11e7-8344-ac72891c3257"></item> 
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     6917<item label="VolMIP" oid="ebb5242c-04e9-11e7-9857-5404a60d96b5" rid="efc0740a-5629-11e6-9079-ac72891c3257__01" title="predictability of regional climate response to volcanic forcing [VolMIP]" uid="f5cea8ac-26b8-11e7-8344-ac72891c3257"></item> 
     6918<item label="VolMIP" oid="ebb5242c-04e9-11e7-9857-5404a60d96b5" rid="26d3f07c-7c16-11e6-8a5b-ac72891c3257__05" title="predictability of regional climate response to volcanic forcing [VolMIP]" uid="f5ceabcc-26b8-11e7-8344-ac72891c3257"></item> 
     6919<item label="VolMIP" oid="ebb5242c-04e9-11e7-9857-5404a60d96b5" rid="ef12f3ac-5629-11e6-9079-ac72891c3257__09" title="predictability of regional climate response to volcanic forcing [VolMIP]" uid="f5ceaed8-26b8-11e7-8344-ac72891c3257"></item> 
     6920<item label="VolMIP" oid="ebb5242c-04e9-11e7-9857-5404a60d96b5" rid="ef12e9c0-5629-11e6-9079-ac72891c3257__02" title="predictability of regional climate response to volcanic forcing [VolMIP]" uid="f5ceb1e4-26b8-11e7-8344-ac72891c3257"></item> 
     6921<item label="VolMIP" oid="ebb5242c-04e9-11e7-9857-5404a60d96b5" rid="ef12eca4-5629-11e6-9079-ac72891c3257__03" title="predictability of regional climate response to volcanic forcing [VolMIP]" uid="f5ceb4fa-26b8-11e7-8344-ac72891c3257"></item> 
     6922<item label="VolMIP" oid="ebb5242c-04e9-11e7-9857-5404a60d96b5" rid="efc0bb72-5629-11e6-9079-ac72891c3257__01" title="predictability of regional climate response to volcanic forcing [VolMIP]" uid="f5ceb810-26b8-11e7-8344-ac72891c3257"></item> 
     6923<item label="VolMIP" oid="ebb5242c-04e9-11e7-9857-5404a60d96b5" rid="efc0b906-5629-11e6-9079-ac72891c3257__01" title="predictability of regional climate response to volcanic forcing [VolMIP]" uid="f5cebb1c-26b8-11e7-8344-ac72891c3257"></item> 
     6924<item label="VolMIP" oid="ebb5242c-04e9-11e7-9857-5404a60d96b5" rid="efc0ba3c-5629-11e6-9079-ac72891c3257__01" title="predictability of regional climate response to volcanic forcing [VolMIP]" uid="f5cebe28-26b8-11e7-8344-ac72891c3257"></item> 
     6925<item label="VolMIP" oid="ebb5242c-04e9-11e7-9857-5404a60d96b5" rid="26d3ae3c-7c16-11e6-8a5b-ac72891c3257__04" title="predictability of regional climate response to volcanic forcing [VolMIP]" uid="f5cec134-26b8-11e7-8344-ac72891c3257"></item> 
     6926<item label="VolMIP" oid="ebb5242c-04e9-11e7-9857-5404a60d96b5" rid="efc0cb58-5629-11e6-9079-ac72891c3257__00" title="predictability of regional climate response to volcanic forcing [VolMIP]" uid="f5cec440-26b8-11e7-8344-ac72891c3257"></item> 
    69966927</objectiveLink> 
    69976928<remarks id="rmk" label="remarks" title="3.8 Remarks about other items" uid="SECTION:remarks" useClass="vocab"> 
     
    70046935<experiment id="exp" label="experiment" title="1.5 Experiments" uid="SECTION:experiment" useClass="vocab"> 
    70056936<!-- <info srcType="dummy" srcRef="ptxt.py">Dummy entries</info> --> 
    7006 <item comment="" description="1 percent per year increase in the concentration of atmospheric carbon dioxide until quadrupling." egid="f16fbb42-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="1pctCO2" mcfg="" mip="CMIP" nstart="1" ntot="150" starty="" tier="1" title="1 percent per year increase in CO2" uid="f16fc0b0-dd9e-11e6-b89b-ac72891c3257" yps="150"></item> 
    7007 <item comment="" description="Branched from the 1pctCO2 simulation at year 140 and run with CO2 fixed at 4x pre-industrial concentration." egid="f16e77fa-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="1pctCO2-4xext" mcfg="AOGCM" mip="ISMIP6" nstart="1" ntot="210" starty="" tier="1" title="extension from year 140 of 1pctCO2 with 4xCO2" uid="f16e8272-dd9e-11e6-b89b-ac72891c3257" yps="210"></item> 
    7008 <item comment="" description="Biogeochemically-coupled version of 1% per year increasing CO2 up to 4XCO2 simulation. CO2 increase only affects carbon cycle models, radiative code sees pre-industrial CO2. Nitrogen deposition held fixed at pre-industrial values." egid="f16c432c-dd9e-11e6-b89b-ac72891c3257" endy="1999" ensz="1" label="1pctCO2-bgc" mcfg="" mip="C4MIP" nstart="1" ntot="140" starty="1850.0" tier="1" title="biogeochemically-coupled version of 1 percent per year increasing CO2 experiment" uid="f16bfe76-dd9e-11e6-b89b-ac72891c3257" yps="150"></item> 
    7009 <item comment="" description="1 percent per year decrease in CO2 (immediately after reaching 4xCO2 in the 1pctCO2 simulation); then held constant at pre-industrial level (part of the CDR-reversibility experiment)" egid="2ad29ff0-b104-11e8-96ca-1c4d70487308" endy="" ensz="1 3" label="1pctCO2-cdr" mcfg="AOGCM BGC" mip="CDRMIP" nstart="1" ntot="200" starty="" tier="1 2" title="1 percent per year decrease in CO2 from 4xCO2" uid="56ed15cc-b104-11e8-96ca-1c4d70487308" yps="200"></item> 
    7010 <item comment="" description="Radiatively-coupled version of 1% per year increasing CO2 up to 4XCO2 simulation. CO2 increase only affects the radiative code, carbon cycle models see pre-industrial CO2. Nitrogen deposition held fixed at pre-industrial values." egid="f16d22b0-dd9e-11e6-b89b-ac72891c3257" endy="1999" ensz="1" label="1pctCO2-rad" mcfg="" mip="C4MIP" nstart="1" ntot="140" starty="1850.0" tier="2" title="radiatively-coupled version of 1 percent per year increasing CO2 experiment" uid="f16d1d60-dd9e-11e6-b89b-ac72891c3257" yps="150"></item> 
    7011 <item comment="" description="Fully-coupled concentration driven 1% per year increasing CO2 up to 4XCO2 simulation with time varying nitrogen deposition.  Only applicable to models whose simulation will be affected by the deposition of reactive nitrogen either due to terrestrial or marine nitrogen cycle effects on carbon fluxes and store." egid="f16d22b0-dd9e-11e6-b89b-ac72891c3257" endy="1999" ensz="1" label="1pctCO2Ndep" mcfg="" mip="C4MIP" nstart="1" ntot="140" starty="1850.0" tier="2" title="1 percent per year increasing CO2 experiment with increasing N-deposition" uid="f16d2c2e-dd9e-11e6-b89b-ac72891c3257" yps="150"></item> 
    7012 <item comment="" description="Biogeochemically-coupled concentration driven 1% per year increasing CO2 up to 4XCO2 simulation. CO2 increase only affects carbon cycle models, radiative code sees pre-industrial CO2.  With time varying anthropogenic nitrogen deposition.  Only applicable to models whose simulation will be affected by the deposition of reactive nitrogen either due to terrestrial or marine nitrogen cycle effects on carbon fluxes and store." egid="f16d22b0-dd9e-11e6-b89b-ac72891c3257" endy="1999" ensz="1" label="1pctCO2Ndep-bgc" mcfg="" mip="C4MIP" nstart="1" ntot="140" starty="1850.0" tier="2" title="biogeochemically-coupled version of 1 percent per year increasing CO2 experiment with increasing N-deposition" uid="f16d28b4-dd9e-11e6-b89b-ac72891c3257" yps="150"></item> 
    7013 <item comment="Idealized 1%/yr CO2 increase to 4xC02 over 140yrs and kept constant at 4xCO2 for an additional 200 to 400 yrs simulation that includes interactive ice sheets" description="Increase atmospheric carbon dioxide by 1% per year to quadrupling then hold fixed for 200 years in a model with interactive ice sheets. The experiment should be identical to the corresponding standard CMIP AOGCM experiment except for the treatment of ice sheets. 1pctCO2to4x-withism forcing differs from the 1% increase in CO2 experiment in that  after year 140 , when the CO2 levels = 4xCO2, the concentration of CO2 remains set to 4xCO2 for the remainder of the experiment Run for a minimum of 350 years (500 years encouraged)." egid="f16e77fa-dd9e-11e6-b89b-ac72891c3257" endy="As long as possible (350 or 500)" ensz="1" label="1pctCO2to4x-withism" mcfg="AOGCM-ISM" mip="ISMIP6" nstart="1" ntot="350" starty="From piControlwithism" tier="1" title="simulation with interactive ice sheet forced by 1 percent per year increase in CO2 to 4xCO2 (subsequently held fixed)" uid="f16e76a6-dd9e-11e6-b89b-ac72891c3257" yps="350"></item> 
    7014 <item comment="" description="As piSST, but with monthly-varying SSTs taken from years 111-140 of each model's own abrupt4xCO2 experiment instead of from piControl. Sea-ice is unchaged from the piSST." egid="f16d72d8-dd9e-11e6-b89b-ac72891c3257" endy="Year 140 of abrupt4xCO2" ensz="1" label="a4SST" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="30" starty="Year 111 of abrupt4xCO2" tier="2" title="as piSST but with SSTs from abrupt4xCO2" uid="f16d8070-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7015 <item comment="" description="As piSST, but with monthly-varying SSTs and sea ice taken from years 111-140 of each model's own abrupt4xCO2 experiment instead of from piControl." egid="f16d72d8-dd9e-11e6-b89b-ac72891c3257" endy="Year 140 of abrupt4xCO2" ensz="1" label="a4SSTice" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="30" starty="Year 111 of abrupt4xCO2" tier="2" title="as piSST but with SSTs and sea ice from abrupt4xCO2" uid="f16d832c-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7016 <item comment="" description="As a4SSTice, but CO2 is quadrupled, and the increase in CO2 is seen by both the radiation scheme and vegetation." egid="f16d72d8-dd9e-11e6-b89b-ac72891c3257" endy="Year 140 of abrupt4xCO2" ensz="1" label="a4SSTice-4xCO2" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="30" starty="Year 111 of abrupt4xCO2" tier="2" title="as piSST but with SSTs and sea ice from abrupt4xCO2, and 4xCO2 seen by radiation and vegetation" uid="f16d85c0-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7017 <item comment="" description="Impose an instantaneous halvinging of the concentration of atmospheric carbon dioxide, then hold fixed." egid="f16d5672-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="abrupt-0p5xCO2" mcfg="Coupled AOGCM" mip="CFMIP" nstart="1" ntot="150" starty="" tier="2" title="abrupt halving of CO2" uid="f16d6bda-dd9e-11e6-b89b-ac72891c3257" yps="150"></item> 
    7018 <item comment="" description="Impose an instantaneous doubling of the concentration of atmospheric carbon dioxide, then hold fixed." egid="f16d5672-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="abrupt-2xCO2" mcfg="Coupled AOGCM" mip="CFMIP" nstart="1" ntot="150" starty="" tier="2" title="abrupt doubling of CO2" uid="f16d6946-dd9e-11e6-b89b-ac72891c3257" yps="150"></item> 
    7019 <item comment="" description="Impose an instantaneous quadrupling of the concentration of atmospheric carbon dioxide, then hold fixed." egid="f16fbb42-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="5" label="abrupt-4xCO2" mcfg="" mip="CMIP" nstart="1" ntot="750" starty="" tier="1" title="abrupt quadrupling of CO2" uid="f16fbe1c-dd9e-11e6-b89b-ac72891c3257" yps="150"></item> 
    7020 <item comment="" description="Same as abrupt-solp4p, except the solar constant is reduced by 4% rather than increased." egid="f16d5672-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="abrupt-solm4p" mcfg="Coupled AOGCM" mip="CFMIP" nstart="1" ntot="150" starty="" tier="2" title="abrupt 4% decrease in solar constant" uid="f16d66b2-dd9e-11e6-b89b-ac72891c3257" yps="150"></item> 
    7021 <item comment="" description="Conceptually similar to the abrupt 4xCO2 DECK experiment, except that the solar constant rather than CO2 is abruptly increased by 4%." egid="f16d5672-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="abrupt-solp4p" mcfg="Coupled AOGCM" mip="CFMIP" nstart="1" ntot="150" starty="" tier="2" title="abrupt 4% increase in solar constant" uid="f16d63d8-dd9e-11e6-b89b-ac72891c3257" yps="150"></item> 
    7022 <item comment="" description="An atmosphere only climate simulation using prescribed sea surface temperature and sea ice concentrations but with other conditions as in the Historical simulation." egid="f16fbb42-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="1" label="amip" mcfg="" mip="CMIP" nstart="1" ntot="40" starty="1979" tier="1" title="AMIP" uid="f16fc344-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7023 <item comment="" description="Continuation of CFMIP-2 AMIP experiments and CMIP5 experiment 6.5. AMIP conditions are imposed but the radiation code sees quadrupled CO2, relative to the AMIP. If the carbon cycle remains active, it should continue to &quot;see&quot; AMIP CO2, while the radiation should see 4xCO2 with respect to the AMIP experiment." egid="f16d404c-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="amip-4xCO2" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="36" starty="1979.0" tier="1" title="AMIP SSTs with 4xCO2" uid="f16d4312-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7024 <item comment="" description="Same as amip, but a patterned SST anomaly is applied on top of the monthly-varying amip SSTs. This anomaly is a monthly climatology, taken from each model's own abrupt4xCO2 run minus piControl (using the mean of years 111-140 of abrupt4xCO2, and the parallel 30-year section of piControl). CO2 is quadrupled, and the increase in CO2 is seen by both the radiation scheme and vegetation." egid="f16d72d8-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="amip-a4SST-4xCO2" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="36" starty="1979.0" tier="2" title="as AMIP but with warming pattern from abrupt4xCO2 added to SSTs and 4xCO2 seen by radiation and vegetation" uid="f16d8854-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7025 <item comment="" description="PA5.2: investigate role of transient SST in recent climate change" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2014.0" ensz="3" label="amip-climSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="108" starty="1979.0" tier="3" title="AMIP with climatological SIC" uid="661fa32a-4e15-11e8-be0a-1c4d70487308" yps="36"></item> 
    7026 <item comment="" description="PA5.1: investigate role of transient sea ice in recent climate change" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2014.0" ensz="3" label="amip-climSST" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="108" starty="1979.0" tier="3" title="AMIP with climatological SST" uid="661fa329-4e15-11e8-be0a-1c4d70487308" yps="36"></item> 
    7027 <item comment="" description="Continuation of CFMIP-2 AMIP experiments and CMIP5 experiment 6.6. Add a composite SST warming pattern (derived from coupled models, scaled to a global mean of 4K) to the AMIP sea surface temperatures (SSTs). This warming should be applied to the ice free ocean surface only.  Sea ice and SSTs under sea ice remain the same as in the amip DECK experiment.  The patterned SST forcing dataset is available in a netcdf file called cfmip2_4k_patterned_sst_forcing.vn1.0.nc in the supplementary information for the CMIP6/CFMIP description paper (Webb et. al. 2016)." egid="f16d4718-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="amip-future4K" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="36" starty="1979.0" tier="1" title="AMIP with patterned 4K SST increase" uid="f16d45ce-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7028 <item comment="" description="Extended AMIP run that covers 1870-2014. All natural and anthropogenic historical forcings as used in CMIP6 Historical Simulation will be included. AGCM resolution as CMIP6 Historical Simulation. The HadISST data will be used.  Minimum number of integrations is 3, more realisations are encouraged." egid="f16e1e04-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="3" label="amip-hist" mcfg="AGCM" mip="GMMIP" nstart="1" ntot="144" starty="1870" tier="1" title="AMIP-style simulation covering the period 1870-2014" uid="f16e1cba-dd9e-11e6-b89b-ac72891c3257" yps="145"></item> 
    7029 <item comment="" description="The topography of the highlands in Africa, N. America and S. America TP is modified by setting surface elevations to 500m. Other settings are the same as the standard DECK AMIP simulation. Minimum number of integrations is 1." egid="f16e28d6-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="1" label="amip-hld" mcfg="AGCM" mip="GMMIP" nstart="1" ntot="35" starty="1979" tier="3" title="same as &quot;amip&quot; run, but surface elevations of the East African Highlands in Africa, Sierra Madre in N. America and Andes in S. America reduced to 500m" uid="f16e2e30-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7030 <item comment="" description="Scenario forced experiment with prescribed land surface climatology derived from &quot;present climate&quot; conditions (1980-2014) and prescribed SST (sea surface temperatures). SST configuration is taken from the AMIP runs in the DECK." egid="f16ebb02-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="5" label="amip-lfmip-pdLC" mcfg="LND-ATM" mip="LS3MIP" nstart="1" ntot="605" starty="1979" tier="2" title="prescribed land (from current climatology) and AMIP SSTs" uid="f16ec048-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7031 <item comment="" description="Simulations with observed SST and land-hist output.  A &quot;pseudo-observed boundary condition&quot; experiment that uses AMIP SSTs and land boundary conditions generated by the land-hist experiment." egid="f16ebb02-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="1" label="amip-lfmip-pObs" mcfg="LND-ATM" mip="LS3MIP" nstart="1" ntot="114" starty="1979" tier="2" title="prescribed land (from pseudo-observations) and AMIP SSTs" uid="f16ec2dc-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7032 <item comment="" description="Scenario forced experiment with prescribed land surface climatology derived from 30 year running mean and prescribed SST (sea surface temperatures)." egid="f16ebb02-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="5" label="amip-lfmip-rmLC" mcfg="LND-ATM" mip="LS3MIP" nstart="1" ntot="605" starty="1979" tier="2" title="prescribed land conditions (from running mean climatology) and AMIP SSTs" uid="f16ecab6-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7033 <item comment="" description="Continuation of CFMIP-2 AMIP experiments and CMIP5 experiment 3.3. AMIP forcing but with cloud-radiative effects switched off in the LW radiation code." egid="f16d5672-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="amip-lwoff" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="36" starty="1979.0" tier="2" title="AMIP experiment with longwave cloud-radiative effects off" uid="f16d550a-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7034 <item comment="" description="AMIP experiment where SSTs are subject to a uniform cooling of 4K. This cooling should be applied to the ice free ocean surface only.  Sea ice and SSTs under sea ice remain the same as in the amip DECK experiment." egid="f16d4718-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="amip-m4K" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="36" starty="1979.0" tier="2" title="AMIP with uniform 4K SST decrease" uid="f16d521c-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7035 <item comment="" description="Continuation of CFMIP-2 AMIP experiments and CMIP5 experiment 6.8.  Add a uniform +4 K to the sea surface temperatures (SSTs) of the AMIP experiment. This warming should be applied to the ice free ocean surface only.  Sea ice and SSTs under sea ice remain the same as in the amip DECK experiment." egid="f16d404c-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="amip-p4K" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="36" starty="1979.0" tier="1" title="AMIP with uniform 4K SST increase" uid="f16d3ef8-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7036 <item comment="" description="As CMIP5/CFMIP-2 amip4K experiment, but with cloud-radiative effects switched off in the LW radiation code." egid="f16d5672-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="amip-p4K-lwoff" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="36" starty="1979.0" tier="2" title="AMIP experiment with uniform 4K SST increase and with longwave cloud radiative effects off" uid="f16d5924-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7037 <item comment="" description="AMIP experiment (with SSTs and Sea Ice the same as in the amip experiment in the DECK) but with constant pre-industrial forcing levels (anthropogenic &amp; natural) and run from 1870-present." egid="f16d5672-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="amip-piForcing" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="145" starty="1870.0" tier="2" title="AMIP SSTs with pre-industrial anthropogenic and natural forcing" uid="f16d6e64-dd9e-11e6-b89b-ac72891c3257" yps="145"></item> 
    7038 <item comment="" description="The topography of the Tibetan Plateau (TIP) and other Asian highlands is modified by setting surface elevations to 500m. Other settings are the same as the standard DECK AMIP simulation. Minimum number of integrations is 1." egid="f16e28d6-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="1" label="amip-TIP" mcfg="AGCM" mip="GMMIP" nstart="1" ntot="35" starty="1979" tier="3" title="same as &quot;amip&quot; run, but surface elevations of the Tibetan-Iranian Plateau and Himalayas reduced to 500m" uid="f16e2778-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7039 <item comment="" description="Surface sensible heat released at the elevation above 500m over the Tibetan Plateau (TIP) is not allowed to heat the atmosphere. Other settings are the same as the standard DECK AMIP simulation. Minimum number of integrations is 1." egid="f16e28d6-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="1" label="amip-TIP-nosh" mcfg="AGCM" mip="GMMIP" nstart="1" ntot="35" starty="1979" tier="3" title="same as &quot;amip&quot; run, but sensible heat not allowed for elevations of the Tibetan-Iranian Plateau and Himalayas above 500m" uid="f16e2b7e-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7040 <item comment="" description="Continuation of CFMIP-2 AMIP experiments and CMIP5 experiment 6.7b. Aquaplanet (no land) experiment with CO2 set to 4x the AMIP mean concentration and no seasonal cycle.  Impose zonally uniform SSTs on a planet without continents." egid="f16d4718-dd9e-11e6-b89b-ac72891c3257" endy="1988.0" ensz="1" label="aqua-4xCO2" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="10" starty="1979.0" tier="1" title="aquaplanet with control SST and 4xCO2" uid="f16d4f56-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7041 <item comment="" description="Continuation of CFMIP-2 AMIP experiments and CMIP5 experiment 6.7a. Aquaplanet (no land) experiment with CO2 set to the AMIP mean concentration and no seasonal cycle.  Impose zonally uniform SSTs on a planet without continents." egid="f16d4718-dd9e-11e6-b89b-ac72891c3257" endy="1988.0" ensz="1" label="aqua-control" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="10" starty="1979.0" tier="1" title="aquaplanet control" uid="f16d49c0-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7042 <item comment="" description="Continuation of CFMIP-2 AMIP experiments and CMIP5 experiment 6.7a. Aquaplanet (no land) experiment with CO2 set to the AMIP mean concentration and no seasonal cycle.  Impose zonally uniform SSTs on a planet without continents but with cloud-radiative effects switched off in the LW radiation code." egid="f16d5672-dd9e-11e6-b89b-ac72891c3257" endy="1988.0" ensz="1" label="aqua-control-lwoff" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="10" starty="1979.0" tier="2" title="aquaplanet control with longwave cloud radiative effects off" uid="f16d5be0-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7043 <item comment="" description="Continuation of CFMIP-2 AMIP experiments and CMIP5 experiment 6.7c. Aquaplanet (no land) experiment with CO2 set to the AMIP mean concentration and no seasonal cycle.  Impose a uniform +4K perturbation to the zonally uniform SSTs of the aquaControl, on a planet without continents." egid="f16d4718-dd9e-11e6-b89b-ac72891c3257" endy="1988.0" ensz="1" label="aqua-p4K" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="10" starty="1979.0" tier="1" title="aquaplanet with uniform 4K SST increase" uid="f16d4c86-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7044 <item comment="" description="Continuation of CFMIP-2 AMIP experiments and CMIP5 experiment 6.7c. Aquaplanet (no land) experiment with CO2 set to the AMIP mean concentration and no seasonal cycle.  Impose a uniform +4K perturbation to the zonally uniform SSTs of the aquaControl, on a planet without continents but with cloud-radiative effects switched off in the LW radiation code." egid="f16d5672-dd9e-11e6-b89b-ac72891c3257" endy="1988.0" ensz="1" label="aqua-p4K-lwoff" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="10" starty="1979.0" tier="2" title="aquaplanet with uniform 4K SST increase and with longwave cloud radiative effects off" uid="f16d60f4-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7045 <item comment="" description="The HighResMIP equivalent of the pre-industrial control with fixed 1950s forcing.  The forcing consists of greenhouse gases, including ozone and aerosol loading for a 1950s (~10 year mean) climatology.  For optimal comparison between models, aerosol concentrations would be preferable and not emissions. Initial ocean conditions are taken from the EN4 (Good et al, 2013) ocean analysis over an average period of 1950-1954.  A short spin-up with these forcings is required (~50 years) to produce initial conditions. At least one ensemble member at high resolution, minimum atmosphere 25-50 km at mid-latitudes and ocean resolution of 0.25 degrees, and a minimum of daily coupling between ocean and atmosphere. At least one ensemble member at standard model resolution. Run for 100 years." egid="f16e66d4-dd9e-11e6-b89b-ac72891c3257" endy="2050.0" ensz="2" label="control-1950" mcfg="HIGH and LOW (e.g. 25km and 60-100km resolution)" mip="HighResMIP" nstart="1" ntot="200" starty="1951.0" tier="2" title="coupled control with fixed 1950's forcing (HighResMIP equivalent of pre-industrial control)" uid="6131b7d0-4cff-11e7-903f-5404a60d96b5" yps="100"></item> 
    7046 <item comment="" description="Pre-Industrial control simulation with a slab ocean. Maintain the same constant boundary forcing as the pre-industrial control integration." egid="f16fb11a-dd9e-11e6-b89b-ac72891c3257" endy="TBD" ensz="1" label="control-slab" mcfg="AOGCM/ ESM" mip="VolMIP" nstart="1" ntot="30" starty="Preindustrial conditions" tier="3" title="control with slab ocean" uid="f16fafd0-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7047 <item comment="Assimilation runs used to generate initial conditions for hindcasts if used" description="assimilation run (if available) that is used to generate initial conditions for hindcasts and which parallels the historical simulation and uses the same forcing" egid="f16dbbe4-dd9e-11e6-b89b-ac72891c3257" endy="present (to 2019)" ensz="1" label="dcppA-assim" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="60" starty="1960.0" tier="2" title="Assimilation run paralleling the historical simulation, which may be used to generate hindcast initial conditions" uid="f16dbe96-dd9e-11e6-b89b-ac72891c3257" yps="60"></item> 
    7048 <item comment="Decadal hindcasts begun each year from 1960 to present, or every other year at minimum: nstart abbreviated: 30-60: total number of years abbreviated: 1500-6000" description="A coordinated set of multi-member ensembles of retrospective forecasts (hindcasts) initialised each year from 1960 to the present (otherwise every second year). Prescribed CMIP6 historical values of atmospheric composition and/or emissions (and other conditions including volcanic aerosols).  Future forcing as the SSP2-4.5 scenario. Run each member for at least 5 years, extend the duration to 10 years with Tier-2 priority.  Additional ensemble members for each start date are requested with Tier-3 priority." egid="f16dbbe4-dd9e-11e6-b89b-ac72891c3257" endy="present (to 2019)" ensz="10 10 30" label="dcppA-hindcast" mcfg="AOGCM/ESM" mip="DCPP" nstart="30" ntot="1500" starty="1960.0" tier="1 2 3" title="hindcast initialized based on observations and using historical forcing" uid="f16dba9a-dd9e-11e6-b89b-ac72891c3257" yps="5"></item> 
    7049 <item comment="Decadal hindcasts begun each year from 1960 to present, or every other year at minimum, but with no information from the future: nstart abbreviated: 30-60: years per sim abbreviated: 300 to 600: total number of years abbreviated: 1500-6000" description="A coordinated set of multi-member ensembles of retrospective forecasts (hindcasts) initialised each year from 1960 to the present (otherwise every second year). Radiative and other focing information (e.g. greenhouse gas concentrations, aerosols etc.) maintained at initial state value or projected in a simple way.  No inclusion of volcano or other short term forcing unless available at initial time.  Initialise from observations.  Run each member for at least 5 years, preferably 10 years." egid="f16dbbe4-dd9e-11e6-b89b-ac72891c3257" endy="present (to 2019)" ensz="10" label="dcppA-hindcast-niff" mcfg="AOGCM/ESM" mip="DCPP" nstart="30" ntot="1500" starty="1960.0" tier="4" title="hindcast initialized based on observations but without using knowledge of subsequent historical forcing" uid="f16dc42c-dd9e-11e6-b89b-ac72891c3257" yps="300"></item> 
    7050 <item comment="Uninitialized climate simulations as in DCPP-A2.2, but with no information from the future: nstart abbreviated: 30-60: years per sim abbreviated: 300 to 600: total number of years abbreviated: 1500-6000" description="A coordinated set of multi-member ensembles of retrospective forecasts (hindcasts) initialised each year from 1960 to the present (otherwise every second year).  Radiative and other forcing information (e.g. greenhouse gas concentrations, aerosols etc.) maintained at initial state value or projected in a simple way.  No inclusion of volcano or other short term forcing unless available at initial time. Initialise from the historical simulation. Run each member for at least 5 years, preferably 10 years." egid="f16dbbe4-dd9e-11e6-b89b-ac72891c3257" endy="present (to 2019)" ensz="10" label="dcppA-historical-niff" mcfg="AOGCM/ESM" mip="DCPP" nstart="30" ntot="1500" starty="1960.0" tier="4" title="hindcast initialized from historical climate simulation but without using knowledge of subsequent historical forcing" uid="f16dc6f2-dd9e-11e6-b89b-ac72891c3257" yps="300"></item> 
    7051 <item comment="Ongoing decadal forecasts" description="Ensembles of ongoing real-time 5-year forecsasts. Initialisation based on observations. Atmospheric composition and/or emissions (and other conditions including volcanic aerosols) to follow prescribed SSP2-4.5 forcing scenario. Run each member for 5 years, extend the duration to 10 years with Tier-2 priority. Additional ensemble members for each start date are requested with Tier-2 priority." egid="f16dcb34-dd9e-11e6-b89b-ac72891c3257" endy="ongoing each year" ensz="10 30" label="dcppB-forecast" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="50" starty="present" tier="1 2" title="forecast initialized from observations with forcing from ssp245" uid="f16dc9d6-dd9e-11e6-b89b-ac72891c3257" yps="5"></item> 
    7052 <item comment="Mechanisms and predictability of the hiatus and of similar long timescale variations of both signs" description="idealized negative extratropical AMV anomaly pattern" egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="25" label="dcppC-amv-ExTrop-neg" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="250" starty="control" tier="2" title="Idealized climate impact of negative extratropical AMV anomaly pattern" uid="f16de164-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7053 <item comment="Mechanisms and predictability of the hiatus and of similar long timescale variations of both signs" description="idealized positive extratropical AMV anomaly pattern" egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="25" label="dcppC-amv-ExTrop-pos" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="250" starty="control" tier="2" title="Idealized climate impact of positive extratropical AMV anomaly pattern" uid="f16ddeb2-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7054 <item comment="" description="idealized impact of AMV-" egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="25" label="dcppC-amv-neg" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="250" starty="control" tier="1" title="Idealized climate impact of negative AMV anomaly pattern" uid="f16dd49e-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7055 <item comment="" description="idealized impact of AMV+" egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="25" label="dcppC-amv-pos" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="250" starty="control" tier="1" title="Idealized climate impact of positive AMV anomaly pattern" uid="f16dd1e2-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7056 <item comment="Mechanisms and predictability of the hiatus and of similar long timescale variations of both signs" description="idealized negative tropical AMV anomaly pattern" egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="25" label="dcppC-amv-Trop-neg" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="250" starty="control" tier="2" title="Idealized climate impact of negative tropical AMV anomaly pattern" uid="f16de6b4-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7057 <item comment="Mechanisms and predictability of the hiatus and of similar long timescale variations of both signs" description="idealized positive tropical AMV anomaly pattern" egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="25" label="dcppC-amv-Trop-pos" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="250" starty="control" tier="2" title="idealized positive tropical AMV anomaly pattern" uid="f16de40c-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7058 <item comment="Mechanisms and predictability of the hiatus and of similar long timescale variations of both signs" description="Restore the north Atlantic sea surface temperature to the model control run climatology. Outside the restored region the model evolves freely allowing full climate system response. No interannual changes in external forcing. Time period: 10 years. 25 ensemble members. SST signal may also be imposed by altering surface fluxes." egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="25" label="dcppC-atl-control" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="250" starty="control" tier="1" title="Idealized Atlantic control" uid="f16dcdf0-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7059 <item comment="Mechanisms and predictability of the hiatus and of similar long timescale variations of both signs" description="Restore 12-month running mean, anomalies of sea surface temperature in the north Atlantic. Outside the restored region the model evolves freely allowing full climate system response. Historical values of atmospheric composition/emissions and solar forcing. Time period: 1950-2014 (run from 1920 if possible). 10 ensemble members (up to 25 members requested).  SST signal may also be imposed by altering surface fluxes." egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="10" label="dcppC-atl-pacemaker" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="650" starty="1950 (from 1910 if possible)" tier="3" title="pacemaker Atlantic experiment" uid="f16df2bc-dd9e-11e6-b89b-ac72891c3257" yps="65"></item> 
    7060 <item comment="Mechanisms and predictability of the hiatus and of similar long timescale variations of both signs: years per sim abbreviated: 5 to 10: total number of years abbreviated: 200-400" description="Repeat DCCP-A1 hindcasts with altered initial conditions. Initialise with climatology (1960-2009 average) in the north Atlantic &quot;sub-polar ocean&quot; (95W-30E, 45N-90N).  Linear transition between climatology and actual observations over a 10 deg buffer zone (35N-45N).  10 ensemble members.  Run each member for at least 5 years, preferably 10 years.  Start dates end of 1993, 1994, 1995, 1996.  Additional start dates at end of 1992, 1997, 1998, 1999." egid="f16df71c-dd9e-11e6-b89b-ac72891c3257" endy="1996.0" ensz="10" label="dcppC-atl-spg" mcfg="AOGCM/ESM" mip="DCPP" nstart="4" ntot="200" starty="1993.0" tier="3" title="predictability of 1990s warming of Atlantic sub-polar gyre" uid="f16df5d2-dd9e-11e6-b89b-ac72891c3257" yps="5"></item> 
    7061 <item comment="Effects of volcanoes on decadal prediction and predictability of forced and internal variability components: years per sim abbreviated: 5 to 10: total number of years abbreviated: 50-100" description="Prediction experiment for 2015 with volcano forcing.  Repeat DCPP-A1 2015 forecast (from the dcppA-hindcast experiment) with Agung forcing. Background volcanic aerosol to be the same as that used in the 1963 hindcast. 10 ensemble members. Run each member for at least 5 years, preferably 10 years." egid="f16dfb22-dd9e-11e6-b89b-ac72891c3257" endy="2015.0" ensz="10" label="dcppC-forecast-addAgung" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="50" starty="2015.0" tier="3" title="2015 forecast with added Agung forcing" uid="f16e0978-dd9e-11e6-b89b-ac72891c3257" yps="5"></item> 
    7062 <item comment="Effects of volcanoes on decadal prediction and predictability of forced and internal variability components: years per sim abbreviated: 5 to 10: total number of years abbreviated: 50-100" description="Prediction experiment for 2015 with volcano forcing.  Repeat DCPP-A1 2015 forecast (from the dcppA-hindcast experiment) with El Chichon forcing. Background volcanic aerosol to be the same as that used in the 1992 hindcast. 10 ensemble members. Run each member for at least 5 years, preferably 10 years." egid="f16dfb22-dd9e-11e6-b89b-ac72891c3257" endy="2015.0" ensz="10" label="dcppC-forecast-addElChichon" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="50" starty="2015.0" tier="3" title="2015 forecast with added El Chichon forcing" uid="f16e06c6-dd9e-11e6-b89b-ac72891c3257" yps="5"></item> 
    7063 <item comment="As volc-pinatubo-full, but as decadal prediction runs. Joint experiment with DCPP, forcing input and implementation of the forcing fully comply with the VolMIP protocol" description="Prediction experiment for 2015 with volcano forcing.  Repeat DCPP-A1 2015 forecast (from the dcppA-hindcast experiment) with Pinatubo forcing. Background volcanic aerosol to be the same as that used in the 1991 hindcast. 10 ensemble members. Run each member for at least 5 years, preferably 10 years." egid="f16dfb22-dd9e-11e6-b89b-ac72891c3257" endy="TBD" ensz="10 10" label="dcppC-forecast-addPinatubo" mcfg="AOGCM/ ESM" mip="VolMIP" nstart="10" ntot="50" starty="2015.0" tier="1 3" title="2015 forecast with added Pinatubo forcing" uid="f16fab98-dd9e-11e6-b89b-ac72891c3257" yps="5"></item> 
    7064 <item comment="Effects of volcanoes on decadal prediction and predictability of forced and internal variability components: years per sim abbreviated: 5 to 10: total number of years abbreviated: 50-100" description="Prediction experiment without volcano forcing. Repeat DCCP-A1 1963 hindcast without Agung forcing. Background volcanic aerosol to be the same as that used in the 2015 forecast. 10 ensemble members. Run each member for at least 5 years, preferably 10 years." egid="f16dfb22-dd9e-11e6-b89b-ac72891c3257" endy="1963.0" ensz="10" label="dcppC-hindcast-noAgung" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="50" starty="1963.0" tier="2" title="hindcast but with only background volcanic forcing to be the same as that used in the 2015 forecast" uid="f16e0090-dd9e-11e6-b89b-ac72891c3257" yps="5"></item> 
    7065 <item comment="Effects of volcanoes on decadal prediction and predictability of forced and internal variability components: years per sim abbreviated: 5 to 10: total number of years abbreviated: 50-100" description="Prediction experiment without volcano forcing. Repeat DCCP-A1 1982 hindcast without El Chichon forcing. Background volcanic aerosol to be the same as that used in the 2015 forecast. 10 ensemble members. Run each member for at least 5 years, preferably 10 years." egid="f16dfb22-dd9e-11e6-b89b-ac72891c3257" endy="1982.0" ensz="10" label="dcppC-hindcast-noElChichon" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="50" starty="1982.0" tier="2" title="hindcast but with only background volcanic forcing to be the same as that used in the 2015 forecast" uid="f16dfde8-dd9e-11e6-b89b-ac72891c3257" yps="5"></item> 
    7066 <item comment="Effects of volcanoes on decadal prediction and predictability of forced and internal variability components: years per sim abbreviated: 5 to 10: total number of years abbreviated: 50-100" description="Prediction experiment without volcano forcing. Repeat DCCP-A1 1991 hindcast without Pinatubo forcing. Background volcanic aerosol to be the same as that used in the 2015 forecast. 10 ensemble members. Run each member for at least 5 years, preferably 10 years." egid="f16dfb22-dd9e-11e6-b89b-ac72891c3257" endy="1991.0" ensz="10" label="dcppC-hindcast-noPinatubo" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="50" starty="1991.0" tier="1" title="hindcast but with only background volcanic forcing to be the same as that used in the 2015 forecast" uid="f16df9d8-dd9e-11e6-b89b-ac72891c3257" yps="5"></item> 
    7067 <item comment="" description="idealized impact of IPV-" egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="10" label="dcppC-ipv-neg" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="100" starty="control" tier="1" title="idealized negative IPV anomaly pattern" uid="f16ddc32-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7068 <item comment="Mechanisms and predictability of the hiatus and of similar long timescale variations of both signs" description="idealized negative northern extratropical IPV anomaly pattern" egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="10" label="dcppC-ipv-NexTrop-neg" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="100" starty="control" tier="2" title="idealized negative northern extratropical IPV anomaly pattern" uid="f16ded3a-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7069 <item comment="Mechanisms and predictability of the hiatus and of similar long timescale variations of both signs" description="idealized positive northern extratropical IPV anomaly pattern" egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="10" label="dcppC-ipv-NexTrop-pos" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="100" starty="control" tier="2" title="idealized positive northern extratropical IPV anomaly pattern" uid="f16dea60-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7070 <item comment="" description="idealized impact of IPV+" egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="10" label="dcppC-ipv-pos" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="100" starty="control" tier="1" title="idealized positive IPV anomaly pattern" uid="f16dd9b2-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7071 <item comment="" description="idealized Pacific control" egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="10" label="dcppC-pac-control" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="100" starty="control" tier="1" title="idealized Pacific control" uid="f16dd728-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7072 <item comment="Mechanisms and predictability of the hiatus and of similar long timescale variations of both signs" description="Restore to observed anomalies of sea surface temperature in the tropical eastern Pacific. Outside the restored region the model evolves freely allowing full climate system response. Historical values of atmospheric composition/emissions and solar forcing. Time period: 1950-2014 (run from 1920 if possible). 10 ensemble members.  SST signal may also be imposed by altering surface fluxes." egid="f16dcf30-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="10" label="dcppC-pac-pacemaker" mcfg="AOGCM/ESM" mip="DCPP" nstart="1" ntot="650" starty="1950 (from 1910 if possible)" tier="3" title="pacemaker Pacific experiment" uid="f16defec-dd9e-11e6-b89b-ac72891c3257" yps="65"></item> 
    7073 <item comment="" description="Idealized deforestation experiment. 20 million square km forest area (covered by trees) is converted to natural unmanaged grassland over a period of 50 years with a linear rate of 400000 km2/yr followed by 30 years of constant forest cover. Run for 80 years. Simulations should be branched from an 1850 control simulation (piControl) at least 80 years prior to the end of the piControl simulation so that deforest-globe and piControl can be directly compared.  All pre-industrial forcings including CO2 concentration and land-use maps and land management should be maintained as in the piControl.  Deforestation should be restricted to the top 30% of land grid cells in terms of their area of tree cover.  Effectively this concentrates deforestation in the tropical rainforest and boreal forest regions." egid="f16ed2ea-dd9e-11e6-b89b-ac72891c3257" endy="1930" ensz="1" label="deforest-globe" mcfg="GCM" mip="LUMIP" nstart="1" ntot="70" starty="1850.0" tier="1" title="idealized transient global deforestation" uid="f16ed18c-dd9e-11e6-b89b-ac72891c3257" yps="81"></item> 
    7074 <item comment="" description="Simulation of recent past (1850 to 2014) with atmospheric CO2 concentration calculated. Impose changing conditions (consistent with observations). To be performed with an Earth System Model (ESM) that can calculate atmospheric CO2 concentration and account for the fluxes of CO2 between the atmosphere, the ocean, and biosphere." egid="f16fc70e-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="esm-hist" mcfg="" mip="CMIP" nstart="1" ntot="165" starty="" tier="1" title="all-forcing simulation of the recent past with atmospheric CO2 concentration calculated" uid="f16fc9ac-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7075 <item comment="" description="Extension beyond 2014 of the CMIP6 historical simulation with atmospheric CO2 concentration calculated. To be performed with an Earth System Model (ESM) that can calculate atmospheric CO2 concentration and account for the fluxes of CO2 between the atmosphere, the ocean, and biosphere." egid="f16fc70e-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="esm-hist-ext" mcfg="" mip="CMIP" nstart="1" ntot="1" starty="" tier="2" title="post-2014 all-forcing simulation with atmospheric CO2 concentration calculated" uid="f16fd136-dd9e-11e6-b89b-ac72891c3257" yps="1"></item> 
    7076 <item comment="" description="100 Gt C instantly removed (negative pulse) from a pre-industrial atmosphere (part of the CDR-pi-pulse experiment)" egid="2ad29ff0-b104-11e8-96ca-1c4d70487308" endy="" ensz="1 3" label="esm-pi-cdr-pulse" mcfg="AOGCM BGC" mip="CDRMIP" nstart="1" ntot="100" starty="" tier="1 2" title="pulse removal of 100 Gt carbon from pre-industrial atmosphere" uid="56ed15d1-b104-11e8-96ca-1c4d70487308" yps="100"></item> 
    7077 <item comment="" description="100 Gt C instantly added (positive pulse) to a pre-industrial atmosphere (part of the CDR-pi-pulse experiment)" egid="2ad29ff0-b104-11e8-96ca-1c4d70487308" endy="" ensz="1 3" label="esm-pi-CO2pulse" mcfg="AOGCM BGC" mip="CDRMIP" nstart="1" ntot="100" starty="" tier="1 2" title="pulse addition of 100 Gt carbon to pre-industrial atmosphere" uid="56ed15cd-b104-11e8-96ca-1c4d70487308" yps="100"></item> 
    7078 <item comment="" description="A pre-inudsutrial control simulation with non-evolving pre-industrial conditions and atmospheric CO2 calculated. Conditions chosen to be representative of the period prior to the onset of large-scale industrialization, with 1850 being the reference year.  The piControl starts after an initial climate spin-up, during which the climate begins to come into balance with the forcing. The recommended minimum length for the piControl is 500 years. To be performed with an Earth System Model (ESM) that can calculate atmospheric CO2 concentration and account for the fluxes of CO2 between the atmosphere, the ocean, and biosphere." egid="f16fbb42-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="esm-piControl" mcfg="" mip="CMIP" nstart="1" ntot="500" starty="" tier="1" title="pre-industrial control simulation with CO2 concentration calculated" uid="f16fcc40-dd9e-11e6-b89b-ac72891c3257" yps="500"></item> 
    7079 <item comment="" description="" egid="f16fbb42-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="esm-piControl-spinup" mcfg="" mip="CMIP" nstart="1" ntot="100" starty="" tier="2" title="pre-industrial control simulation with CO2 concentration calculated (spin-up)" uid="f16fd636-dd9e-11e6-b89b-ac72891c3257" yps="100"></item> 
    7080 <item comment="" description="CO2 emissions driven SSP5-3.4 overshoot scenario simulation optionally extending to year 2300 (part of the CDR-overshoot experiment)" egid="2ad29ff0-b104-11e8-96ca-1c4d70487308" endy="2100 or 2300" ensz="3" label="esm-ssp534-over" mcfg="AOGCM BGC" mip="CDRMIP" nstart="1" ntot="86" starty="2015" tier="2" title="emission-driven SSP5-3.4-OS scenario" uid="56ed15d2-b104-11e8-96ca-1c4d70487308" yps="86"></item> 
    7081 <item comment="" description="Emission driven future scenario (SSP-based RCP SSP5-8.5) up to 2100. Starting conditions taken from emissions-driven Historical simulation." egid="f16cd3fa-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="esm-ssp585" mcfg="" mip="C4MIP" nstart="1" ntot="285" starty="2015" tier="1" title="emission-driven RCP8.5 based on SSP5" uid="f16c8fe4-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7082 <item comment="" description="emission driven SSP5-8.5 scenario with 0.14 Pmol/yr alkalinity added to ice free ocean surface waters from 2020 optionally extended from 2100 to 2300 (part of the CDR-ocean-alk experiment)" egid="2ad29ff0-b104-11e8-96ca-1c4d70487308" endy="2100 or 2300" ensz="3" label="esm-ssp585-ocn-alk" mcfg="AOGCM BGC" mip="CDRMIP" nstart="1" ntot="81" starty="2020" tier="2" title="emission-driven SSP5-8.5 scenario but with ocean alkalinization from year 2020 onward" uid="56ed15cb-b104-11e8-96ca-1c4d70487308" yps="81"></item> 
    7083 <item comment="" description="Simulation of abrupt termination of ocean alkalinsation in 2070 during an emission driven SSP5-8.5 scenario (part of the CDR-ocean-alk experiment)" egid="2ad29ff0-b104-11e8-96ca-1c4d70487308" endy="2100" ensz="3" label="esm-ssp585-ocn-alk-stop" mcfg="AOGCM BGC" mip="CDRMIP" nstart="1" ntot="31" starty="2070" tier="3" title="emission-driven SSP5-8.5 scenario with alkalinization terminated in year 2070" uid="56ed15ce-b104-11e8-96ca-1c4d70487308" yps="31"></item> 
    7084 <item comment="" description="Keep all forcings the same as C4MIP esm-ssp585 scenario, but replace land use with ScenarioMIP SSP1-2.6  (aforestation) scenario. Emission driven." egid="f16ef5ae-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="esm-ssp585-ssp126Lu" mcfg="ESM" mip="LUMIP" nstart="1" ntot="95" starty="2015" tier="1" title="emissions-driven SSP5-8.5 with SSP1-2.6 land use" uid="f16ef464-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7085 <item comment="" description="Long term extension of CO2 emissions driven SSP5-8.5 with SSP1-2.6 land use forcing (part of the CDR-afforestation experiment)" egid="2ad29ff0-b104-11e8-96ca-1c4d70487308" endy="2300" ensz="3" label="esm-ssp585-ssp126Lu-ext" mcfg="AOGCM BGC" mip="CDRMIP" nstart="1" ntot="201" starty="2100" tier="2" title="extension of the LUMIP emissions-driven simulation following SSP5-8.5 with SSP1-2.6 land use" uid="56ed15d0-b104-11e8-96ca-1c4d70487308" yps="201"></item> 
    7086 <item comment="" description="Long term extension of CO2 emissions driven SSP5-8.5 scenario (used in the CDR-afforestation and CDR-ocean-alk experiments)" egid="2ad29ff0-b104-11e8-96ca-1c4d70487308" endy="2300" ensz="3" label="esm-ssp585ext" mcfg="AOGCM BGC" mip="CDRMIP" nstart="1" ntot="201" starty="2100" tier="2" title="emission-driven long-term extension of the SSP5-8.5 scenario" uid="56ed15cf-b104-11e8-96ca-1c4d70487308" yps="201"></item> 
    7087 <item comment="" description="Upon initialization from end of year 2015 of esm-yr2010CO2-control instantaneously remove 100 Gt C (&quot;negative pulse&quot;; part of the CDR-yr2010-pulse experiment" egid="2ad29ff0-b104-11e8-96ca-1c4d70487308" endy="2115" ensz="3" label="esm-yr2010CO2-cdr-pulse" mcfg="AOGCM BGC" mip="CDRMIP" nstart="1" ntot="101" starty="2015" tier="3" title="instantaneous 100 Gt C removal from industrial era atmosphere" uid="56ed15d3-b104-11e8-96ca-1c4d70487308" yps="101"></item> 
    7088 <item comment="" description="Upon initialization from end of year 2015 of esm-yr2010CO2-control instantaneously introduce 100 Gt C (&quot;positive pulse&quot;; part of the CDR-yr2010-pulse experiment)" egid="2ad29ff0-b104-11e8-96ca-1c4d70487308" endy="2115" ensz="3" label="esm-yr2010CO2-CO2pulse" mcfg="AOGCM BGC" mip="CDRMIP" nstart="1" ntot="101" starty="2015" tier="3" title="instantaneous 100 Gt C addition to an industrial era atmosphere" uid="56ed15d5-b104-11e8-96ca-1c4d70487308" yps="101"></item> 
    7089 <item comment="" description="Forced with CO2 emissions diagnosed from historical and yr2010CO2 simulations and all other forcings the same as in that simulation (part of the CDR-yr2010-pulse experiment)" egid="2ad29ff0-b104-11e8-96ca-1c4d70487308" endy="2115" ensz="3" label="esm-yr2010CO2-control" mcfg="AOGCM BGC" mip="CDRMIP" nstart="1" ntot="266" starty="1850" tier="3" title="historical emissions followed by fixed 2010 emissions (both model-diagnosed)" uid="56ed15ca-b104-11e8-96ca-1c4d70487308" yps="266"></item> 
    7090 <item comment="" description="Upon initialization from end of year 2015 of esm-yr2010-control CO2 emissions are fixed at zero; all other forcing fixed at 2010 level (part of the CDR-yr2010-pulse experiment)" egid="2ad29ff0-b104-11e8-96ca-1c4d70487308" endy="2115" ensz="3" label="esm-yr2010CO2-noemit" mcfg="AOGCM BGC" mip="CDRMIP" nstart="1" ntot="101" starty="2015" tier="3" title="branches from esm-yr2010CO2-control with zero emissions" uid="56ed15d4-b104-11e8-96ca-1c4d70487308" yps="101"></item> 
    7091 <item comment="" description="Simultaneously apply anomalous fluxes of windstress, heat and freshwater using the passive-tracer method for heat as in the faf-heat experiment. Impose pre-industrial atmospheric conditions. Branch from the piControl at the same point as the 1pctCO2 experiment." egid="f16e16de-dd9e-11e6-b89b-ac72891c3257" endy="70.0" ensz="1" label="faf-all" mcfg="AOGCM" mip="FAFMIP" nstart="1" ntot="70" starty="1.0" tier="2" title="control plus perturbative surface fluxes of momentum, heat and water into ocean" uid="f16e19ea-dd9e-11e6-b89b-ac72891c3257" yps="70"></item> 
    7092 <item comment="" description="Impose surface heat flux anomalies to the ocean, calculated from the ensemble mean of the CMIP5 1pctCO2 simulations at the time of CO2 doubling. Impose pre-industrial atmospheric conditions. Branch from the piControl at the same point as the 1pctCO2 experiment." egid="f16e0d74-dd9e-11e6-b89b-ac72891c3257" endy="70.0" ensz="1" label="faf-heat" mcfg="AOGCM" mip="FAFMIP" nstart="1" ntot="70" starty="1.0" tier="1" title="control plus perturbative surface flux of heat into ocean" uid="f16e1030-dd9e-11e6-b89b-ac72891c3257" yps="70"></item> 
    7093 <item comment="" description="Add a surface flux of passive tracer at the same rate as the surface heat flux perturbation, calculated from the ensemble mean of the CMIP5 1pctCO2 simulations at the time of CO2 doubling. Impose pre-industrial atmospheric conditions. Branch from the piControl at the same point as the 1pctCO2 experiment. This experiment does not affect the model evolution,  so the experiment is equivalent to the piControl with an extra diagnostic tracer." egid="f16e16de-dd9e-11e6-b89b-ac72891c3257" endy="70.0" ensz="1" label="faf-passiveheat" mcfg="AOGCM" mip="FAFMIP" nstart="1" ntot="70" starty="1.0" tier="2" title="control plus surface flux of passive heat tracer into ocean" uid="f16e1594-dd9e-11e6-b89b-ac72891c3257" yps="70"></item> 
    7094 <item comment="" description="Impose a perturbation in surface zonal and meridional momentum flux i.e. wind stress.  The stress perturbation is added to the momentum balance of the ocean water surface. The stress perturbation is calculated from the ensemble mean of the CMIP5 1pctCO2 simulations at the time of CO2 doubling.  Its dominant feature is the increase in westerly windstress in the Southern Ocean. Impose pre-industrial atmospheric conditions.  Branch from the piControl at the same point as the 1pctCO2 experiment." egid="f16e0d74-dd9e-11e6-b89b-ac72891c3257" endy="70.0" ensz="1" label="faf-stress" mcfg="AOGCM" mip="FAFMIP" nstart="1" ntot="70" starty="1.0" tier="1" title="control plus perturbative surface flux of momentum into ocean" uid="f16e0c20-dd9e-11e6-b89b-ac72891c3257" yps="70"></item> 
    7095 <item comment="" description="Impose surface freshwater flux anomalies to the ocean (including the contribution from runoff change), calculated from the ensemble mean of the CMIP5 1pctCO2 simulations at the time of CO2 doubling. Impose pre-industrial atmospheric conditions. Branch from the piControl at the same point as the 1pctCO2 experiment." egid="f16e0d74-dd9e-11e6-b89b-ac72891c3257" endy="70.0" ensz="1" label="faf-water" mcfg="AOGCM" mip="FAFMIP" nstart="1" ntot="70" starty="1.0" tier="1" title="control plus perturbative surface flux of water into ocean" uid="f16e12ec-dd9e-11e6-b89b-ac72891c3257" yps="70"></item> 
    7096 <item comment="" description="PA1.4: investigate role of SST in polar amplification" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="futSST-pdSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="2" title="Atmosphere time slice with future SST and present day SIC" uid="661fa319-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7097 <item comment="" description="Time slice at year 100 of the GeoMIP G1 experiment with fixed sea surface temperature climatology calculated from the abrupt-4xCO2 experiment after 100 years. Run for 10 years." egid="f16e4352-dd9e-11e6-b89b-ac72891c3257" endy="1949.0" ensz="1" label="futureSST-4xCO2-solar" mcfg="AGCM" mip="GeoMIP" nstart="1" ntot="10" starty="1949.0" tier="2" title="year 100 SSTs from abrupt4xCO2 with quadrupled CO2 and solar reduction" uid="f16e462c-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7098 <item comment="" description="Extended version of GeoMIP experiment G1 (Kravitz et al., 2011). Beginning from a preindustrial control simulation (picontrol) the net top of atmospehere (TOA) radiative flux imbalance due to an abrupt quadruping of the CO2 concentration (abrupt4xCO2) would be balanced via a reduction in total solar irradiance. Here, &quot;balance&quot; is defined as  the global mean value of top-of-atmosphere net radiative flux being within +-0.1 W/m2 of the piControl experiment over an average of years 1-10 of the simulation. The G1ext experiment should be run for 50 years, however modelling groups that are not able to extend their previous (G1) model simulation should run experiment G1ext for the full 100 years." egid="f16e3222-dd9e-11e6-b89b-ac72891c3257" endy="1949.0" ensz="1" label="G1" mcfg="AOGCM" mip="GeoMIP" nstart="1" ntot="300" starty="1850.0" tier="1" title="abrupt quadrupling of CO2 plus reduction in total solar irradiance" uid="f16e30e2-dd9e-11e6-b89b-ac72891c3257" yps="100"></item> 
    7099 <item comment="Using solar irradiance reduction, return the radiative forcing from a background of the ScenarioMIP high forcing to the ScenarioMIP middle forcing" description="Using solar irradiance reduction, return the radiative forcing from a background of the ScenarioMIP high forcing (SSP5-85) to the ScenarioMIP middle forcing (SSP2-45).  Geoengineering will be simulated over years 2020 to 2100." egid="f16e3790-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="G6solar" mcfg="AOGCM" mip="GeoMIP" nstart="1" ntot="243" starty="2015" tier="1" title="total solar irradiance reduction to reduce net forcing from SSP585 to SSP245" uid="f16e3a6a-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7100 <item comment="" description="Time slice for the first year of the ScenarioMIP SSP5-85 (high forcing scenario) experiment. Run for 10 years." egid="f16e4352-dd9e-11e6-b89b-ac72891c3257" endy="2020.0" ensz="1" label="G6SST1" mcfg="AGCM" mip="GeoMIP" nstart="1" ntot="10" starty="2020.0" tier="2" title="SSTs, forcings, and other prescribed conditions from year 2020 of SSP5-8.5" uid="f16e48d4-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7101 <item comment="" description="Time slice at year 2100 of GeoMIP G6solar. Run for 10 years." egid="f16e4352-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="G6SST2-solar" mcfg="AGCM" mip="GeoMIP" nstart="1" ntot="10" starty="2100.0" tier="2" title="SSTs from year 2020 of SSP5-8.5; forcings and other prescribed conditions from year 2100 of G6solar" uid="f16e4ed8-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7102 <item comment="" description="Time slice at year 2100 of GeoMIP G6sulfur. Run for 10 years." egid="f16e4352-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="G6SST2-sulfur" mcfg="AGCM" mip="GeoMIP" nstart="1" ntot="10" starty="2100.0" tier="2" title="SSTs from year 2020 of SSP5-8.5; forcings and other prescribed conditions from year 2100 of G6sulfur" uid="f16e4c26-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7103 <item comment="" description="Injection of sulfate aerosol precursors in the equatorial stratosphere to reduce the radiative forcing of the ScenarioMIP high forcing scenario (SSP5-85) to match that of the ScenarioMIP medium forcing scenario (SSP2-45).   Geoengineering will be simulated over years 2020 to 2100." egid="f16e3790-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="G6sulfur" mcfg="AOGCM" mip="GeoMIP" nstart="1" ntot="243" starty="2015" tier="1" title="stratospheric sulfate aerosol injection to reduce net forcing from SSP585 to SSP245" uid="f16e3632-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7104 <item comment="Against a background of the ScenarioMIP high forcing, reduce cirrus cloud optical depth by a constant amount" description="Against a background of the ScenarioMIP high forcing (SSP5-85), reduce cirrus cloud optical depth by a constant amount. Geoengineering will be simulated over years 2020 to 2100." egid="f16e3f42-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="G7cirrus" mcfg="AOGCM" mip="GeoMIP" nstart="1" ntot="243" starty="2015" tier="1" title="increase cirrus ice crystal fall speed to reduce net forcing in SSP585 by 1 W m-2" uid="f16e3de4-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7105 <item comment="" description="Time slice at year 2020 of GeoMIP G7cirrus. Run for 10 years." egid="f16e4352-dd9e-11e6-b89b-ac72891c3257" endy="2020.0" ensz="1" label="G7SST1-cirrus" mcfg="AGCM" mip="GeoMIP" nstart="1" ntot="10" starty="2020.0" tier="2" title="SSTs from year 2020 of SSP5-8.5; forcings and other prescribed conditions from year 2020 of SSP5-8.5 and cirrus thinning" uid="f16e5194-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7106 <item comment="" description="Time slice at year 2100 GeoMIP G7cirrus.  Run for 10 years." egid="f16e4352-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="G7SST2-cirrus" mcfg="AGCM" mip="GeoMIP" nstart="1" ntot="10" starty="2100.0" tier="2" title="SSTs from year 2100 of SSP5-8.5; forcings and other prescribed conditions from year 2100 of G7cirrus" uid="f16e5446-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7107 <item comment="" description="High forcing (ScenarioMIP SSP5-85) future scenario (2015-2050) coupled ocean atmosphere simulations at high and standard resolution. For optimal comparison between models aerosol concentrations would be preferable and not emissions. At least one ensemble member at high resolution, minimum atmosphere 25-50 km at mid-latitudes and ocean resolution of 0.25 degrees, and a minimum of daily coupling between ocean and atmosphere. At least one ensemble member at standard model resolution." egid="f16e66d4-dd9e-11e6-b89b-ac72891c3257" endy="2050" ensz="2" label="highres-future" mcfg="HIGH and LOW (e.g. 25km and 60-100km resolution)" mip="HighResMIP" nstart="1" ntot="200" starty="2015" tier="2" title="coupled future 2015-2050 using a scenario as close to CMIP5 RCP8.5 as possible within CMIP6" uid="6131bd34-4cff-11e7-903f-5404a60d96b5" yps="36"></item> 
    7108 <item comment="" description="Extend Forced_Atmos_land to 2050 with agreed forcings (with option to extend further to 2100)" egid="f16e6ac6-dd9e-11e6-b89b-ac72891c3257" endy="2050.0" ensz="1" label="highresSST-4xCO2" mcfg="HIGH and LOW (e.g. 25km and 60-100km resolution)" mip="HighResMIP" nstart="1" ntot="36" starty="2015.0" tier="3" title="__unset__" uid="6532c230-4cfe-11e7-903f-5404a60d96b5" yps="36"></item> 
    7109 <item comment="" description="High forcing (ScenarioMIP SSP5-85) future scenario (2015-2050) atmosphere only simulations at high and standard resolution, with an option to continue to 2100. For optimal comparison between models aerosol concentrations would be preferable and not emissions. Future SST and SIC are determined from a blend of warming rates derived from an ensemble mean of CMIP5 RCP8.5 simulations and interannual variability derived from the historic 1960-2014 period. At least one ensemble member at high resolution, minimum atmosphere 25-50 km at mid-latitudes. At least one ensemble member at standard model resolution." egid="f16e6ac6-dd9e-11e6-b89b-ac72891c3257" endy="2050.0" ensz="2" label="highresSST-future" mcfg="HIGH and LOW (e.g. 25km and 60-100km resolution)" mip="HighResMIP" nstart="1" ntot="36" starty="2015.0" tier="3" title="forced atmosphere experiment for 2015-2050 using SST/sea-ice derived from CMIP5 RCP8.5 simulations and a scenario as close to RCP8.5 as possible within CMIP6" uid="6532c6cc-4cfe-11e7-903f-5404a60d96b5" yps="36"></item> 
    7110 <item comment="" description="Extend Forced_Atmos_land to 2050 with agreed forcings (with option to extend further to 2100)" egid="f16e6ac6-dd9e-11e6-b89b-ac72891c3257" endy="2050.0" ensz="1" label="highresSST-LAI" mcfg="HIGH and LOW (e.g. 25km and 60-100km resolution)" mip="HighResMIP" nstart="1" ntot="36" starty="2015.0" tier="3" title="common LAI dataset within the highresSST-present experiment" uid="6532c56e-4cfe-11e7-903f-5404a60d96b5" yps="36"></item> 
    7111 <item comment="" description="Extend Forced_Atmos_land to 2050 with agreed forcings (with option to extend further to 2100)" egid="f16e6ac6-dd9e-11e6-b89b-ac72891c3257" endy="2050.0" ensz="1" label="highresSST-p4K" mcfg="HIGH and LOW (e.g. 25km and 60-100km resolution)" mip="HighResMIP" nstart="1" ntot="36" starty="2015.0" tier="3" title="uniform 4K warming of highresSST-present SST" uid="6532c802-4cfe-11e7-903f-5404a60d96b5" yps="36"></item> 
    7112 <item comment="" description="Historical AMIP simulations of the near past (1950-2014). HadISST2 sea surface temperature and sea ice concentrations at daily 1/4 degree resolution to be used (Rayner et al., 2016). At least one ensemble member at high resolution, minimum 25-50 km at mid-latitudes. At least one ensemble member at standard model resolution as used in the DECK and historical simulations." egid="f16e62ce-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="2" label="highresSST-present" mcfg="HIGH and LOW (e.g. 25km and 60-100km resolution)" mip="HighResMIP" nstart="1" ntot="64" starty="1950" tier="1" title="forced atmosphere experiment for 1950-2014" uid="f16e618e-dd9e-11e6-b89b-ac72891c3257" yps="65"></item> 
    7113 <item comment="" description="Extend Forced_Atmos_land to 2050 with agreed forcings (with option to extend further to 2100)" egid="f16e6ac6-dd9e-11e6-b89b-ac72891c3257" endy="2050.0" ensz="1" label="highresSST-smoothed" mcfg="HIGH and LOW (e.g. 25km and 60-100km resolution)" mip="HighResMIP" nstart="1" ntot="36" starty="2015.0" tier="3" title="smoothed SST version of highresSST-present" uid="6532c92e-4cfe-11e7-903f-5404a60d96b5" yps="36"></item> 
    7114 <item comment="" description="Historical coupled ocean atmosphere simulations of the near past (1950-2014) at high and standard resolution. For optimal comparison between models aerosol concentrations would be preferable and not emissions. At least one ensemble member at high resolution, minimum atmosphere 25-50 km at mid-latitudes and ocean resolution of 0.25 degrees, and a minimum of daily coupling between ocean and atmosphere. At least one ensemble member at standard model resolution." egid="f16e66d4-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="2" label="hist-1950" mcfg="HIGH and LOW (e.g. 25km and 60-100km resolution)" mip="HighResMIP" nstart="1" ntot="200" starty="1950" tier="2" title="coupled historical 1950-2014" uid="6131bbe0-4cff-11e7-903f-5404a60d96b5" yps="65"></item> 
    7115 <item comment="Historical WMGHG concentrations and NTCF emissions, 1950 halocarbon concentrations, start 1950" description="Historical WMGHG concentrations and historical emissions of Near Term Climate Forcers (NTCFs), namely tropospheric aerosols and tropospheric ozone precurors, halocarbons (Ozone Depleting Substances) to be fixed at 1950 concentration levels. These simulations parallel the &quot;CMIP6 historical&quot;, and differ only by fixing the anthropogenic emissions or concentrations of a specified class of species.   All other forcing agents must evolve as in &quot;CMIP6 historical&quot;." egid="8709a634-51c3-11e7-9bc5-5404a60d96b5" endy="2014.0" ensz="3" label="hist-1950HC" mcfg="AOGCM" mip="AerChemMIP" nstart="1" ntot="195" starty="1950.0" tier="1" title="historical forcing, but with1950s halocarbon concentrations; initialized in 1950" uid="70e37934-54ca-11e7-a104-5404a60d96b5" yps="65"></item> 
    7116 <item comment="Historical anthropogenic-Aerosols-only run" description="Historical aerosol-only simulations resemble the historical simulations but instead are forced by changes in anthropogenic aerosol forcing only (sulfate, black carbon, organic carbon, ammonia, NOx and VOCs). Report what sets of emissions and boundary conditions are used." egid="f16d9470-dd9e-11e6-b89b-ac72891c3257" endy="2020.0" ensz="3" label="hist-aer" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="513" starty="1850.0" tier="1" title="historical anthropogenic aerosols-only run" uid="f16d931c-dd9e-11e6-b89b-ac72891c3257" yps="171"></item> 
    7117 <item comment="Historical ALL forcing run with alternate estimates of aerosol concentrations/emissions" description="Very like the hist-all (histALL) simulations except that they contain alternative estimates of aerosol forcing." egid="f16db536-dd9e-11e6-b89b-ac72891c3257" endy="2020.0" ensz="3" label="hist-all-aer2" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="513" starty="1850.0" tier="3" title="historical ALL-forcing run with alternate estimates of aerosol forcing" uid="f16db3ec-dd9e-11e6-b89b-ac72891c3257" yps="171"></item> 
    7118 <item comment="Historical ALL forcing run with alternates estimate of solar and volcanic forcing" description="Very like the hist-all (histALL) simulations except that they contain alternative estimates of solar and volcanic forcing." egid="f16db536-dd9e-11e6-b89b-ac72891c3257" endy="2020.0" ensz="3" label="hist-all-nat2" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="513" starty="1850.0" tier="3" title="historical ALL-forcing run with alternate estimates of natural forcing" uid="f16db7e8-dd9e-11e6-b89b-ac72891c3257" yps="171"></item> 
    7119 <item comment="" description="Historical, concentration-driven, simulation parallel to standard Historical run, but with radiative effects of CO2 disabled - i.e. the radiation code is fed the time-invariant CO2 concentration from the control run." egid="f16d3098-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="hist-bgc" mcfg="" mip="C4MIP" nstart="1" ntot="165" starty="1850.0" tier="2" title="biogeochemically-coupled version of the simulation of the recent past with CO2 concentration prescribed" uid="f16d2f3a-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7120 <item comment="Historical CO2-only run" description="Historical simulations driven by changes in CO2 concentration only as used in hist-all (histAll) experiment." egid="f16da38e-dd9e-11e6-b89b-ac72891c3257" endy="2020.0" ensz="3" label="hist-CO2" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="513" starty="1850.0" tier="3" title="historical CO2-only run" uid="f16da8fc-dd9e-11e6-b89b-ac72891c3257" yps="171"></item> 
    7121 <item comment="Historical well-mixed GHG-only run. Models with interactive chemistry schemes should either turn off the chemistry or use a preindustrial climatology of stratospheric and tropospheric ozone in their radiation schemes. This will ensure that ozone is fixed in all these simulations, and simulated responses in models with and without coupled chemistry are comparable" description="Historical greenhouse-gas only simulations resemble the historical simulations but instead are forced by well-mixed greenhouse gas changes only. Models with interactive chemistry schemes should either turn off the chemistry or use a preindustrial climatology of stratospheric and tropospheric ozone in their radiation schemes.  This will ensure that ozone is fixed in all these simulations, and simulated responses in models with and without coupled chemistry are comparable. Report what sets of emissions and boundary conditions are used." egid="f16d8c96-dd9e-11e6-b89b-ac72891c3257" endy="2020.0" ensz="3" label="hist-GHG" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="513" starty="1850.0" tier="1" title="historical well-mixed GHG-only run" uid="f16d8f5c-dd9e-11e6-b89b-ac72891c3257" yps="171"></item> 
    7122 <item comment="Historical natural-only run" description="Historical natural-only simulations resemble the historical simulations but instead are forced with only solar and volcanic forcing from the historical simulations. Report what sets of emissions and boundary conditions are used." egid="f16d8c96-dd9e-11e6-b89b-ac72891c3257" endy="2020.0" ensz="3" label="hist-nat" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="513" starty="1850.0" tier="1" title="historical natural-only run" uid="f16d8b56-dd9e-11e6-b89b-ac72891c3257" yps="171"></item> 
    7123 <item comment="" description="Concentration driven historical forcing with land use held constant at 1850 usage.  Same as the concentration diriven CMIP6 historical experiment except with land use and land cover change (LULCC) held constant at pre-industrial conditions. Additional ensemble members are requested with tier 2 priority." egid="f16ee168-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1 2" label="hist-noLu" mcfg="GCM" mip="LUMIP" nstart="1" ntot="330" starty="1850.0" tier="1 2" title="historical with no land-use change" uid="f16ee46a-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7124 <item comment="Historical WMGHG, halocarbon concentrations and O3 precursor emissions, 1850 aerosol precursor emissions" description="Historical WMGHG and Halocarbon concentrations.  Historical ozone precursor emissions (e.g. NOx).  Aerosols and aerosol precursors fixed at 1850 emission levels." egid="8709a634-51c3-11e7-9bc5-5404a60d96b5" endy="2014.0" ensz="3" label="hist-piAer" mcfg="AOGCM" mip="AerChemMIP" nstart="1" ntot="495" starty="1850.0" tier="2" title="historical forcing, but with pre-industrial aerosol emissions" uid="70e323b2-54ca-11e7-a104-5404a60d96b5" yps="165"></item> 
    7125 <item comment="Historical WMGHG and halocarbons concentrations, 1850 NTCF emissions" description="Impose historical WMGHG and halocarbon concentrations. Near Term Climate Forcers (NTCFs), namely tropospheric aerosols and tropospheric ozone precursors, to be  fixed at 1850 emission levels. These simulations parallel the &quot;CMIP6 historical&quot;, and differ only by fixing the anthropogenic emissions or concentrations of a specified class of species.   All other forcing agents must evolve as in &quot;CMIP6 historical&quot;." egid="8709a634-51c3-11e7-9bc5-5404a60d96b5" endy="2014.0" ensz="3" label="hist-piNTCF" mcfg="AOGCM" mip="AerChemMIP" nstart="1" ntot="495" starty="1850.0" tier="1" title="historical forcing, but with pre-industrial NTCF emissions" uid="70e285ce-54ca-11e7-a104-5404a60d96b5" yps="165"></item> 
    7126 <item comment="" description="Pacemaker 20th century historical run that includes all forcings as used in CMIP6 historical simulation. Sea surface temperature (SST) is restored to the model climatology plus observational historical anomaly in the AMO domain (0-70oN, 70oW-0o). Use the same model resolutions as the CMIP6 historical simulation. The minimum number of integrations is 3, more realisations are encouraged." egid="f16e220a-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="3" label="hist-resAMO" mcfg="CGCM with SST restored to the model climatology plus observational historical anomaly in the AMO domain" mip="GMMIP" nstart="1" ntot="432" starty="1870" tier="2" title="initialized from &quot;historical&quot; run year 1870 and SSTs in the AMO domain (0deg-70degN, 70degW-0deg) restored to AMIP SSTs with historical forcings" uid="f16e24c6-dd9e-11e6-b89b-ac72891c3257" yps="145"></item> 
    7127 <item comment="" description="Pacemaker 20th century historical run that includes all forcings as used in CMIP6 historical simulation. Sea surface temperature (SST) is restored to the model climatology plus observational historical anomaly in the tropical lobe of the IPO domain (20oS-20oN, 175oE-75oW). Use the same model resolutions as the CMIP6 historical simulation. Minimum number of integrations is 3, more realisations are encouraged." egid="f16e220a-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="3" label="hist-resIPO" mcfg="CGCM with SST restored to the model climatology plus observational historical anomaly in the tropical lobe of IPO domain" mip="GMMIP" nstart="1" ntot="432" starty="1870" tier="2" title="initialized from &quot;historical&quot; run year 1870 and SSTs in tropical lobe of the IPO domain (20degS-20degN, 175degE-75degW) restored to AMIP SSTs with historical forcings" uid="f16e20ca-dd9e-11e6-b89b-ac72891c3257" yps="145"></item> 
    7128 <item comment="Historical solar-only transient simulation using settings from CMIP6 historical simulation but fixed GHG&amp;ODS (1850 level)" description="This experiment resembles hist-nat (histNat) except that simulations are driven by solar forcing only." egid="f16da38e-dd9e-11e6-b89b-ac72891c3257" endy="2020.0" ensz="3" label="hist-sol" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="513" starty="1850.0" tier="3" title="historical solar-only run" uid="f16da636-dd9e-11e6-b89b-ac72891c3257" yps="171"></item> 
    7129 <item comment="" description="A historical (1850-2014) experiment using a coupled AOGCM in which aerosol optical properties including cloud-radiation interactions are prescribed by RFMIP.  Aerosol forcings to be consistent with the historical forcing used in the DAMIP experiments. Only to be performed by models who are also running simulations for DAMIP." egid="f16f411c-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="4" label="hist-spAer-aer" mcfg="AOGCM/ESM" mip="RFMIP" nstart="1" ntot="660" starty="1850.0" tier="2" title="historical simulation with specified anthropogenic aerosols, no other forcings" uid="f16f4536-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7130 <item comment="" description="A historical (1850-2014) experiment using a coupled AOGCM in which aerosol optical properties including cloud-radiation interactions are prescribed by RFMIP.  Other forcings to be consistent with the historical forcing used in the DAMIP experiments.  One ensemble member required for RFMIP.  Four ensemble members required for inclusion in DAMIP." egid="f16f411c-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="hist-spAer-all" mcfg="AOGCM/ESM" mip="RFMIP" nstart="1" ntot="660" starty="1850.0" tier="1" title="historical simulation with specified anthropogenic aerosols" uid="f16f3fbe-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7131 <item comment="Historical stratospheric-ozone-only. In models with coupled chemistry, the chemistry scheme should be turned off, and the simulated ensemble mean monthly mean 3D stratospheric ozone concentrations from the histALL simulations should be prescribed. Tropospheric ozone should be fixed at 3D long-term monthly mean piControl values, with a value of 100 ppbv ozone concentration in this piControl climatology used to separate the troposphere from the stratosphere. In models without coupled chemistry the same stratospheric ozone prescribed in histALL should be prescribed. Stratospheric ozone concentrations will be provided by CCMI" description="This experient's simulations resemble the historical simulations but are forced with stratospheric ozone concentrations only. In models with coupled chemistry, the chemistry scheme should be turned off, and the simulated ensemble mean monthly mean 3D stratospheric ozone concentrations from the CMIP6 historical simulations should be prescribed. Tropospheric ozone should be fixed at 3D long-term monthly mean piControl values, with grid cells having an ozone concentration below 100 ppbv in the piControl climatology for a given month classed as tropospheric. In models without coupled chemistry the same stratospheric ozone prescribed in CMIP6 historical experiment should be prescribed." egid="f16d9c7c-dd9e-11e6-b89b-ac72891c3257" endy="2020.0" ensz="3" label="hist-stratO3" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="513" starty="1850.0" tier="2" title="historical stratospheric-ozone-only run" uid="f16d9b32-dd9e-11e6-b89b-ac72891c3257" yps="171"></item> 
    7132 <item comment="Historical volcanic-only run" description="This experiment resembles hist-nat (histNat) except that simulations are driven by volcanic forcing only." egid="f16da38e-dd9e-11e6-b89b-ac72891c3257" endy="2020.0" ensz="3" label="hist-volc" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="513" starty="1850.0" tier="3" title="historical volcanic-only run" uid="f16da23a-dd9e-11e6-b89b-ac72891c3257" yps="171"></item> 
    7133 <item comment="" description="Simulation of recent past (1850 to 2014). Impose changing conditions (consistent with observations). Should be initialised from a point early enough in the pre-industrial control run to ensure that the end of all the perturbed runs branching from the end of this historical run end before the end of the control." egid="f16fc70e-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="historical" mcfg="" mip="CMIP" nstart="1" ntot="165" starty="" tier="1" title="all-forcing simulation of the recent past" uid="f16fc5c4-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7134 <item comment="" description="Extension beyond 2014 of the CMIP6 historical simulation." egid="f16fc70e-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="historical-ext" mcfg="" mip="CMIP" nstart="1" ntot="1" starty="" tier="2" title="post-2014 all-forcing simulation" uid="f16fcec0-dd9e-11e6-b89b-ac72891c3257" yps="1"></item> 
    7135 <item comment="Historical simulation that includes interactive ice sheets. Set up follows the historical experiment" description="Historical experiment with interactive ice sheet model.  The experiment should be identical to the corresponding standard CMIP AOGCM experiment except for the treatment of ice sheets." egid="f16e8682-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="historical-withism" mcfg="AOGCM-ISM" mip="ISMIP6" nstart="1" ntot="165" starty="1850.0" tier="2" title="historical with interactive ice sheet" uid="f16e8524-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7136 <item comment="Historical transient with SSTs prescribed from historical" description="Historical atmosphere only simulation with historical forcings in an AGCM model with interactive aerosols." egid="8709a922-51c3-11e7-9bc5-5404a60d96b5" endy="2014.0" ensz="1" label="histSST" mcfg="AGCM (using SST histALL)" mip="AerChemMIP" nstart="1" ntot="165" starty="1850.0" tier="1" title="historical prescribed SSTs and historical forcing" uid="70e3d12c-54ca-11e7-a104-5404a60d96b5" yps="165"></item> 
    7137 <item comment="Historical WMGHG concentrations and NTCF emissions, 1950 halocarbon concentrations" description="Historical atmoshere only simulation with historical WMGHG, transient historical SSTs. Ozone depleting substances fixed at 1950 emission levels." egid="8709a922-51c3-11e7-9bc5-5404a60d96b5" endy="2014.0" ensz="1" label="histSST-1950HC" mcfg="AGCM (using SST histALL)" mip="AerChemMIP" nstart="1" ntot="65" starty="1950.0" tier="1" title="historical SSTs and historical forcing, but with1950 halocarbon concentrations" uid="70e3ea68-54ca-11e7-a104-5404a60d96b5" yps="65"></item> 
    7138 <item comment="Historical WMGHG, halocarbon concentrations and tropospheric ozone precursors emissions, 1850 aerosol precursor emissions, prescribed SSTs" description="Historical atmosphere only simulation with historical WMGHG, transient historical SSTs.  Aerosol emissions (except NOx) fixed at 1850 emission levels." egid="8709a922-51c3-11e7-9bc5-5404a60d96b5" endy="2014.0" ensz="1" label="histSST-piAer" mcfg="AGCM (using SST histALL)" mip="AerChemMIP" nstart="1" ntot="165" starty="1850.0" tier="2" title="historical SSTs and historical forcing, but with pre-industrial aerosol emissions" uid="70e3e34c-54ca-11e7-a104-5404a60d96b5" yps="165"></item> 
    7139 <item comment="Historical (non-CH4) WMGHG concentrations and NTCF emissions, 1850 CH4 concentrations" description="Historical atmoshere only simulation with historical forcings but with methane fixed at 1850 concentration levels." egid="8709a922-51c3-11e7-9bc5-5404a60d96b5" endy="2014.0" ensz="1" label="histSST-piCH4" mcfg="AGCM (using SST histALL)" mip="AerChemMIP" nstart="1" ntot="495" starty="1850.0" tier="1" title="historical SSTs and historical forcing, but with pre-industrial methane concentrations" uid="70e3edf6-54ca-11e7-a104-5404a60d96b5" yps="165"></item> 
    7140 <item comment="Historical (non-N2O) WMGHG concentrations and NTCF emissions, 1850 N2O concentrations" description="Historical atmoshere only simulation with historical  forcings but with nitrous oxide (N2O) fixed at 1850 concentration levels." egid="8709a922-51c3-11e7-9bc5-5404a60d96b5" endy="2014.0" ensz="1" label="histSST-piN2O" mcfg="AGCM (using SST histALL)" mip="AerChemMIP" nstart="1" ntot="495" starty="1850.0" tier="2" title="historical SSTs and historical forcings, but with pre-industrial N2O concentrations" uid="70e3f198-54ca-11e7-a104-5404a60d96b5" yps="165"></item> 
    7141 <item comment="Historical WMGHG concentrations and halocarbons emissions, 1850 NTCF emissions, prescribed SSTs" description="Historical atmosphere only simulation with historical WMGHG, transient historical SSTs.  NTCFs fixed at 1850 emission levels." egid="8709a922-51c3-11e7-9bc5-5404a60d96b5" endy="2014.0" ensz="1" label="histSST-piNTCF" mcfg="AGCM (using SST histALL)" mip="AerChemMIP" nstart="1" ntot="165" starty="1850.0" tier="1" title="historical SSTs and historical forcing, but with pre-industrial NTCF emissions" uid="70e3df14-54ca-11e7-a104-5404a60d96b5" yps="165"></item> 
    7142 <item comment="Historical WMGHG, halocarbon concentrations and aerosol precursor emissions, 1850 tropospheric ozone precursors emissions, prescribed SSTs" description="Historical atmosphere only simulation with historical WMGHG, transient historical SSTs.  Tropospheric ozone precursors fixed at 1850 emission levels." egid="8709a922-51c3-11e7-9bc5-5404a60d96b5" endy="2014.0" ensz="1" label="histSST-piO3" mcfg="AGCM (using SST histALL)" mip="AerChemMIP" nstart="1" ntot="165" starty="1850.0" tier="2" title="historical SSTs and historical forcing, but with pre-industrial ozone precursor emissions" uid="70e3e6e4-54ca-11e7-a104-5404a60d96b5" yps="165"></item> 
    7143 <item comment="Idealized 1%/yr CO2 increase to 4xC02 over 140yrs and kept constant at 4xCO2 for an additional 200 to 400 yrs simulation with ice sheets forced &quot;offline&quot; with DECK 1pctCO2 using forcing from its own AOGCM" description="Stand alone ice sheet model driven offline by a CMIP6 model with 1% per year atmospheric carbon dioxide increased to quadrupling then held fixed for 200 years. Run for a minimum of 350 years (500 years encouraged).  The ice sheet model should be configured with the same settings as the ice sheet model in the ipctCO2to4x-withism experiment and should use the same initial conditions." egid="f16e77fa-dd9e-11e6-b89b-ac72891c3257" endy="As long as possible (350 or 500)" ensz="1" label="ism-1pctCO2to4x-self" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="350" starty="From piControlforcedism" tier="1" title="offline ice sheet model forced by ISM's own AOGCM 1pctCO2to4x output" uid="f16e7c14-dd9e-11e6-b89b-ac72891c3257" yps="350"></item> 
    7144 <item comment="Idealized 1%/yr CO2 increase to 4xC02 over 140yrs and kept constant at 4xCO2 for an additional 200 to 400 yrs simulation with ice sheets forced &quot;offline&quot; with DECK 1pctCO2 using a standard forcing" description="Stand alone ice sheet model driven offline by ISMIP6 CMIP6 standard input for the idealised 1% per year atmospheric carbon dioxide increase to quadrupling and held fixed climate change experiment." egid="f16e77fa-dd9e-11e6-b89b-ac72891c3257" endy="As long as possible (350 or 500)" ensz="1" label="ism-1pctCO2to4x-std" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="350" starty="From pdControlforcedism" tier="1" title="offline ice sheet model forced by ISMIP6-specified AOGCM 1pctCO2to4x output" uid="f16e7ef8-dd9e-11e6-b89b-ac72891c3257" yps="350"></item> 
    7145 <item comment="Offline ice sheet evolution for the last few decades forced by amip" description="Stand alone ice sheet model driven offline by ISMIP6 CMIP6 standard input for the DECK amip climate experiment." egid="f16e9ab4-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="ism-amip-std" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="36" starty="1979.0" tier="3" title="offline ice sheet forced by ISMIP6-specified AGCM AMIP output" uid="f16e9956-dd9e-11e6-b89b-ac72891c3257" yps="36"></item> 
    7146 <item comment="" description="Synthetic atmospheric forcing initMIP experiment" egid="f16ea284-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="ism-asmb-std" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="100" starty="" tier="1" title="offline ice sheet forced by initMIP synthetic atmospheric experiment" uid="f16ea50e-dd9e-11e6-b89b-ac72891c3257" yps="100"></item> 
    7147 <item comment="" description="Synthetic oceanic forcing initMIP experiment" egid="f16ea284-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="ism-bsmb-std" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="100" starty="" tier="1" title="offline ice sheet forced by initMIP synthetic oceanic experiment" uid="f16ea7a2-dd9e-11e6-b89b-ac72891c3257" yps="100"></item> 
    7148 <item comment="" description="Control for initMIP experiments" egid="f16ea284-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="ism-ctrl-std" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="100" starty="" tier="1" title="offline ice sheet model initMIP control" uid="f16ea13a-dd9e-11e6-b89b-ac72891c3257" yps="100"></item> 
    7149 <item comment="Historical simulation using &quot;offline&quot; ice sheet models. Forcing for ice sheet model is from its own AOGCM" description="Stand alone ice sheet model driven offline by a CMIP6 model with historical forcing.  The ice sheet model should be configured with the same settings as the ice sheet model in the historical-withism experiment and should use the same initial conditions." egid="f16e8682-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="ism-historical-self" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="165" starty="1850.0" tier="2" title="offline ice sheet forced by ISM's own AOGCM historical output" uid="f16e893e-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7150 <item comment="Historical simulation using &quot;offline&quot; ice sheet models. Forcing for ice sheet model is the standard dataset based on CMIP6 AOGCM historical" description="Stand alone ice sheet model driven offline by ISMIP6 CMIP6 standard input for the historical climate experiment. This is an abbreviated experiment for the historical period which begins from the present day control and ends in December 2014." egid="f16e8682-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="ism-historical-std" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="165" starty="From pdControlforcedism" tier="2" title="offline ice sheet forced by ISMIP6-specified AOGCM historical output" uid="f16e8ce0-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7151 <item comment="Last interglacial simulation of ice sheet evolution driven by PMIP lig127k" description="Stand alone ice sheet model driven offline by ISMIP6 CMIP6 standard input for the PMIP4 Last Interglacial experiment, lig124k." egid="f16e9ea6-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="ism-lig127k-std" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="100" starty="" tier="3" title="offline ice sheet forced by ISMIP6-specified AGCM last interglacial output" uid="f16e9d5c-dd9e-11e6-b89b-ac72891c3257" yps="20000"></item> 
    7152 <item comment="Present-day control simulation for &quot;offline&quot; ice sheets" description="Stand alone ice sheet model driven offline by ISMIP6 CMIP6 standard input for constant present day forcing.  Forcings are set to the end of the initialisation procedure, which ranges from 1990s to 2014." egid="f16e6e9a-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="ism-pdControl-std" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="500" starty="" tier="1" title="offline ice sheet forced by ISMIP6-specified AOGCM pdControl output" uid="f16e7408-dd9e-11e6-b89b-ac72891c3257" yps="100"></item> 
    7153 <item comment="Pre-industrial control simulation for &quot;offline&quot; ice sheets" description="Stand alone ice sheet model driven offline by a CMIP6 model with piControl forcing. The ice sheet model should be configured with the same settings as the ice sheet model in the piControl-withism experiment and should use the same initial conditions." egid="f16e6e9a-dd9e-11e6-b89b-ac72891c3257" endy="2349" ensz="1" label="ism-piControl-self" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="500" starty="1850.0" tier="1" title="offline ice sheet forced by ISM's own AOGCM piControl output" uid="f16e714c-dd9e-11e6-b89b-ac72891c3257" yps="500"></item> 
    7154 <item comment="Future climate ScenarioMIP SSP5-8.5 simulation using &quot;offline&quot; ice sheet models. Forcing for ice sheet model is from its own AOGCM" description="Stand alone ice sheet model driven offline by a CMIP6 model with scenarioMIP SSP5-85 forcing.  The ice sheet model should be configured with the same settings as the ice sheet model in the ssp585-withism experiment and should use the same initial conditions." egid="f16e9118-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="ism-ssp585-self" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="286" starty="2015" tier="2" title="offline ice sheet forced by ISM's own AOGCM ssp585 output" uid="f16e93ca-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7155 <item comment="Future climate ScenarioMIP SSP5-8.5 simulation using &quot;offline&quot; ice sheet models. Forcing for ice sheet model is the standard dataset based on ScenarioMIP ssp585" description="Stand alone ice sheet model driven offline by ISMIP6 CMIP6 standard input for the SSP5-85 climate forcing scenario." egid="f16e9118-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="ism-ssp585-std" mcfg="ISM only" mip="ISMIP6" nstart="1" ntot="286" starty="2015" tier="2" title="offline ice sheet forced by ISMIP6-specified AOGCM ssp585 output" uid="f16e969a-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7156 <item comment="" description="Land surface model simulation.  Same as land-hist except with climate held constant. Branch from end of land-hist spin-up period and continue with spin-up forcing looping over the first 20 years of meteorological forcing data.  Use the same land model configuration as used in the coupled CMIP6 historical simulations. Include representation of land cover, land use and land management. All applicable land use features should be active. Start year either 1850 or 1700 depending on standard practice for particular model. This experiment can and likely will be a different configuration across models due to different representations of land use for each model." egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-cClim" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="2" title="historical land-only constant climate" uid="6e2709b8-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7157 <item comment="" description="Land surface model simulation.  Same as land-hist except with CO2 held constant. Branch from end of land-hist spin-up period.  Use the same land model configuration as used in the coupled CMIP6 historical simulations. Include representation of land cover, land use and land management. All applicable land use features should be active. Start year either 1850 or 1700 depending on standard practice for particular model. This experiment can and likely will be a different configuration across models due to different representations of land use for each model." egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-cCO2" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="2" title="historical land-only constant CO2" uid="6e27086e-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7158 <item comment="" description="Land surface model simulation.  Same as land-hist except with all new crop and pasture-land treated as unmanaged grassland. Start year either 1850 or 1700 depending on standard practice for particular model." egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-crop-grass" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="2" title="historical land-only with cropland as natural grassland" uid="6e270aee-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7159 <item comment="" description="Land surface model simulation.  Same as land-hist except with fertilisation area held at 1850 levels/distribution. Only relevant if land-hist utilises at least some form of crop management (e.g. planting and harvesting).  Start year either 1850 or 1700 depending on standard practice for particular model." egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-crop-noFert" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="2" title="historical land-only with no fertilizer" uid="6e270c1a-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7160 <item comment="" description="Land surface model simulation.  Same as land-hist except with irrigated area held at 1850 levels. Irrigation amounts within the 1850 irrigated area are allowed to change. Only relevant if land-hist utilises at least some form of crop management (e.g. planting and harvesting).  Start year either 1850 or 1700 depending on standard practice for particular model." egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-crop-noIrrig" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="2" title="historical land-only with no irrigation" uid="6e270d5a-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7161 <item comment="" description="Land surface model simulation.  Same as land-hist except irrigated area and fertiliser area/use should be held constant at 1850 levels.  Irrigation amounts within the 1850 irrigated area are allowed to change.  Only relevant if land-hist utilises at least some form of crop management (e.g. planting and harvesting).  Start year either 1850 or 1700 depending on standard practice for particular model." egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-crop-noIrrigFert" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="2" title="historical land-only with managed crops but with irrigation and fertilization held constant" uid="6e270e7c-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7162 <item comment="" description="Land surface model simulation.  Use the same land model configuration as used in the coupled CMIP6 historical simulations. Include representation of land cover, land use and land management. All applicable land use features should be active. Forced with historical observed climate. Include all transient forcings that are relevant for the land model such as CO2 concentration, Nitrogen deposition, aerosol deposition, population density. Start year either 1850 or 1700 depending on standard practice for particular model. This experiment is shared with the LS3MIP, note that LS3MIP expects the start year to be 1850. This experiment can and likely will be a different configuration across models due to different representations of land use for each model." egid="f16eab80-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-hist" mcfg="LND" mip="LS3MIP" nstart="1" ntot="165" starty="1850.0" tier="1" title="historical land-only" uid="f16eaa36-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7163 <item comment="" description="Land surface model simulation.  Same as land-hist except using alternative high land-use history reconstructions that span uncertainty in agriculture and wood harvest.  Note that land use in 1700 and 1850 will be different to that in land-hist so model will need to be spun up again for each alternative dataset. Use the same land model configuration as used in the coupled CMIP6 historical simulations. Include representation of land cover, land use and land management. All applicable land use features should be active. This experiment can and likely will be a different configuration across models due to different representations of land use for each model." egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-hist-altLu1" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="2" title="historical land-only alternate land-use history" uid="6e270fa8-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7164 <item comment="" description="Land surface model simulation.  Same as land-hist except using alternative low land-use history reconstructions that span uncertainty in agriculture and wood harvest.  Note that land use in 1700 and 1850 will be different to that in land-hist so model will need to be spun up again for each alternative dataset. Use the same land model configuration as used in the coupled CMIP6 historical simulations. Include representation of land cover, land use and land management. All applicable land use features should be active. This experiment can and likely will be a different configuration across models due to different representations of land use for each model." egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-hist-altLu2" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="2" title="historical land-only alternate land use history" uid="6e2710d4-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7165 <item comment="" description="Land surface model simulation. Same as land-hist except starting from either 1700 (for models that typically start in 1850) or 1850 (for models that typically start in 1700).   Use the same land model configuration as used in the coupled CMIP6 historical simulations. Include representation of land cover, land use and land management. All applicable land use features should be active.  Forced with historical observed climate. Include transient CO2, Nitrogen deposition, aerosol deposition and population density. This experiment can and likely will be a different configuration across models due to different representations of land use for each model." egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-hist-altStartYear" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="1" title="historical land-only alternate start year" uid="6e271200-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7166 <item comment="" description="Land only simulations using CRU-NCEP forcing data and a standard bias correction strategy. As LUMIP land-hist but with CRU-NCEP dataset. CRU-NCEP is a forcing dataset in which NCEP reanalysis data are bias corrected using the gridded in situ climate data form the Climate Reserach Unit (CRU). The land model configuration should be identical to that used in the DECK and CMIP6 historical simulations for the parent coupled model.  Spin-up of the land-only simulations should follow the TRENDY protocol." egid="f16eab80-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="1" label="land-hist-cruNcep" mcfg="LND" mip="LS3MIP" nstart="1" ntot="114" starty="1850" tier="2" title="as land-hist with CRU-NCEP forcings" uid="f16eae14-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7167 <item comment="" description="Land only simulations using Princeton forcing data and a standard bias correction strategy. As LUMIP land-hist but with princeton forcing dataset. The Princeton Global Forcing data is based on NCEP-NCAR reanalysis data. The land model configuration should be identical to that used in the DECK and CMIP6 historical simulations for the parent coupled model.  Spin-up of the land-only simulations should follow the TRENDY protocol." egid="f16eab80-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="1" label="land-hist-princeton" mcfg="LND" mip="LS3MIP" nstart="1" ntot="114" starty="1850" tier="2" title="as land-hist with Princeton forcings" uid="f16eb0c6-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7168 <item comment="" description="Land only simulations using WFDEI forcing data and a standard bias correction strategy. As LUMIP land-hist but with WFDEI dataset. WFDEI: WATCH Forcing Data methodology applied to ERA-Interim reanalysis data. The land model configuration should be identical to that used in the DECK and CMIP6 historical simulations for the parent coupled model.  Spin-up of the land-only simulations should follow the TRENDY protocol." egid="f16eab80-dd9e-11e6-b89b-ac72891c3257" endy="2014" ensz="1" label="land-hist-wfdei" mcfg="LND" mip="LS3MIP" nstart="1" ntot="114" starty="1850" tier="2" title="as land-hist with WFDEI forcings" uid="f16eb364-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7169 <item comment="" description="Land surface model simulation. Same as land-hist except with fire management maintained at 1850 levels. Start year either 1850 or 1700 depending on standard practice for particular model." egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-noFire" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="2" title="historical land-only with no human fire management" uid="6e27132c-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7170 <item comment="" description="Land surface model simulation. Historical forcing with land use held constant at 1850. Same as land-hist except no land use change.  Include representation of land cover, land use and land management. All applicable land use features should be active. Forced with historical observed climate. Include transient CO2, Nitrogen deposition, aerosol deposition etc. Start year either 1850 or 1700 depending on standard practice for particular model. This experiment is shared with the LS3MIP, note that LS3MIP expects the start year to be 1850. This experiment can and likely will be a different configuration across models due to different representations of land use for each model." egid="f16eab80-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-noLu" mcfg="LND" mip="LUMIP" nstart="1" ntot="165" starty="1850.0" tier="1" title="historical land-only with no land-use change" uid="f33153f2-69a0-11e8-80de-a44cc8186c64" yps="165"></item> 
    7171 <item comment="" description="Land surface model simulation.  Same as land-hist except with grazing and other management on pastureland helt at 1850 levels/distribution. i.e. all new pastureland treated as unmanaged grassland (as in land-crop-grass). Start year either 1850 or 1700 depending on standard practice for particular model." egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-noPasture" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="2" title="historical land-only with constant pastureland" uid="6e27146c-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7172 <item comment="" description="Factorial set of land only experiments with increasingly realistic treatment of land management; derivatives of LMIP-hist (LS3MIP)" egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-noShiftCultivate" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="2" title="historical land-only with shifting cultivation turned off" uid="6e271598-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7173 <item comment="" description="Land surface model simulation. Same as land-hist except with wood harvest maintained at 1850 amounts/areas.  Start year either 1850 or 1700 depending on standard practice for particular model." egid="f16ed97a-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="land-noWoodHarv" mcfg="LND" mip="LUMIP" nstart="1" ntot="1650" starty="1850.0" tier="2" title="historical land-only with no wood harvest" uid="6e2716ce-4c5a-11e7-903f-5404a60d96b5" yps="165"></item> 
    7174 <item comment="" description="Offline land surface simulations forced with ScenarioMIP SSP5-85 and SSP4-34 with 3 realisations for each forcing scenario.  A trend preserving statistical bias correction method is applied to 3-hopurly surface meteorological variables from the scenario output to generate a set of ensemble forcing data.  Gridded forcings will be provided by LS3MIP. The land model configuration should be identical to that used in the DECK and CMIP6 historical simulations for the parent coupled model.  Spin-up of the land-only simulations should follow the TRENDY protocol." egid="f16eb738-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="3" label="land-ssp434" mcfg="LND" mip="LS3MIP" nstart="1" ntot="258" starty="2015.0" tier="2" title="future land-only with forcing from ssp434" uid="21d8e3e4-7ed4-11e8-b252-1c4d70487308" yps="86"></item> 
    7175 <item comment="" description="Offline land surface simulations forced with ScenarioMIP SSP5-85 and SSP4-34 with 3 realisations for each forcing scenario.  A trend preserving statistical bias correction method is applied to 3-hopurly surface meteorological variables from the scenario output to generate a set of ensemble forcing data.  Gridded forcings will be provided by LS3MIP. The land model configuration should be identical to that used in the DECK and CMIP6 historical simulations for the parent coupled model.  Spin-up of the land-only simulations should follow the TRENDY protocol." egid="f16eb738-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="3" label="land-ssp585" mcfg="LND" mip="LS3MIP" nstart="1" ntot="258" starty="2015.0" tier="2" title="future land-only with forcing from ssp585" uid="f16eb5f8-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7176 <item comment="" description="&quot;pseudo-observed boundary condition&quot; experiment that uses that uses batch offline land models (in line with the GLACE2 set-up) to initialize historical runs with prescribed reconstructed land surface states, either derived from offline simulations or from various observational data sources." egid="f16eceee-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="10" label="lfmip-initLC" mcfg="LND-ATM-OC" mip="LS3MIP" nstart="1" ntot="350" starty="1980.0" tier="2" title="initialized from &quot;historical&quot; run year 1980, but with land conditions initialized from pseudo-observations" uid="f16ecd9a-dd9e-11e6-b89b-ac72891c3257" yps="35"></item> 
    7177 <item comment="" description="Scenario forced experiment with prescribed land surface climatology derived from &quot;present climate&quot; conditions (1980-2014).  The experiment is comprised of transient coupled atmosphere-ocean simulations in which a selection of land surface characteristics is prescribed rather than interactively calculated in the model.  The &quot;climatological&quot; land surface forcing is calculated as the mean annual cycle in the period 1980-2014 from the historical GCM simulaitons. Additional ensemble members are requested with tier 2 priority." egid="f16ebb02-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1 5" label="lfmip-pdLC" mcfg="LND-ATM-OC" mip="LS3MIP" nstart="1" ntot="121" starty="1980.0" tier="1 2" title="prescribed land conditions (from current climate climatology) and initialized from &quot;historical&quot; run year 1980" uid="f16eb9c2-dd9e-11e6-b89b-ac72891c3257" yps="121"></item> 
    7178 <item comment="" description="Prescribed land conditions 1980-2014 climate" egid="f16ebb02-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="lfmip-pdLC-cruNcep" mcfg="LND-ATM-OC" mip="LS3MIP" nstart="1" ntot="484" starty="1980.0" tier="2" title="as LFMIP-pdLC with Land-Hist-cruNcep" uid="623a9b2c-4cfc-11e7-903f-5404a60d96b5" yps="121"></item> 
    7179 <item comment="" description="Prescribed land conditions 1980-2014 climate" egid="f16ebb02-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="lfmip-pdLC-princeton" mcfg="LND-ATM-OC" mip="LS3MIP" nstart="1" ntot="484" starty="1980.0" tier="2" title="__unset__" uid="623a9780-4cfc-11e7-903f-5404a60d96b5" yps="121"></item> 
    7180 <item comment="" description="Prescribed land conditions 1980-2014 climate" egid="f16ebb02-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="lfmip-pdLC-wfdei" mcfg="LND-ATM-OC" mip="LS3MIP" nstart="1" ntot="484" starty="1980.0" tier="2" title="as LFMIP-pdLC with Land-Hist-wfdei" uid="623a9cf8-4cfc-11e7-903f-5404a60d96b5" yps="121"></item> 
    7181 <item comment="" description="Scenario forced experiment with prescribed land surface climatology derived from transient 30 year running mean.   Additional ensemble members are requested with tier 2 priority." egid="f16ebb02-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1 5" label="lfmip-rmLC" mcfg="LND-ATM-OC" mip="LS3MIP" nstart="1" ntot="121" starty="1980.0" tier="1 2" title="prescribed land conditions (from running mean climatology) and initialized from &quot;historical&quot; run year 1980" uid="f16ec598-dd9e-11e6-b89b-ac72891c3257" yps="121"></item> 
    7182 <item comment="" description="Prescribed land conditions 30yr running mean" egid="f16ebb02-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="lfmip-rmLC-cruNcep" mcfg="LND-ATM-OC" mip="LS3MIP" nstart="1" ntot="484" starty="1980.0" tier="2" title="as LFMIP-rmLC with Land-Hist-cruNcep" uid="7d84d87a-4cfc-11e7-903f-5404a60d96b5" yps="121"></item> 
    7183 <item comment="" description="Prescribed land conditions 30yr running mean" egid="f16ebb02-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="lfmip-rmLC-princeton" mcfg="LND-ATM-OC" mip="LS3MIP" nstart="1" ntot="484" starty="1980.0" tier="2" title="as LFMIP-rmLC with Land-Hist-princeton" uid="7d84dbae-4cfc-11e7-903f-5404a60d96b5" yps="121"></item> 
    7184 <item comment="" description="Prescribed land conditions 30yr running mean" egid="f16ebb02-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="lfmip-rmLC-wfdei" mcfg="LND-ATM-OC" mip="LS3MIP" nstart="1" ntot="484" starty="1980.0" tier="2" title="as LFMIP-rmLC with Land-Hist-wfdei" uid="7d84dd02-4cfc-11e7-903f-5404a60d96b5" yps="121"></item> 
    7185 <item comment="main forcings : ice-sheet; trace gases, orbital parameters dust (forcing, or feedback if dust cycle represented in model)" description="Impose Last Glacial Maximum (21 kyr ago) boundary conditions for ice-sheet and land-sea mask, the atmospheric concentration of well-mixed greenhouse gases and orbital parameters.  Run for at least 100 years after spin-up. It is mandatory that the model versions used for the PMIP-CMIP6 experiments are the exactly the same as for the other CMIP6 experiments, in particular the DECK and historical simulations." egid="f16f03aa-dd9e-11e6-b89b-ac72891c3257" endy="as long as possible to have >= 100 stabilised years (I.e 500 to 1000 years for the simulation)" ensz="1" label="lgm" mcfg="ESM" mip="PMIP" nstart="1" ntot="100" starty="from PI or pre-existing LGM" tier="1" title="last glacial maximum" uid="f16f0242-dd9e-11e6-b89b-ac72891c3257" yps="100"></item> 
    7186 <item comment="" description="Impose Last Interglacial (127 kyr ago) boundary condtions for the atmospheric concentration of well-mixed greenhouse gases and orbital parameters.  Run for at least 100 years after spin-up. It is mandatory that the model versions used for the PMIP-CMIP6 experiments are the exactly the same as for the other CMIP6 experiments, in particular the DECK and historical simulations." egid="f16f14c6-dd9e-11e6-b89b-ac72891c3257" endy="as long as possible to have >= 100 stabilised years (I.e 500 )" ensz="1" label="lig127k" mcfg="ESM" mip="PMIP" nstart="1" ntot="100" starty="from PI or pre-existing LIG" tier="1" title="last interglacial (127k)" uid="f16f1354-dd9e-11e6-b89b-ac72891c3257" yps="100"></item> 
    7187 <item comment="main forcings : trace gases, orbital parameters, dust" description="Impose Mid-Holocene (6 kyr ago) boundary conditions for orbital parameters and the atmospheric concentration of well-mixed greenhouse gases. Run for at least 100 years after spin-up. It is mandatory that the model versions used for the PMIP-CMIP6 experiments are the exactly the same as for the other CMIP6 experiments, in particular the DECK and historical simulations." egid="f16f080a-dd9e-11e6-b89b-ac72891c3257" endy="about 300 to 1000 for interannual variability" ensz="1" label="midHolocene" mcfg="ESM" mip="PMIP" nstart="1" ntot="200" starty="from PI or pre-existing midHolocene" tier="1" title="mid-Holocene" uid="f16f06a2-dd9e-11e6-b89b-ac72891c3257" yps="200"></item> 
    7188 <item comment="" description="Impose Mid-Pliocene Warm Period (3.2 Ma ago) boundary conditions for ice sheet and land-sea mask, topography (smaller ice sheets),  the atmospheric concentration of well-mixed greenhouse gases and orbital parameters.  Run for at least 100 years after spin-up. It is mandatory that the model versions used for the PMIP-CMIP6 experiments are the exactly the same as for the other CMIP6 experiments, in particular the DECK and historical simulations." egid="f16f108e-dd9e-11e6-b89b-ac72891c3257" endy="as long as possible to have >= 100 stabilised years (I.e 500 )" ensz="1" label="midPliocene-eoi400" mcfg="ESM" mip="PMIP" nstart="1" ntot="100" starty="from PI or pre-existing PlioExp" tier="1" title="mid-Pliocene warm period" uid="f16f0f30-dd9e-11e6-b89b-ac72891c3257" yps="100"></item> 
    7189 <item comment="" description="PA4.2: investigate role of background state in response to Arctic sea ice" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="modelSST-futArcSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="3" title="Atmosphere time slice with present day coupled model SST and future Arctic SIC" uid="661fa328-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7190 <item comment="" description="PA4.1: atmosphere only model present day control with coupled model SST" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="modelSST-pdSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="3" title="Atmosphere time slice present day control with coupled model SST" uid="661fa327-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7191 <item comment="" description="Global ocean/sea-ice/inert-chemical/biogeochemical experiment.  Run for a minimum of five repeating cycles of the CORE-II forcing. Groups that are unable to run with biogeochemistry can participate in the physical/chemical portion." egid="f16efa68-dd9e-11e6-b89b-ac72891c3257" endy="310.0" ensz="1" label="omip1" mcfg="Global ocean - sea-ice coupled with optional biogeochemistry" mip="OMIP" nstart="1" ntot="310" starty="1.0" tier="1" title="OMIP experiment forced by Large and Yeager (CORE-2, NCEP) atmospheric data set and initialized with observed physical and biogeochemical ocean data" uid="fed778d4-4d00-11e7-903f-5404a60d96b5" yps="310"></item> 
    7192 <item comment="" description="Global ocean/sea-ice/inert-chemical/biogeochemical experiment.  Rather than using observed climatologies to initialise the biogeochemistry as in omipv1, this simulation will be initialised with model tracer fields that have been spun up for at least 2000 years, ideally for 5000 years.  The omipv1-spunup simulations (and spin-ups) will include radiocarbon (abiotic DIC and DI14C). Atmospheric forcing follows CORE-II, inert chemical tracers follow OCMIP2, and biogeochemical tracers follow OCMIP3. Only for modelling groups that have biogeochemistry and are able to afford a millennial-scale spin-up." egid="f16efa68-dd9e-11e6-b89b-ac72891c3257" endy="310.0" ensz="1" label="omip1-spunup" mcfg="Global ocean - sea-ice coupled with optional biogeochemistry" mip="OMIP" nstart="1" ntot="310" starty="1.0" tier="2" title="OMIP experiment forced by Large and Yeager (CORE-2, NCEP) atmospheric data set and initialized from at least a 2000-year spin up of the coupled physical-biogeochemical model" uid="fed77bc2-4d00-11e7-903f-5404a60d96b5" yps="310"></item> 
    7193 <item comment="" description="Global ocean/sea-ice/inert-chemical/biogeochemical experiment.  This experiment will use atmospheric state and runoff data based on the JRA-55 reanalysis inter-annually varying atmospheric and river data sets for years 1958-2016 (Kobayashi et al., 2015).   Initial ocean tracer fields are based on observations." egid="f16eff5e-dd9e-11e6-b89b-ac72891c3257" endy="295" ensz="1" label="omip2" mcfg="Global ocean - sea-ice coupled with required biogeochemistry" mip="OMIP" nstart="1" ntot="311" starty="1.0" tier="3" title="OMIP experiment forced by JRA-55do atmospheric data set and initialized with observed physical and biogeochemical ocean data" uid="fe6e64fc-4d00-11e7-903f-5404a60d96b5" yps="295"></item> 
    7194 <item comment="" description="Global ocean/sea-ice/inert-chemical/biogeochemical experiment.  Rather than using observed climatologies to initialise the biogeochemistry as in omipv2, this simulation will be initialised with model tracer fields that have been spun up for at least 2000 years, ideally for 5000 years.  The omipv2-spunup simulations (and spin-ups) will include radiocarbon (abiotic DIC and DI14C). Atmospheric forcing follows JRA-55, inert chemical tracers follow OCMIP2, and biogeochemical tracers follow OCMIP3. Only for modelling groups that have biogeochemistry and are able to afford a millennial-scale spin-up." egid="f16eff5e-dd9e-11e6-b89b-ac72891c3257" endy="295" ensz="1" label="omip2-spunup" mcfg="Global ocean - sea-ice coupled with required biogeochemistry" mip="OMIP" nstart="1" ntot="311" starty="1.0" tier="3" title="OMIP experiment forced by JRA-55do atmospheric data set and initialized from at least a 2000-year spin up of the coupled physical-biogeochemical model" uid="fe6e67f4-4d00-11e7-903f-5404a60d96b5" yps="295"></item> 
    7195 <item comment="" description="PA2.5: investigate response to Antarctic sea ice in coupled model" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pa-futAntSIC" mcfg="AOGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="2" title="Partially-coupled time slice constrained by future Antarctic SIC" uid="661fa324-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7196 <item comment="" description="PA6.2: investigate decadal and longer timescale response to Antarctic sea ice" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2099.0" ensz="1" label="pa-futAntSIC-ext" mcfg="AOGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="3" title="Partially-coupled extended simulation with future Antarctic SIC" uid="661fa32d-4e15-11e8-be0a-1c4d70487308" yps="100"></item> 
    7197 <item comment="" description="PA2.3: investigate response to Arctic sea ice in coupled model" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pa-futArcSIC" mcfg="AOGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="2" title="Partially-coupled time slice constrained by future Arctic SIC" uid="661fa322-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7198 <item comment="" description="PA6.2: investigate decadal and longer timescale response to Arctic sea ice" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2099.0" ensz="1" label="pa-futArcSIC-ext" mcfg="AOGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="3" title="Partially-coupled extended simulation with future Arctic SIC" uid="661fa32c-4e15-11e8-be0a-1c4d70487308" yps="100"></item> 
    7199 <item comment="" description="PA2.1: coupled model present day control constrained by oberved sea ice" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pa-pdSIC" mcfg="AOGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="2" title="Partially-coupled time slice contrained by present day SIC" uid="661fa320-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7200 <item comment="" description="PA6.1: centennial coupled model present day control constrained by oberved sea ice" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2099.0" ensz="1" label="pa-pdSIC-ext" mcfg="AOGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="3" title="Partially-coupled extended simulation constrained by present day SIC" uid="661fa32b-4e15-11e8-be0a-1c4d70487308" yps="100"></item> 
    7201 <item comment="" description="PA2.4: investigate response to Antarctic sea ice in coupled model" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pa-piAntSIC" mcfg="AOGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="2" title="Partially-coupled time slice with pre-industrial Antarctic SIC" uid="661fa323-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7202 <item comment="" description="PA2.2: investigate response to Arctic sea ice in coupled model" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pa-piArcSIC" mcfg="AOGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="2" title="Partially-coupled time slice constrained by pre-industrial Arctic SIC" uid="661fa321-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7203 <item comment="main forcings : trace gases, volcanoes, solar variability, land use" description="For the period from 850 to 1850 CE (the millennium before the start of the industrial revolution), impose boundary conditions of solar variations, volcanic aerosols, atmospheric concentration of well-mixed greenhouse gases, land use and orbital parameters.  Run for 1000 years after spin-up period. It is mandatory that the model versions used for the PMIP-CMIP6 experiments are the exactly the same as for the other CMIP6 experiments, in particular the DECK and historical simulations." egid="f16f0c56-dd9e-11e6-b89b-ac72891c3257" endy="1850.0" ensz="1" label="past1000" mcfg="ESM" mip="PMIP" nstart="1" ntot="1000" starty="850.0" tier="1" title="last millennium" uid="f16f0af8-dd9e-11e6-b89b-ac72891c3257" yps="1000"></item> 
    7204 <item comment="" description="PA1.8: investigate response to Antarctic sea ice and its role in polar amplification" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pdSST-futAntSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="1" title="Atmosphere time slice with present day SST and future Antarctic SIC" uid="661fa31d-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7205 <item comment="" description="PA1.6: investigate response to Arctic sea ice and its role in polar amplification" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pdSST-futArcSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="1" title="Atmosphere time slice with present day SST and future Arctic SIC" uid="661fa31b-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7206 <item comment="" description="PA1.10: investigate role of sea ice thickness in response to Arctic sea ice" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pdSST-futArcSICSIT" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="3" title="Atmosphere time slice with present day SST and future Arctic SIC and sea ice thickness" uid="661fa31f-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7207 <item comment="" description="PA3.2: investigate response to sea ice in Barents and Kara Seas" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pdSST-futBKSeasSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="3" title="Atmosphere time slice with present day SST and future Barents and Kara Seas SIC" uid="661fa326-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7208 <item comment="" description="PA3.1: investigate response to sea ice in Sea of Okhotsk" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pdSST-futOkhotskSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="3" title="Atmosphere time slice with present day SST and future Sea of Okhotsk SIC" uid="661fa325-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7209 <item comment="" description="PA1.1: atmosphere only model present day control" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pdSST-pdSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="1" title="Atmosphere time slice with present day SST and SIC" uid="661fa316-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7210 <item comment="" description="PA1.9: atmosphere only model present day control with sea ice thickness" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pdSST-pdSICSIT" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="3" title="Atmosphere time slice constrained by present day conditions including sea ice thickness" uid="661fa31e-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7211 <item comment="" description="PA1.7: investigate response to Antarctic sea ice and its role in polar amplification" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pdSST-piAntSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="1" title="Atmosphere time slice with present day SST and pre-industrial Antarctic SIC" uid="661fa31c-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7212 <item comment="" description="PA1.5: investigate response to Arctic sea ice and its role in polar amplification" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="pdSST-piArcSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="1" title="Atmosphere time slice with present day SST and pre-industrial Arctic SIC" uid="661fa31a-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7213 <item comment="1850 control with doubled emissions of DMS" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply pre-industrial concentrations of WMGHG (well mixed greenhouse gases). The oceanic DMS (dimethyl sulphide) aerosol emission fluxes in the interactive parameterisation are double their pre-industrial value.  All other NTCF (near term climate forcers) are set to pre-industrial levels. For models that do not interactively parameterise particular emissions, the fluxes from the 1850 climatological dataset should be doubled. This is a timeslice experiment of 30 years total." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-2xDMS" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="3" title="pre-industrial climatological SSTs and forcing, but with doubled emissions of DMS" uid="70e44a80-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7214 <item comment="1850 control with doubled dust emissions" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply pre-industrial concentrations of WMGHG (well mixed greenhouse gases). The dust aerosol emission fluxes in the interactive parameterisation are double their pre-industrial value.  All other NTCF (near term climate forcers) are set to pre-industrial levels. For models that do not interactively parameterise particular emissions, the fluxes from the 1850 climatological dataset should be doubled. This is a timeslice experiment of 30 years total." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="2014.0" ensz="1" label="piClim-2xdust" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="2" title="pre-industrial climatological SSTs and forcing, but with doubled emissions of dust" uid="70e443f0-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7215 <item comment="1850 control with doubled emissions of fires" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply pre-industrial concentrations of WMGHG (well mixed greenhouse gases). The fire aerosol emission fluxes in the interactive parameterisation are double their pre-industrial value.  All other NTCF (near term climate forcers) are set to pre-industrial levels. For models that do not interactively parameterise particular emissions, the fluxes from the 1850 climatological dataset should be doubled. This is a timeslice experiment of 30 years total." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-2xfire" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="3" title="pre-industrial climatological SSTs and forcing, but with doubled emissions from fires" uid="70e44dc8-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7216 <item comment="1850 control with doubled emissions of lightning NOx" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply pre-industrial concentrations of WMGHG (well mixed greenhouse gases). The lightning NOx (oxides of nitrogen) emission fluxes in the interactive parameterisation are double their pre-industrial value.  All other NTCF (near term climate forcers) are set to pre-industrial levels. For models that do not interactively parameterise particular emissions, the fluxes from the 1850 climatological dataset should be doubled. This is a timeslice experiment of 30 years total." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-2xNOx" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="3" title="pre-industrial climatological SSTs and forcing, but with doubled production of NOx due to lightning" uid="70e45430-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7217 <item comment="1850 control with doubled sea salt emissions" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply pre-industrial concentrations of WMGHG (well mixed greenhouse gases). The sea salt aerosol emission fluxes in the interactive parameterisation are double their pre-industrial value.  All other NTCF (near term climate forcers) are set to pre-industrial levels. For models that do not interactively parameterise particular emissions, the fluxes from the 1850 climatological dataset should be doubled. This is a timeslice experiment of 30 years total." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="2014.0" ensz="1" label="piClim-2xss" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="2" title="pre-industrial climatological SSTs and forcing, but with doubled emissions of sea salt" uid="70e44742-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7218 <item comment="1850 control with doubled emissions of biogenic VOCs" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply pre-industrial concentrations of WMGHG (well mixed greenhouse gases). The biogenic VOC (volatile organic compounds) emission fluxes in the interactive parameterisation are double their pre-industrial value.  All other NTCF (near term climate forcers) are set to pre-industrial levels. For models that do not interactively parameterise particular emissions, the fluxes from the 1850 climatological dataset should be doubled. This is a timeslice experiment of 30 years total." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-2xVOC" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="3" title="pre-industrial climatological SSTs and forcing, but with doubled emissions of biogenic VOCs" uid="70e450fc-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7219 <item comment="" description="An uncoupled (atmosphere and land) experiment with interactive vegetation in which sea suface temperatures (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology. Carbon Dioxide concentrations set to 4 times Pre-Industrial values, other forcing agents are specified at pre-industrial values. Run for 30 years." egid="f16f21a0-dd9e-11e6-b89b-ac72891c3257" endy="30.0" ensz="1" label="piClim-4xCO2" mcfg="Atmos only, fixed SST/ice" mip="RFMIP" nstart="1" ntot="30" starty="1.0" tier="1" title="effective radiative forcing by 4xCO2" uid="f16f2484-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7220 <item comment="" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply pre-industrial concentrations of WMGHG (well mixed greenhouse gases), pre-industrial tropospheric ozone precursors and present day (2014) emissions of aersols and aerosol precursors.  This is a timeslice experiment of 30 years total." egid="f16f21a0-dd9e-11e6-b89b-ac72891c3257" endy="30.0" ensz="1" label="piClim-aer" mcfg="Atmos only, fixed SST/ice" mip="RFMIP" nstart="1" ntot="30" starty="1.0" tier="1" title="effective radiative forcing by present-day aerosols" uid="f16f2d1c-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7221 <item comment="" description="An uncoupled (atmosphere and land) experiment with interactive vegetation in which sea suface temperature (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology.  Anthropogenic forcing agents (greenhouse gases, aerosols and land use) are specified at present day, 2015, values. Run for 30 years." egid="f16f21a0-dd9e-11e6-b89b-ac72891c3257" endy="30.0" ensz="1" label="piClim-anthro" mcfg="Atmos only, fixed SST/ice" mip="RFMIP" nstart="1" ntot="30" starty="1.0" tier="1" title="effective radiative forcing by present day anthropogenic agents" uid="f16f2754-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7222 <item comment="Perturbation from 1850 control using 2014 BC emissions" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply pre-industrial concentrations of WMGHG (well mixed greenhouse gases), pre-industrial tropospheric ozone precursors, present day (2014) emissions of black carbon (BC) and pre-industrial emissions of all other aersols and aerosol precursors.  This is a timeslice experiment of 30 years total." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-BC" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="2" title="pre-industrial climatological SSTs and forcing, but with 2014 black carbon emissions" uid="70e41b82-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7223 <item comment="Perturbation from 1850 control using 2014 CH4 concentrations" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply present day (2014) concentrations of methane (CH4) all other WMGHG (well mixed greenhouse gas) concentrations set to pre-industrial levels.  Apply pre-industrial emissions of NTCF (near term climate forcers). This is a timeslice experiment of 30 years total." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-CH4" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="1" title="pre-industrial climatological SSTs and forcing, but with 2014 methane concentrations (including chemistry)" uid="70e42898-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7224 <item comment="" description="Preindustrial conditions. An uncoupled (atmosphere and land) experiment with interactive vegetation in which sea suface temperatures (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology. Run for 30 years." egid="f16f21a0-dd9e-11e6-b89b-ac72891c3257" endy="30.0" ensz="1" label="piClim-control" mcfg="Atmos only, fixed SST/ice" mip="RFMIP" nstart="1" ntot="30" starty="1.0" tier="1" title="effective radiative forcing in present-day" uid="f16f2042-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7225 <item comment="" description="An uncoupled (atmosphere and land) experiment with interactive vegetation in which sea suface temperature (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology.  Greenhouse gases set to present day (2014) values, other forcing agents are specified at pre-industrial values.  Run for 30 years." egid="f16f21a0-dd9e-11e6-b89b-ac72891c3257" endy="30.0" ensz="1" label="piClim-ghg" mcfg="Atmos only, fixed SST/ice" mip="RFMIP" nstart="1" ntot="30" starty="1.0" tier="1" title="effective radiative forcing by present-day greenhouse gases" uid="f16f2a2e-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7226 <item comment="Perturbation from 1850 control using 2014 halocarbon concentrations" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply present day (2014) concentrations of ozone depleating halocarbons (ODS) all other WMGHG (well mixed greenhouse gas) concentrations set to pre-industrial levels.  Apply pre-industrial emissions of NTCF (near term climate forcers). This is a timeslice experiment of 30 years total. Only models with stratospheric chemistry should run this experiment." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-HC" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="1" title="pre-industrial climatological SSTs and forcing, but with 2014 halocarbon concentrations (including chemistry)" uid="70e42f5a-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7227 <item comment="" description="An uncoupled (atmosphere and land) experiment with interactive vegetation in which sea surface temperatures (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology.  Apply transient aerosols and their indirect effects consistent with historical forcing used in the DAMIP hist-all experiments and future forcing in the ScenarioMIP SSP2 RCP8.5 scenario.  A small ensemble of three simulations from 1850-2100." egid="f16f3406-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="3" label="piClim-histaer" mcfg="Atmos only, fixed SST/ice" mip="RFMIP" nstart="1" ntot="753" starty="1850.0" tier="2" title="transient effective radiative forcing by aerosols" uid="f16f39ec-dd9e-11e6-b89b-ac72891c3257" yps="251"></item> 
    7228 <item comment="" description="An uncoupled (atmosphere and land) experiment with interactive vegetation in which sea surface temperatures (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology.  Transient forcing to be consistent with historical forcing used in the DAMIP hist-all experiment and future forcing to be consistent with the ScenarioMIP SSP2 RCP4.5 scenario forcing.  A small ensemble of three simulations from 1850-2100." egid="f16f3406-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="3" label="piClim-histall" mcfg="Atmos only, fixed SST/ice" mip="RFMIP" nstart="1" ntot="753" starty="1850.0" tier="2" title="transient effective radiative forcing" uid="f16f32a8-dd9e-11e6-b89b-ac72891c3257" yps="251"></item> 
    7229 <item comment="" description="An uncoupled (atmosphere and land) experiment with interactive vegetation in which sea surface temperatures (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology.  Transient forcing with greenhouse gases (GHG) to be consistent with the historical forcing used in the DAMIP hist-all experiment and future forcing in the ScenarioMIP SSP2 RCP4.5 scenario. A small ensemble of three simulations from 1850-2100." egid="f16f3406-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="3" label="piClim-histghg" mcfg="Atmos only, fixed SST/ice" mip="RFMIP" nstart="1" ntot="753" starty="1850.0" tier="2" title="transient effective radiative forcing by greenhouse gases" uid="f16f3ce4-dd9e-11e6-b89b-ac72891c3257" yps="251"></item> 
    7230 <item comment="" description="An uncoupled (atmosphere and land) experiment with interactive vegetation in which sea surface temperatures (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology.  Transient natural forcing (solar and volcano) to be consistent with historical forcing used in the DAMIP hist-all experiment and future forcing used in the ScenarioMIP SSP2 RCP4.5 scenario.  A small ensemble of three simulations from 1850-2100." egid="f16f3406-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="3" label="piClim-histnat" mcfg="Atmos only, fixed SST/ice" mip="RFMIP" nstart="1" ntot="753" starty="1850.0" tier="2" title="transient effective radiative forcing by natural perturbations" uid="f16f36f4-dd9e-11e6-b89b-ac72891c3257" yps="251"></item> 
    7231 <item comment="" description="An uncoupled (atmosphere and land) experiment with interactive vegetation in which sea suface temperature (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology.  Land use is set to present day (2014) values, other forcing agents are specified at pre-industrial values.  Run for 30 years." egid="f16f21a0-dd9e-11e6-b89b-ac72891c3257" endy="30.0" ensz="1" label="piClim-lu" mcfg="Atmos only, fixed SST/ice" mip="RFMIP" nstart="1" ntot="30" starty="1.0" tier="1" title="effective radiative forcing by present-day land use" uid="f16f2fe2-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7232 <item comment="Perturbation from 1850 control using 2014 N2O concentrations" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply present day (2014) concentrations of nitrous oxide (N2O) all other WMGHG (well mixed greenhouse gas) concentrations set to pre-industrial levels.  Apply pre-industrial emissions of NTCF (near term climate forcers). This is a timeslice experiment of 30 years total.  Only models with stratospheric chemistry should run this experiment." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-N2O" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="2" title="pre-industrial climatological SSTs and forcing, but with 2014 N2O concentrations (including chemistry)" uid="70e42c08-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7233 <item comment="Perturbation from 1850 control using 2014 NH3 emissions" description="pre-industrial climatological SSTs and forcing, but with 2014 ammonia emissions" egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-NH3" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="3" title="pre-industrial climatological SSTs and forcing, but with 2014 ammonia emissions" uid="70e44094-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7234 <item comment="Perturbation from 1850 control using 2014 NOx emissions" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply pre-industrial concentrations of WMGHG (well mixed greenhouse gases), pre-industrial emissions of aersols and aerosol precursors, present day (2014) emissions of NOx, all other emissions of tropospheric ozone precursors set to pre-industrial levels. This is a timeslice experiment of 30 years total." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-NOx" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="3" title="pre-industrial climatological SSTs and forcing, but with 2014 NOx emissions" uid="70e432a2-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7235 <item comment="Perturbation from 1850 control using 2014 aerosol and ozone precursor emissions" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply pre-industrial concentrations of WMGHG (well mixed greenhouse gases) and present day (2014) emissions of NTCF (near-term climate forcers). This is a timeslice experiment of 30 years total." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-NTCF" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="1" title="pre-industrial climatological SSTs and forcing, but with 2014 NTCF emissions" uid="70e417f4-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7236 <item comment="Perturbation from 1850 control using 2014 ozone precursor emissions" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply pre-industrial concentrations of WMGHG (well mixed greenhouse gases), pre-industrial emissions of aersols and aerosol precursors and present day (2014) tropospheric ozone precursors. This is a timeslice experiment of 30 years total." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-O3" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="2" title="pre-industrial climatological SSTs and forcing, but with 2014 ozone precursor emissions" uid="70e42528-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7237 <item comment="Perturbation from 1850 control using 2014 OC emissions" description="pre-industrial climatological SSTs and forcing, but with 2014 organic carbon emissions" egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-OC" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="3" title="pre-industrial climatological SSTs and forcing, but with 2014 organic carbon emissions" uid="70e43d4c-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7238 <item comment="Perturbation from 1850 control using 2014 SO2 emissions" description="pre-industrial climatological SSTs and forcing, but with 2014 SO2 emissions" egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-SO2" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="3" title="pre-industrial climatological SSTs and forcing, but with 2014 SO2 emissions" uid="70e43928-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7239 <item comment="" description="An uncoupled (atmosphere and land) experiment with interactive vegetation in which sea surface temperatures (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology.   Aerosols and ozone set to present day (2015) values and other anthropogenic forcing agents are set at pre-industrial values.  Aerosols are specified by RFMIP. Run for 30 years." egid="f16f49aa-dd9e-11e6-b89b-ac72891c3257" endy="30.0" ensz="1" label="piClim-spAer-aer" mcfg="Atmos only, fixed SST/ice" mip="RFMIP" nstart="1" ntot="120" starty="1.0" tier="2" title="effective radiative forcing at present day with specified anthropogenic aerosol optical properties, all forcings" uid="f16f4c7a-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7240 <item comment="" description="An uncoupled (atmosphere and land) experiment with interactive vegetation in which sea surface temperatures (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology. Anthropogenic forcing agents are specified at present day 2014 values. Aerosols are specified by RFMIP. Run for 30 years." egid="f16f49aa-dd9e-11e6-b89b-ac72891c3257" endy="30.0" ensz="1" label="piClim-spAer-anthro" mcfg="Atmos only, fixed SST/ice" mip="RFMIP" nstart="1" ntot="120" starty="1.0" tier="2" title="effective radiative forcing at present day with specified anthropogenic aerosol optical properties, anthropogenic forcings" uid="f16f4842-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7241 <item comment="" description="A historical (1850-2014) experiment using an atmosphere-land model with interactive vegetation in which sea surface temperatures (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology.  Transient aerosol forcing specified by RFMIP, other forcing agents are set at pre-industrial levels." egid="f16f50bc-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="piClim-spAer-histaer" mcfg="Atmos-only" mip="RFMIP" nstart="1" ntot="660" starty="1850.0" tier="2" title="transient effective radiative forcing with specified anthropogenic aerosol optical properties, aerosol forcing" uid="f16f53aa-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7242 <item comment="" description="A historical (1850-2014) experiment using an atmosphere-land model with interactive vegetation in which sea surface temperatures (SST) and sea ice concentrations (SIC) are fixed at model-specific pre-industrial control climatology.  Transient forcing to be consistent with the historical forcing used in the DAMIP hist-all experiment but with RFMIP specified aerosol properties." egid="f16f50bc-dd9e-11e6-b89b-ac72891c3257" endy="2014.0" ensz="1" label="piClim-spAer-histall" mcfg="Atmos-only" mip="RFMIP" nstart="1" ntot="660" starty="1850.0" tier="2" title="transient effective radiative forcing with specified anthropogenic aerosol optical properties, all forcings" uid="f16f4f54-dd9e-11e6-b89b-ac72891c3257" yps="165"></item> 
    7243 <item comment="Perturbation from 1850 control using 2014 CO/VOC emissions" description="Fixed SST ERF simulation. Use pre-industrial climatological average SST and sea-ice distributions. Apply pre-industrial concentrations of WMGHG (well mixed greenhouse gases), pre-industrial emissions of aersols and aerosol precursors, present day (2014) emissions of CO/VOC, all other emissions of tropospheric ozone precursors set to pre-industrial levels. This is a timeslice experiment of 30 years total." egid="8709ad32-51c3-11e7-9bc5-5404a60d96b5" endy="1850.0" ensz="1" label="piClim-VOC" mcfg="AGCM" mip="AerChemMIP" nstart="1" ntot="30" starty="1850.0" tier="3" title="pre-industrial climatological SSTs and forcing, but with 2014 VOC emissions" uid="70e435d6-54ca-11e7-a104-5404a60d96b5" yps="30"></item> 
    7244 <item comment="" description="A pre-inudsutrial control simulation with non-evolving pre-industrial conditions. Conditions chosen to be representative of the period prior to the onset of large-scale industrialization, with 1850 being the reference year.  The piControl starts after an initial climate spin-up, during which the climate begins to come into balance with the forcing. The recommended minimum length for the piControl is 500 years." egid="f16fbb42-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="piControl" mcfg="" mip="CMIP" nstart="1" ntot="500" starty="" tier="1" title="pre-industrial control" uid="f16fb9da-dd9e-11e6-b89b-ac72891c3257" yps="500"></item> 
    7245 <item comment="" description="" egid="f16fbb42-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="piControl-spinup" mcfg="" mip="CMIP" nstart="1" ntot="100" starty="" tier="2" title="pre-industrial control (spin-up)" uid="f16fd3b6-dd9e-11e6-b89b-ac72891c3257" yps="100"></item> 
    7246 <item comment="Pre-industrial control simulation that includes interactive ice sheets" description="The pre-industrial control in a model with interactive ice sheet model.   The experiment should be identical to the corresponding standard CMIP AOGCM experiment except for the treatment of ice sheets. The spin up may require the GCM and ISM to be asynchronously coupled until the system reches quasi-equilibrium. Once equilibrium is reached, run for multi-hundred years (500 years suggested)." egid="f16e6e9a-dd9e-11e6-b89b-ac72891c3257" endy="2349" ensz="1" label="piControl-withism" mcfg="AOGCM-ISM" mip="ISMIP6" nstart="1" ntot="500" starty="1850.0" tier="1" title="preindustrial control with interactive ice sheet" uid="f16e6d50-dd9e-11e6-b89b-ac72891c3257" yps="500"></item> 
    7247 <item comment="An AGCM experiment with monthly-varying SSTs, sea-ice, atmospheric constituents and any other necessary boundary conditions (e.g. vegetation if required) taken from each model's own piControl run (using the 30 years of piControl that are parallel to years 111-140 of its abrupt4xCO2 run). Dynamic vegetation should be turned off in all the piSST set of experiments" description="An AGCM experiment with monthly-varying SSTs, sea-ice, atmospheric constituents and any other necessary boundary conditions (e.g. vegetation if required) taken from each model's own piControl simulation (using the 30 years of piControl that are parallel to years 111-140 of its abrupt4xCO2 run).  Dynamic vegetation should be turned off in all the piSST set of experiments and the vegetation distribution that is output from the piControl simulation used." egid="f16d72d8-dd9e-11e6-b89b-ac72891c3257" endy="Year 140 of abrupt4xCO2" ensz="1" label="piSST" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="30" starty="Year 111 of abrupt4xCO2" tier="2" title="experiment forced with pre-industrial SSTs, sea ice and atmospheric constituents" uid="f16d718e-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7248 <item comment="" description="An AGCM experiment with monthly-varying SSTs and sea-ice taken from each model's own piControl simulation (using the 30 years of piControl that are parallel to years 111-140 of its abrupt4xCO2 run) with quadrupled CO2 concentration seen by the radiation code and the vegetation code. Other atmospheric constituents and any other necessary boundary conditions (e.g. vegetation if required) taken from each model's own piControl simulation (using the 30 years of piControl that are parallel to years 111-140 of its abrupt4xCO2 run). Dynamic vegetation should be turned off and the vegetation distribution that is output from the piControl simulation used. Same as piSST-control but CO2 is quadrupled. The increase in CO2 is seen by both the radiation scheme and vegetation." egid="f16d72d8-dd9e-11e6-b89b-ac72891c3257" endy="Year 140 of abrupt4xCO2" ensz="1" label="piSST-4xCO2" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="30" starty="Year 111 of abrupt4xCO2" tier="2" title="as piSST with radiation and vegetation seeing 4xCO2" uid="f16d7d96-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7249 <item comment="Same as piSST but CO2 as seen by the radiation scheme is quadrupled" description="An AGCM experiment with monthly-varying SSTs and sea-ice taken from each model's own piControl simulation (using the 30 years of piControl that are parallel to years 111-140 of its abrupt4xCO2 run) but with quadrupled CO2 concentration seen by the radiation code. Other atmospheric constituents and any other necessary boundary conditions (e.g. vegetation if required) taken from each model's own piControl simulation (using the 30 years of piControl that are parallel to years 111-140 of its abrupt4xCO2 run). Dynamic vegetation should be turned off and the vegetation distribution that is output from the piControl simulation used. Same as piSST-control but CO2 as seen by the radiation scheme is quadrupled." egid="f16d72d8-dd9e-11e6-b89b-ac72891c3257" endy="Year 140 of abrupt4xCO2" ensz="1" label="piSST-4xCO2-rad" mcfg="Atmosphere-only" mip="CFMIP" nstart="1" ntot="30" starty="Year 111 of abrupt4xCO2" tier="2" title="as piSST with radiation-only seeing 4xCO2" uid="f16d79cc-dd9e-11e6-b89b-ac72891c3257" yps="30"></item> 
    7250 <item comment="" description="Time slice for the first year of the GeoMIP G1 experiment with fixed sea surface temperature climatology calculated from the piControl. Run for 10 years." egid="f16e4352-dd9e-11e6-b89b-ac72891c3257" endy="1850.0" ensz="1" label="piSST-4xCO2-solar" mcfg="AGCM" mip="GeoMIP" nstart="1" ntot="10" starty="1850.0" tier="2" title="preindustrial control SSTs with quadrupled CO2 and solar reduction" uid="f16e41fe-dd9e-11e6-b89b-ac72891c3257" yps="10"></item> 
    7251 <item comment="" description="PA1.3: investigate role of SST in polar amplification" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="piSST-pdSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="1" title="Atmosphere time slice with pre-industrial SST and present day SIC" uid="661fa318-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7252 <item comment="" description="PA1.2: atmosphere only model pre-industrial control" egid="bc9fd1ac-4d20-11e8-be0a-1c4d70487308" endy="2001.0" ensz="100" label="piSST-piSIC" mcfg="AGCM" mip="PAMIP" nstart="1" ntot="100" starty="2000.0" tier="2" title="Atmosphere time slice with pre-industrial SST and SIC" uid="661fa317-4e15-11e8-be0a-1c4d70487308" yps="1"></item> 
    7253 <item comment="Same as piSST, but with a spatially and temporally uniform SST anomaly applied on top of the monthly-varying piSST SSTs. The magnitude of the uniform increase is taken from each model's global, climatological annual mean SST change between abrupt4xCO2 minus piControl (using the mean of years 111-140 of abrupt4xCO2, and the parallel 30-year section of piControl)" description="An AGCM experiment with monthly-varying SSTs and sea-ice taken from each model's own piControl simulation (using the 30 years of piControl that are parallel to years 111-140 of its abrupt4xCO2 run) but with a spatially and temporally uniform SST amomaly applied on top of the monthly-varying piSST-control SSTs.  The magnitude of the uniform increase is taken from each model's global, climatological annual mean SST change between abrupt4xCO2 and the piControl (using the mean of years 111-140 of abrupt4xCO2, and the parallel 30-year section of piControl).  Atmospheric constituents and any other necessary boundary conditions (e.g. vegetation if required) taken from each model's own piControl simulation (using the 30 years of piControl that are parallel to years 111-140 of its abrupt4xCO2 run). Dynamic vegetation should be turned off and the vegetation distribution that is output from the piControl simulation used." egid="f16d72d8-dd9e-11e6-b89b-ac72891c3257" endy="1869" ensz="1" label="piSST-pxK" mcfg="AGCM" mip="CFMIP" nstart="1" ntot="30" starty="1850.0" tier="2" title="as piSST with uniform SST increase with magnitude based on abrupt4xCO2 response" uid="f16d76a2-dd9e-11e6-b89b-ac72891c3257" yps="20"></item> 
    7254 <item comment="" description="Offline radiative transfer calculations of vertically-resolved broadband-integrated longwave and shortwave fluxes for present-day (2015) clear sky (aerosol-free) conditions. Use RFMIP specified atmospheric distributions of temperature and humidity and surface properties over many profiles." egid="f16f18ea-dd9e-11e6-b89b-ac72891c3257" endy="0.0" ensz="18" label="rad-irf" mcfg="Offline-rad" mip="RFMIP" nstart="1" ntot="0" starty="0.0" tier="1" title="offline assessment of radiative transfer parmeterizations in clear skies" uid="f16f178c-dd9e-11e6-b89b-ac72891c3257" yps="0"></item> 
    7255 <item comment="" description="Historical coupled ocean atmosphere simulations of the near past (1950-2014) at high and standard resolution. For optimal comparison between models aerosol concentrations would be preferable and not emissions. At least one ensemble member at high resolution, minimum atmosphere 25-50 km at mid-latitudes and ocean resolution of 0.25 degrees, and a minimum of daily coupling between ocean and atmosphere. At least one ensemble member at standard model resolution." egid="f16e66d4-dd9e-11e6-b89b-ac72891c3257" endy="1980" ensz="2" label="spinup-1950" mcfg="HIGH and LOW (e.g. 25km and 60-100km resolution)" mip="HighResMIP" nstart="1" ntot="200" starty="1951.0" tier="2" title="coupled spinup with fixed 1950s forcings from 1950 initial conditions (with ocean at rest) to provide initial condition for control-1950 and hist-1950" uid="6131ba78-4cff-11e7-903f-5404a60d96b5" yps="30"></item> 
    7256 <item comment="" description="Future scenario with low radiative forcing by the end of century. Following a forcing pathway below RCP2.6. Specific SSP and 2100 forcing level to be finalized with IAM groups within next few months. Concentration-driven." egid="f16f65f2-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="ssp119" mcfg="AOGCM/ESM" mip="ScenarioMIP" nstart="1" ntot="86" starty="2015.0" tier="2" title="low-end scenario reaching 1.9 W m-2, based on SSP1" uid="f16f77c2-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7257 <item comment="" description="SSP-based RCP scenario with low radiative forcing by the end of the century.  Following approximately RCP2.6 global forcing pathway with SSP1 socioeconomic conditions. Radiative forcing reaches a level of 2.6 W/m2 in 2100. Concentration-driven." egid="f16f57e2-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="ssp126" mcfg="AOGCM/ESM" mip="ScenarioMIP" nstart="1" ntot="86" starty="2015.0" tier="1" title="update of RCP2.6 based on SSP1" uid="f16f6188-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7258 <item comment="" description="Keep all forcings the same as ScenarioMIP SSP1-2.6 (aforestation scenario), but replace land use with SSP3-7.0 (deforestation) scenario.  Concentration driven." egid="f16eec44-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="ssp126-ssp370Lu" mcfg="GCM" mip="LUMIP" nstart="1" ntot="95" starty="2015" tier="1" title="SSP1-2.6 with SSP3-7.0 land use" uid="f16ef1b2-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7259 <item comment="" description="SSP-based RCP scenario with medium radiative forcing by the end of the century.  Following approximately RCP4.5 global forcing pathway with SSP2 socioeconomic conditions. Radiative forcing reaches a level of 4.5 W/m2 in 2100. Concentration-driven." egid="f16f57e2-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1 3" label="ssp245" mcfg="AOGCM/ESM" mip="ScenarioMIP" nstart="1" ntot="86" starty="2015.0" tier="1 2" title="update of RCP4.5 based on SSP2" uid="f16f5da0-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7260 <item comment="Extension of aerosol-only run under SSP2-4.5" description="An extension of at least one of the hist-aer (histAER) simulations to the year 2100 following SSP2-4.5 aerosol concentrations. Forced with aerosol and aerosol precursor emissions only (sulfate, black carbon, organic carbon, ammonia, NOx and VOCs)." egid="f16dae9c-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="ssp245-aer" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="80" starty="2021.0" tier="3" title="aerosol-only SSP2-4.5 run" uid="f16dad48-dd9e-11e6-b89b-ac72891c3257" yps="80"></item> 
    7261 <item comment="Extension of well-mixed GHG-only run under SSP2-4.5. Models with interactive chemistry schemes should either turn off the chemistry or use a preindustrial climatology of stratospheric and tropospheric ozone in their radiation schemes" description="Extension of well-mixed GHG-only run (hist-GHG) under SSP2-4.5 forcing to the year 2100. Models with interactive chemistry schemes should either turn off the chemistry or use a preindustrial climatology of stratospheric and tropospheric ozone in their radiation schemes." egid="f16d9880-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="ssp245-GHG" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="80" starty="2021.0" tier="2" title="well-mixed GHG-only SSP2-4.5 run" uid="f16d9740-dd9e-11e6-b89b-ac72891c3257" yps="80"></item> 
    7262 <item comment="Extension of natural-only run under SSP2-4.5" description="An extension of at least one of the hist-nat (histNAT) simulations to the year 2100 following SSP2-45 solar and volcanic forcing. The future solar forcing data recommended for CMIP6 has a downward trend (Matthes et al., 2016)." egid="f16dae9c-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="ssp245-nat" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="80" starty="2021.0" tier="3" title="natural-only SSP2-4.5 run" uid="f16db13a-dd9e-11e6-b89b-ac72891c3257" yps="80"></item> 
    7263 <item comment="Extension of stratospheric-ozone-only run under SSP2-4.5. In models with coupled chemistry, the chemistry scheme should be turned off, and the simulated ensemble mean monthly mean 3D stratospheric ozone concentrations from the SSP2-4.5 simulations should be prescribed. Tropospheric ozone should be fixed at 3D long-term monthly mean piControl values, with a value of 100 ppbv ozone concentration in this piControl climatology used to separate the troposphere from the stratosphere. In models without coupled chemistry the same stratospheric ozone prescribed in SSP2-4.5 should be prescribed. Stratospheric ozone concentrations will be provided by CCMI" description="Extension of stratospheric-ozone-only run, hist-stratO3, under SSP2-4.5 forcing to the year 2100. In models with coupled chemistry, he chemistry scheme should be turned off, and the simulated ensemble mean monthly mean 3D stratospheric ozone concentrations from the SSP2-4.5 simulations should be prescribed. Tropospheric ozone should be fixed at 3D long-term monthly mean piControl values, with a value of 100 ppbv ozone concentration in this piControl climatology used to separate the troposphere from the stratosphere.   In models without coupled chmeistry the same stratospheric ozone prescribed in SSP2-45 should be prescribed. Stratospheric ozone concentrations will be provided by CCMI." egid="f16d9880-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="ssp245-stratO3" mcfg="AOGCM/ESM" mip="DAMIP" nstart="1" ntot="80" starty="2021.0" tier="2" title="stratospheric-ozone-only SSP2-4.5 run" uid="f16d9f60-dd9e-11e6-b89b-ac72891c3257" yps="80"></item> 
    7264 <item comment="" description="Gap: Baseline scenario with a medium to high radiative forcing by the end of century. Following approximately RCP7.0 global forcing pathway with SSP3 socioeconomic conditions. Radiative forcing reaches a level of 7.0 W/m2 in 2100.  Concentration-driven." egid="f16f57e2-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1 10" label="ssp370" mcfg="AOGCM/ESM" mip="ScenarioMIP" nstart="1" ntot="860" starty="2015.0" tier="1 2" title="gap-filling scenario reaching 7.0 based on SSP3" uid="f16f5ab2-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7265 <item comment="Future SSP3-7.0 with reduced NTCF emissions" description="SSP3-7.0, with low NTCF emissions" egid="8709aaa8-51c3-11e7-9bc5-5404a60d96b5" endy="2055.0" ensz="1" label="ssp370-lowNTCF" mcfg="AOGCM" mip="AerChemMIP" nstart="1" ntot="41" starty="2015.0" tier="1" title="SSP3-7.0, with low NTCF emissions" uid="70e3f4fe-54ca-11e7-a104-5404a60d96b5" yps="41"></item> 
    7266 <item comment="" description="Keep all forcings the same as ScenarioMIP SSP3-7.0 (deforestation scenario), but replace land use with SSP1-2.6 (aforestation) scenario.  Concentration driven.  Additional ensemble members are requested with tier 2 priority." egid="f16eec44-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1 2" label="ssp370-ssp126Lu" mcfg="GCM" mip="LUMIP" nstart="1" ntot="95" starty="2015" tier="1 2" title="SSP3-7.0 with SSP1-2.6 land use" uid="f16eeb04-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7267 <item comment="Future SSP3-7.0, with SSTs prescribed from ssp370" description="SSP3-7.0, with SSTs prescribed from ssp370" egid="8709abf2-51c3-11e7-9bc5-5404a60d96b5" endy="2055.0" ensz="1" label="ssp370SST" mcfg="AGCM (using SST SSP3-7)" mip="AerChemMIP" nstart="1" ntot="41" starty="2015.0" tier="1" title="SSP3-7.0, with SSTs prescribed from ssp370" uid="70e3f9fe-54ca-11e7-a104-5404a60d96b5" yps="41"></item> 
    7268 <item comment="Future SSP3-7.0 with reduced aerosol emissions (from ssp370-lowNTCF), prescribed SSTs" description="SSP3-7.0, prescribed SSTs, with low aerosol emissions" egid="8709abf2-51c3-11e7-9bc5-5404a60d96b5" endy="2055.0" ensz="1" label="ssp370SST-lowAer" mcfg="AGCM (using SST SSP3-7)" mip="AerChemMIP" nstart="1" ntot="41" starty="2015.0" tier="2" title="SSP3-7.0, prescribed SSTs, with low aerosol emissions" uid="70e405ac-54ca-11e7-a104-5404a60d96b5" yps="41"></item> 
    7269 <item comment="Future SSP3-7.0 with reduced black carbon emissions, prescribed SSTs" description="SSP3-7.0, prescribed SSTs, with low black carbon emissions" egid="8709abf2-51c3-11e7-9bc5-5404a60d96b5" endy="2055.0" ensz="1" label="ssp370SST-lowBC" mcfg="AGCM (using SST SSP3-7)" mip="AerChemMIP" nstart="1" ntot="41" starty="2015.0" tier="2" title="SSP3-7.0, prescribed SSTs, with low black carbon emissions" uid="70e4023c-54ca-11e7-a104-5404a60d96b5" yps="41"></item> 
    7270 <item comment="Future SSP3-7.0 with reduced CH4 concentrations, prescribed SSTs" description="SSP3-7.0, prescribed SSTs, with low methane concentrations" egid="8709abf2-51c3-11e7-9bc5-5404a60d96b5" endy="2055.0" ensz="1" label="ssp370SST-lowCH4" mcfg="AGCM (using SST SSP3-7)" mip="AerChemMIP" nstart="1" ntot="41" starty="2015.0" tier="1" title="SSP3-7.0, prescribed SSTs, with low methane concentrations" uid="70e40c46-54ca-11e7-a104-5404a60d96b5" yps="41"></item> 
    7271 <item comment="Future SSP3-7.0 with reduced NTCF emissions, prescribed SSTs" description="SSP3-7.0, prescribed SSTs, with low NTCF emissions" egid="8709abf2-51c3-11e7-9bc5-5404a60d96b5" endy="2055.0" ensz="1" label="ssp370SST-lowNTCF" mcfg="AGCM (using SST SSP3-7)" mip="AerChemMIP" nstart="1" ntot="41" starty="2015.0" tier="1" title="SSP3-7.0, prescribed SSTs, with low NTCF emissions" uid="70e3fec2-54ca-11e7-a104-5404a60d96b5" yps="41"></item> 
    7272 <item comment="Future SSP3-7.0 with reduced ozone precursor emissions (from ssp370-lowNTCF), prescribed SSTs" description="SSP3-7.0, prescribed SSTs, with low ozone precursor emissions" egid="8709abf2-51c3-11e7-9bc5-5404a60d96b5" endy="2055.0" ensz="1" label="ssp370SST-lowO3" mcfg="AGCM (using SST SSP3-7)" mip="AerChemMIP" nstart="1" ntot="41" starty="2015.0" tier="2" title="SSP3-7.0, prescribed SSTs, with low ozone precursor emissions" uid="70e408f4-54ca-11e7-a104-5404a60d96b5" yps="41"></item> 
    7273 <item comment="Future SSP3-7.0 with low land use change (from ssp126), prescribed SSTs" description="SSP3-7.0, prescribed SSTs, with SSP1-2.6 land use" egid="8709abf2-51c3-11e7-9bc5-5404a60d96b5" endy="2055" ensz="1" label="ssp370SST-ssp126Lu" mcfg="AGCM (using SST SSP3-7)" mip="AerChemMIP" nstart="1" ntot="20" starty="2015" tier="1" title="SSP3-7.0, prescribed SSTs, with SSP1-2.6 land use" uid="70e40f84-54ca-11e7-a104-5404a60d96b5" yps="41"></item> 
    7274 <item comment="" description="Gap: Mitigation scenario with low radiative forcing by the end of the century.  Following approximately RCP3.4 global forcing pathway with SSP4 socioeconomic conditions. Radiative forcing reaches a level of 3.4 W/m2 in 2100. Concentration-driven." egid="f16f65f2-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="ssp434" mcfg="AOGCM/ESM" mip="ScenarioMIP" nstart="1" ntot="86" starty="2015.0" tier="2" title="gap-filling scenario reaching 3.4 based on SSP4" uid="f16f68b8-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7275 <item comment="" description="SSP-based RCP scenario with medium radiative forcing by the end of the century.  Following approximately RCP6.0 global forcing pathway with SSP1 socioeconomic conditions. Radiative forcing reaches a level of 6.0 W/m2 in 2100. Concentration-driven." egid="f16f65f2-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="ssp460" mcfg="AOGCM/ESM" mip="ScenarioMIP" nstart="1" ntot="86" starty="2015.0" tier="2" title="update of RCP6.0 based on SSP4" uid="f16f6476-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7276 <item comment="" description="Gap: Mitigated overshoot scenario with medium/low radiative forcing by the end of the 21st century.  The scenario follows SSP5-8.5, an unmitigated baseline scenario, through 2040, and then substantially negative net emissions thereafter." egid="f16f65f2-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="ssp534-over" mcfg="AOGCM/ESM" mip="ScenarioMIP" nstart="1" ntot="86" starty="2040" tier="2" title="overshoot of 3.4 W/m**2 branching from ssp585 in 2040" uid="f16f73f8-dd9e-11e6-b89b-ac72891c3257" yps="61"></item> 
    7277 <item comment="" description="Biogeochemically-coupled version of the mitigated overshoot scenario with medium/low radiative forcing by the end of the 21st century.  The scenario follows SSP5-8.5, an unmitigated baseline scenario, through 2040, and then substantially negative net emissions thereafter." egid="f16d3098-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="ssp534-over-bgc" mcfg="" mip="C4MIP" nstart="1" ntot="260" starty="2015" tier="2" title="biogeochemically-coupled version of the RCP3.4-overshoot based on SSP5" uid="f16d393a-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7278 <item comment="" description="SSP-based RCP scenario with high radiative forcing by the end of century. Following approximately RCP8.5 global forcing pathway with SSP5 socioeconomic conditions. Concentration-driven." egid="f16f57e2-dd9e-11e6-b89b-ac72891c3257" endy="2100.0" ensz="1" label="ssp585" mcfg="AOGCM/ESM" mip="ScenarioMIP" nstart="1" ntot="86" starty="2015.0" tier="1" title="update of RCP8.5 based on SSP5" uid="f16f5684-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7279 <item comment="" description="SSP-based RCP scenario with high radiative forcing by the end of century. Following approximately RCP8.5 global forcing pathway with SSP5 socioeconomic conditions. Concentration-driven.  Radiative effects of CO2 disabled - i.e. the radiation code is fed the time-invariant CO2 concentration from the control run." egid="f16d3098-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="ssp585-bgc" mcfg="" mip="C4MIP" nstart="1" ntot="85" starty="2015" tier="2" title="biogeochemically-coupled version of the RCP8.5 based on SSP5" uid="f16d3372-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7280 <item comment="Future climate from ScenarioMIP SSP5-8.5 simulation that includes interactive ice sheets. Set up follows the standard SSP5-8.5 experiment" description="ScenarioMIP SSP5-85 forcing in a model with interactive ice sheets. The set up follows the set up for the standard ScenarioMIP SSP5-85, which may therefore first require the CMIP6 Historical simulation to be performed too with a coupled AOGCM-ISM setting." egid="f16e9118-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="ssp585-withism" mcfg="AOGCM-ISM" mip="ISMIP6" nstart="1" ntot="286" starty="2015" tier="2" title="ssp585 with interactive ice sheet" uid="f16e8fb0-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7281 <item comment="Parallel experiment to volc-cluster-ctrl, using restart files from the end of the historical simulation instead of from piControl, and boundary conditions from the 21st century SSP2-4.5 scenario experiment of ScenarioMIP" description="Parallel experiment to volc-cluster-ctrl but with initial conditions from the end of the historical simulation instead of from the piControl. The first eruption of the cluster begins in 2015. All external forcings, except volcanic forcing are from the 21st-century SSP2-4.5 scenario experiment of ScenarioMIP. At the end of the volcanic cluster, volcanic forcing input shall be kept constant at the same constant value prescribed for the piControl simulation for consistency with the SSP2-4.5 scenario experiment. At least one, preferably three ensemble members. 85 years for each ensemble member." egid="f16f9e8c-dd9e-11e6-b89b-ac72891c3257" endy="2100" ensz="1" label="volc-cluster-21C" mcfg="AOGCM/ ESM" mip="VolMIP" nstart="1" ntot="255" starty="2015" tier="3" title="volcanic cluster experiment under 21st century SSP2-4.5 scenario" uid="f16fb64c-dd9e-11e6-b89b-ac72891c3257" yps="86"></item> 
    7282 <item comment="Early 19th century cluster of strong tropical volcanic eruptions, including the 1809 event of unknown location, the 1815 Tambora and 1835 Cosigueina eruptions. Experiment initialized from PiControl" description="Early 19th century cluster of strong tropical volcanic eruptions, including the 1809 event of unknown location, and the 1815 Tambora and 1835 Cisuguina eruptions.  Run three ensemble members for at least 50 years to cover the multi-decadal oceanic response and to assess stationarity of post-cluster climate." egid="f16f9e8c-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="1" label="volc-cluster-ctrl" mcfg="AOGCM/ ESM" mip="VolMIP" nstart="3" ntot="100" starty="" tier="2" title="19th century volcanic cluster initialized from PiControl" uid="f16f9c20-dd9e-11e6-b89b-ac72891c3257" yps="50"></item> 
    7283 <item comment="Early 19th century cluster of strong tropical volcanic eruptions, including the 1809 event of unknown location, the 1815 Tambora and 1835 Cosigueina eruptions. Experiment initialized from past1000 (all forcings except volcanic kept constant from year AD 1790 on)" description="Parallel experiment to volc-cluster-ctrl but with initial conditions taken from last-millennium simulation to account for the effects of a more realistic history of past natural forcing.  Initialisation on 1 January 1790 to avoid interferences due to the decadal drop of solar activity associated with the Dalton Minimum.  The first eruption of the cluster begins in 1809 as in volc-cluster-ctrl. All external forcings, except volcanic forcing, are set as a perpetual repetition of the year 1790 for the full duration of the experiment. At least one, preferably three, ensemble members.  69 years for each ensemble member." egid="f16f9e8c-dd9e-11e6-b89b-ac72891c3257" endy="1858" ensz="1" label="volc-cluster-mill" mcfg="AOGCM/ ESM" mip="VolMIP" nstart="3" ntot="207" starty="1790" tier="3" title="19th century volcanic cluster initialized from past1000" uid="f16fa5b2-dd9e-11e6-b89b-ac72891c3257" yps="69"></item> 
    7284 <item comment="Idealized equatorial eruption corresponding to an initial emission of 56.2 Tg of SO2. The eruption magnitude corresponds to recent estimates for the 1815 Tambora eruption (Sigl et al., 2015), the largest historical tropical eruption, which was linked to the so-called &quot;year without a summer&quot; in 1816. Experiment initialized from PiControl" description="Idealised equatorial eruption corresponding to an initial emission of 56.2 Tg of SO2. This eruption has a magnitued roughly corresponding to the 1815 Mt Tambora eruption in Indonesia, which was linked to the so-called &quot;year without a summer&quot; in 1816.  Maintain the same constant boundary forcing as the pre-industrial control integration, except for the volcanic forcing. The experiment will not account for the actual climate conditions when the real event ocurred (e.g., presence and strength of additional forcing factors). Instead, the experiment is designed to span very different initial climate states to systematically assess uncertainties in the post-eruption behavior that are related to background climate conditions.  If, for instance, year Y of the control integration matches the desired conditions for the initial condition sampling, then the corresponding VolMIP simulation should start with restart data from year Y-1 of the control.  Run nine ensemble members for at least 20 years, but preferably longer (50 years) to cover the multi-decadal oceanic response. Initialisation date from the piControl start year is 1st April." egid="f16f8b72-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="9" label="volc-long-eq" mcfg="AOGCM/ ESM" mip="VolMIP" nstart="1" ntot="180" starty="" tier="1" title="idealized equatorial volcanic eruption emitting 56.2 Tg SO2" uid="f16f8a00-dd9e-11e6-b89b-ac72891c3257" yps="20"></item> 
    7285 <item comment="Idealized Northern Hemisphere high-latitude eruption emitting 28.1 Tg of SO2. Experiment initialized from PiControl" description="Idealised high-latitude (60N) northern hemisphere eruption corresponding to an initial emission of 28.1 Tg of SO2 (equal to half the total amount injected for volc-long-eq).  volc-long-hlN is not directly comparable to the 1783-84 Laki eruption since it does not try to reproduce the very specific characteristics of Laki. The experiment is designed to span very different initial climate states to systematically assess uncertainties in post-eruption behavior that are related to background climate conditions.  If, for instance, year Y of the control integration matches the desired conditions for the initial condition sampling, then the corresponding VolMIP simulation should start with restart data from year Y-1 of the control.  Run nine ensemble members for at least 20 years, but preferably longer (50 years) to cover the multi-decadal oceanic response. Initialisation date from the piControl start year is 1st April." egid="f16f8b72-dd9e-11e6-b89b-ac72891c3257" endy="" ensz="9" label="volc-long-hlN" mcfg="AOGCM/ ESM" mip="VolMIP" nstart="1" ntot="180" starty="" tier="2" title="idealized Northern Hemisphere high-latitude eruption emitting 28.1 Tg of SO2" uid="f16fa22e-dd9e-11e6-b89b-ac72891c3257" yps="20"></item> 
    7286 <item comment="Idealized Southern Hemisphere high-latitude er