- Timestamp:
- 10/04/15 12:59:32 (5 years ago)
- File:
-
- 1 edited
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clipcs/trunk/html/trial/slickData.js (modified) (1 diff)
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clipcs/trunk/html/trial/slickData.js
r314 r315 1443 1443 data[1440] = { "id":1440, 0:"ccldncl", 1:"Cloud Droplet Number Concentration of Convective Cloud Tops", 2:"number_concentration_of_convective_cloud_liquid_water_particles_in_air_at_liquid_water_cloud_top[-1.0]", 3:"Droplets are liquid only. Report concentration 'as seen from space' over convective liquid cloudy portion of grid cell. This is the value from uppermost model layer with liquid cloud or, if available, it is better to sum over all liquid cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Weight by total liquid cloud top fraction of (as seen from TOA) each time sample when computing monthly mean.", 4:"CMIP6[CFMIP]" }; 1444 1444 data[1441] = { "id":1441, 0:"clivic", 1:"Convective Ice Water Path", 2:"atmosphere_convective_cloud_ice_content[-1.0]", 3:"calculate mass of convective ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). This includes precipitating frozen hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model. ", 4:"CMIP6[CFMIP]" }; 1445 data[1442] = { "id":1442, 0:"vtendogw", 1:"v-tendency orographic gravity wave drag", 2:"tendency_of_northward_wind_due_to_orographic_gravity_wave_drag[-1.0]", 3:"Acceleration of the northward wind by parameterized orographic gravity waves. (Note that CF name tables only have a general northward tendency for all gravity waves, and we need it separated by type.)", 4:"CMIP6[DynVar]" }; 1446 data[1443] = { "id":1443, 0:"vtendnogw", 1:"v-tendency nonorographic gravity wave drag", 2:"tendency_of_northward_wind_due_to_nonorographic_gravity_wave_drag[-1.0]", 3:"Acceleration of the northward wind by parameterized nonorographic gravity waves. (Note that CF name tables only have a general northward tendency for all gravity waves, and we need it separated by type.)", 4:"CMIP6[DynVar]" }; 1447 data[1444] = { "id":1444, 0:"tauu_pbl", 1:"eastward surface stress from planetary boundary layer scheme", 2:"surface_downward_eastward_stress_due_to_planetary_boundary_layer[-1.0]", 3:"The downward eastward stress associated with the models parameterization of the plantary boundary layer. (This request is related to a WGNE effort to understand how models parameterize the surface stresses.)", 4:"CMIP6[DynVar]" }; 1448 data[1445] = { "id":1445, 0:"tauv_pbl", 1:"northward surface stress from planetary boundary layer scheme", 2:"surface_downward_northward_stress_due_to_planetary_boundary_layer[-1.0]", 3:"The downward northward stress associated with the models parameterization of the plantary boundary layer. (This request is related to a WGNE effort to understand how models parameterize the surface stresses.)", 4:"CMIP6[DynVar]" }; 1449 data[1446] = { "id":1446, 0:"tntogw", 1:"temperature tendency orographic gravity wave dissipation", 2:"temperature_tendency_due_to_dissipation_orographic_gravity_wave_drag[-1.0]", 3:"Temeprature tendency due to dissipation of parameterized orographic gravity waves.", 4:"CMIP6[DynVar]" }; 1450 data[1447] = { "id":1447, 0:"tntnogw", 1:"temperature tendency nonorographic gravity wave dissipation", 2:"temperature_tendency_due_to_dissipation_nonorographic_gravity_wave_drag[-1.0]", 3:"Temeprature tendency due to dissipation of parameterized nonorographic gravity waves.", 4:"CMIP6[DynVar]" }; 1451 data[1448] = { "id":1448, 0:"#table 2.9", 1:"", 2:"[0.0]", 3:"", 4:"CMIP6[FAFMIP]" }; 1452 data[1449] = { "id":1449, 0:"opottemptend", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1453 data[1450] = { "id":1450, 0:"opottempadvect", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1454 data[1451] = { "id":1451, 0:"opottempeadvect", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_eddy_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1455 data[1452] = { "id":1452, 0:"opottemppmadvect", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1456 data[1453] = { "id":1453, 0:"opottemppmdiff", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_diffusion[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1457 data[1454] = { "id":1454, 0:"opottemppsmadvect", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_submesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1458 data[1455] = { "id":1455, 0:"opottempdiff", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_dianeutral_mixing[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1459 data[1456] = { "id":1456, 0:"ocontemptend", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1460 data[1457] = { "id":1457, 0:"ocontempadvect", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1461 data[1458] = { "id":1458, 0:"ocontemppmadvect", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1462 data[1459] = { "id":1459, 0:"ocontempeadvect", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_eddy_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1463 data[1460] = { "id":1460, 0:"ocontemppmdiff", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_diffusion[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1464 data[1461] = { "id":1461, 0:"ocontemppsmadvect", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_submesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1465 data[1462] = { "id":1462, 0:"ocontempdiff", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_dianeutral_mixing[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1466 data[1463] = { "id":1463, 0:"osalttend", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1467 data[1464] = { "id":1464, 0:"osaltadvect", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1468 data[1465] = { "id":1465, 0:"osaltpadvect", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_eddy_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1469 data[1466] = { "id":1466, 0:"osaltpmadvect", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_mesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1470 data[1467] = { "id":1467, 0:"osaltpmdiff", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_mesoscale_diffusion[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1471 data[1468] = { "id":1468, 0:"osaltpsmadvect", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_submesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1472 data[1469] = { "id":1469, 0:"osaltdiff", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_dianeutral_mixing[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1473 data[1470] = { "id":1470, 0:"#table 2.2", 1:"", 2:"[0.0]", 3:"", 4:"CMIP6[FAFMIP]" }; 1474 data[1471] = { "id":1471, 0:"somint", 1:"", 2:"integral_wrt_depth_of_product_of_sea_water_density_and_salinity[-1.0]", 3:"[units kg/m2 * (1.e-3) - units or value scaled?]", 4:"CMIP6[FAFMIP]" }; 1475 data[1472] = { "id":1472, 0:"opottempmint", 1:"", 2:"integral_wrt_depth_of_product_of_sea_water_density_and_potential_temperature[-1.0]", 3:"", 4:"CMIP6[FAFMIP]" }; 1476 data[1473] = { "id":1473, 0:"ocontempmint", 1:"", 2:"integral_wrt_depth_of_product_of_sea_water_density_and_conservative_temperature[-1.0]", 3:"", 4:"CMIP6[FAFMIP]" }; 1477 data[1474] = { "id":1474, 0:"pathetao", 1:"", 2:"sea_water_additional_potential_temperature[-1.0]", 3:"", 4:"CMIP6[FAFMIP]" }; 1478 data[1475] = { "id":1475, 0:"prthetao", 1:"", 2:"sea_water_redistributed_potential_temperature[-1.0]", 3:"", 4:"CMIP6[FAFMIP]" }; 1479 data[1476] = { "id":1476, 0:"surfWindmax", 1:"Maximum near surface wind speed", 2:"[0.0]", 3:"Maximum sampled every timestep over each 6hr period", 4:"CMIP6[HighResMIP]" }; 1480 data[1477] = { "id":1477, 0:"uqint", 1:"integrated_eastward_wind_times_humidity", 2:"[0.0]", 3:"Column integrated eastward wind times specific humidity", 4:"CMIP6[HighResMIP]" }; 1481 data[1478] = { "id":1478, 0:"vqint", 1:"integrated_northward_wind_times_humidity", 2:"[0.0]", 3:"Column integrated northward wind times specific humidity", 4:"CMIP6[HighResMIP]" }; 1482 data[1479] = { "id":1479, 0:"qint", 1:"integrated_moisture", 2:"[0.0]", 3:"Column integrated specific humidity ", 4:"CMIP6[HighResMIP]" }; 1483 data[1480] = { "id":1480, 0:"epmflux", 1:"eliassen_palm_merid_flux", 2:"[0.0]", 3:"Eliassen-Palm meridional flux, zonal mean over 36 pressure levels plev36", 4:"CMIP6[HighResMIP]" }; 1484 data[1481] = { "id":1481, 0:"epvflux", 1:"eliassen_palm_vertical_flux", 2:"[0.0]", 3:"Eliassen-Palm vertical flux, zonal mean over plev36", 4:"CMIP6[HighResMIP]" }; 1485 data[1482] = { "id":1482, 0:"epfluxdiv", 1:"eliassen_palm_flux_divergence", 2:"[0.0]", 3:"Divergence of Eliassen-Palm flux, zonal mean over plev36", 4:"CMIP6[HighResMIP]" }; 1486 data[1483] = { "id":1483, 0:"vstarbar", 1:"residual_mean_merid_vstarbar", 2:"[0.0]", 3:"TEM residual mean meridional circulation vstarbar, zonal mean on plev36", 4:"CMIP6[HighResMIP]" }; 1487 data[1484] = { "id":1484, 0:"wstarbar", 1:"residual_mean_vert_wstarbar", 2:"[0.0]", 3:"TEM residual mean vertical circulation wstarbar, zonal mean on plev36", 4:"CMIP6[HighResMIP]" }; 1488 data[1485] = { "id":1485, 0:"wbptemp", 1:"wet_bulb_potential_temperature", 2:"[0.0]", 3:"Wet bulb potential temperature", 4:"CMIP6[HighResMIP]" }; 1489 data[1486] = { "id":1486, 0:"x_gwd_param", 1:"x_gravity_wave_drag_param", 2:"[0.0]", 3:"Parameterised x-component of gravity wave drag", 4:"CMIP6[HighResMIP]" }; 1490 data[1487] = { "id":1487, 0:"y_gwd_param", 1:"y_gravity_wave_drag_param", 2:"[0.0]", 3:"Parameterised y- component of gravity wave drag", 4:"CMIP6[HighResMIP]" }; 1491 data[1488] = { "id":1488, 0:"x_nonorog_gwd_param", 1:"x_gravity_wave_drag_param", 2:"[0.0]", 3:"Parameterised x-component of non-orographic gravity wave drag", 4:"CMIP6[HighResMIP]" }; 1492 data[1489] = { "id":1489, 0:"y_nonorog_gwd_param", 1:"y_gravity_wave_drag_param", 2:"[0.0]", 3:"Parameterised y- component of non-orogrpahic gravity wave drag", 4:"CMIP6[HighResMIP]" }; 1493 data[1490] = { "id":1490, 0:"prcsh", 1:"shallow_conv_precipitation_flux", 2:"[0.0]", 3:"Convection precipitation from shallow convection", 4:"CMIP6[HighResMIP]" }; 1494 data[1491] = { "id":1491, 0:"vortmean", 1:"vorticity_mean_850_700", 2:"[0.0]", 3:"Mean vorticity over 850,700,600 hPa", 4:"CMIP6[HighResMIP]" }; 1495 data[1492] = { "id":1492, 0:"u2", 1:"square_of_eastward_wind", 2:"[0.0]", 3:"u*u", 4:"CMIP6[HighResMIP]" }; 1496 data[1493] = { "id":1493, 0:"v2", 1:"square_of_northwardwind", 2:"[0.0]", 3:"v*v", 4:"CMIP6[HighResMIP]" }; 1497 data[1494] = { "id":1494, 0:"uv", 1:"eastward_wind_times_northward_wind", 2:"[0.0]", 3:"u*v", 4:"CMIP6[HighResMIP]" }; 1498 data[1495] = { "id":1495, 0:"wap2", 1:"square_of_omega", 2:"[0.0]", 3:"omega*omega", 4:"CMIP6[HighResMIP]" }; 1499 data[1496] = { "id":1496, 0:"t2", 1:"square_of_air_temperature", 2:"[0.0]", 3:"t*t", 4:"CMIP6[HighResMIP]" }; 1500 data[1497] = { "id":1497, 0:"uwap", 1:"eastward_wind_times_omega", 2:"[0.0]", 3:"u*omega", 4:"CMIP6[HighResMIP]" }; 1501 data[1498] = { "id":1498, 0:"vwap", 1:"northward_wind_times_omega", 2:"[0.0]", 3:"v*omega", 4:"CMIP6[HighResMIP]" }; 1502 data[1499] = { "id":1499, 0:"ut", 1:"air_temperature_times_eastward_wind", 2:"[0.0]", 3:"u*t", 4:"CMIP6[HighResMIP]" }; 1445 data[1442] = { "id":1442, 0:"rv850", 1:"Relative Vorticity at 850 hPa", 2:"relative_vorticity[-1.0]", 3:"", 4:"CMIP6[DCPP]" }; 1446 data[1443] = { "id":1443, 0:"qsat", 1:"Near-Surface Saturated Humidity", 2:"saturated_humidity[-1.0]", 3:"", 4:"CMIP6[DCPP]" }; 1447 data[1444] = { "id":1444, 0:"thetaot300", 1:"Depth average potential temperature of upper 300m", 2:"thetaot300[-1.0]", 3:"Upper 300m, 2D field", 4:"CMIP6[DCPP]" }; 1448 data[1445] = { "id":1445, 0:"thetaot700", 1:"Depth average potential temperature of upper 700m", 2:"thetaot700[-1.0]", 3:"Upper 700m, 2D field", 4:"CMIP6[DCPP]" }; 1449 data[1446] = { "id":1446, 0:"thetaot2000", 1:"Depth average potential temperature of upper 2000m", 2:"thetaot2000[-1.0]", 3:"Upper 2000m, 2D field", 4:"CMIP6[DCPP]" }; 1450 data[1447] = { "id":1447, 0:"phycs", 1:"Phytoplankton Carbon Concentration", 2:"phycs[-1.0]", 3:"As phyc, but only at the surface", 4:"CMIP6[DCPP]" }; 1451 data[1448] = { "id":1448, 0:"chls", 1:"Total Chlorophyll Mass Concentration", 2:"chls[-1.0]", 3:"As chl, but only at the surface", 4:"CMIP6[DCPP]" }; 1452 data[1449] = { "id":1449, 0:"co2s", 1:"Atmosphere CO2", 2:"co2s[-1.0]", 3:"As co2, but only at the surface", 4:"CMIP6[DCPP]" }; 1453 data[1450] = { "id":1450, 0:"vtendogw", 1:"v-tendency orographic gravity wave drag", 2:"tendency_of_northward_wind_due_to_orographic_gravity_wave_drag[-1.0]", 3:"Acceleration of the northward wind by parameterized orographic gravity waves. (Note that CF name tables only have a general northward tendency for all gravity waves, and we need it separated by type.)", 4:"CMIP6[DynVar]" }; 1454 data[1451] = { "id":1451, 0:"vtendnogw", 1:"v-tendency nonorographic gravity wave drag", 2:"tendency_of_northward_wind_due_to_nonorographic_gravity_wave_drag[-1.0]", 3:"Acceleration of the northward wind by parameterized nonorographic gravity waves. (Note that CF name tables only have a general northward tendency for all gravity waves, and we need it separated by type.)", 4:"CMIP6[DynVar]" }; 1455 data[1452] = { "id":1452, 0:"tauu_pbl", 1:"eastward surface stress from planetary boundary layer scheme", 2:"surface_downward_eastward_stress_due_to_planetary_boundary_layer[-1.0]", 3:"The downward eastward stress associated with the models parameterization of the plantary boundary layer. (This request is related to a WGNE effort to understand how models parameterize the surface stresses.)", 4:"CMIP6[DynVar]" }; 1456 data[1453] = { "id":1453, 0:"tauv_pbl", 1:"northward surface stress from planetary boundary layer scheme", 2:"surface_downward_northward_stress_due_to_planetary_boundary_layer[-1.0]", 3:"The downward northward stress associated with the models parameterization of the plantary boundary layer. (This request is related to a WGNE effort to understand how models parameterize the surface stresses.)", 4:"CMIP6[DynVar]" }; 1457 data[1454] = { "id":1454, 0:"tntogw", 1:"temperature tendency orographic gravity wave dissipation", 2:"temperature_tendency_due_to_dissipation_orographic_gravity_wave_drag[-1.0]", 3:"Temeprature tendency due to dissipation of parameterized orographic gravity waves.", 4:"CMIP6[DynVar]" }; 1458 data[1455] = { "id":1455, 0:"tntnogw", 1:"temperature tendency nonorographic gravity wave dissipation", 2:"temperature_tendency_due_to_dissipation_nonorographic_gravity_wave_drag[-1.0]", 3:"Temeprature tendency due to dissipation of parameterized nonorographic gravity waves.", 4:"CMIP6[DynVar]" }; 1459 data[1456] = { "id":1456, 0:"opottemptend", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1460 data[1457] = { "id":1457, 0:"opottempadvect", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1461 data[1458] = { "id":1458, 0:"opottempeadvect", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_eddy_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1462 data[1459] = { "id":1459, 0:"opottemppmadvect", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1463 data[1460] = { "id":1460, 0:"opottemppmdiff", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_diffusion[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1464 data[1461] = { "id":1461, 0:"opottemppsmadvect", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_submesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1465 data[1462] = { "id":1462, 0:"opottempdiff", 1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_dianeutral_mixing[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1466 data[1463] = { "id":1463, 0:"ocontemptend", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1467 data[1464] = { "id":1464, 0:"ocontempadvect", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1468 data[1465] = { "id":1465, 0:"ocontemppmadvect", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1469 data[1466] = { "id":1466, 0:"ocontempeadvect", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_eddy_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1470 data[1467] = { "id":1467, 0:"ocontemppmdiff", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_diffusion[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1471 data[1468] = { "id":1468, 0:"ocontemppsmadvect", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_submesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1472 data[1469] = { "id":1469, 0:"ocontempdiff", 1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_dianeutral_mixing[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1473 data[1470] = { "id":1470, 0:"osalttend", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1474 data[1471] = { "id":1471, 0:"osaltadvect", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1475 data[1472] = { "id":1472, 0:"osaltpadvect", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_eddy_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1476 data[1473] = { "id":1473, 0:"osaltpmadvect", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_mesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1477 data[1474] = { "id":1474, 0:"osaltpmdiff", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_mesoscale_diffusion[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1478 data[1475] = { "id":1475, 0:"osaltpsmadvect", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_submesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1479 data[1476] = { "id":1476, 0:"osaltdiff", 1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_dianeutral_mixing[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }; 1480 data[1477] = { "id":1477, 0:"somint", 1:"", 2:"integral_wrt_depth_of_product_of_sea_water_density_and_salinity[-1.0]", 3:"[units kg/m2 * (1.e-3) - units or value scaled?]", 4:"CMIP6[FAFMIP]" }; 1481 data[1478] = { "id":1478, 0:"opottempmint", 1:"", 2:"integral_wrt_depth_of_product_of_sea_water_density_and_potential_temperature[-1.0]", 3:"", 4:"CMIP6[FAFMIP]" }; 1482 data[1479] = { "id":1479, 0:"ocontempmint", 1:"", 2:"integral_wrt_depth_of_product_of_sea_water_density_and_conservative_temperature[-1.0]", 3:"", 4:"CMIP6[FAFMIP]" }; 1483 data[1480] = { "id":1480, 0:"pathetao", 1:"", 2:"sea_water_additional_potential_temperature[-1.0]", 3:"", 4:"CMIP6[FAFMIP]" }; 1484 data[1481] = { "id":1481, 0:"prthetao", 1:"", 2:"sea_water_redistributed_potential_temperature[-1.0]", 3:"", 4:"CMIP6[FAFMIP]" }; 1485 data[1482] = { "id":1482, 0:"od550aerstrat", 1:"Stratospheric Aerosol Optical Depth at 550nm", 2:"strat_aerosol_optical_depth[-1.0]", 3:"From tropopause to stratopause as defined by the model", 4:"CMIP6[GeoMIP]" }; 1486 data[1483] = { "id":1483, 0:"rsutna", 1:"TOA Outgoing Clean-Sky Shortwave Radiation", 2:"toa_outgoing_shortwave_flux_no_aerosol[-1.0]", 3:"Based on Ghan (2013, ACP)", 4:"CMIP6[GeoMIP]" }; 1487 data[1484] = { "id":1484, 0:"rsutnacs", 1:"TOA Outgoing Clean-Sky Clear-Sky Shortwave Radiation", 2:"toa_outgoing_shortwave_flux_no_aerosol_assuming_clear_sky[-1.0]", 3:"Based on Ghan (2013, ACP)", 4:"CMIP6[GeoMIP]" }; 1488 data[1485] = { "id":1485, 0:"surfWindmax", 1:"Maximum near surface wind speed", 2:"[0.0]", 3:"Maximum sampled every timestep over each 6hr period", 4:"CMIP6[HighResMIP]" }; 1489 data[1486] = { "id":1486, 0:"uqint", 1:"integrated_eastward_wind_times_humidity", 2:"[0.0]", 3:"Column integrated eastward wind times specific humidity", 4:"CMIP6[HighResMIP]" }; 1490 data[1487] = { "id":1487, 0:"vqint", 1:"integrated_northward_wind_times_humidity", 2:"[0.0]", 3:"Column integrated northward wind times specific humidity", 4:"CMIP6[HighResMIP]" }; 1491 data[1488] = { "id":1488, 0:"qint", 1:"integrated_moisture", 2:"[0.0]", 3:"Column integrated specific humidity ", 4:"CMIP6[HighResMIP]" }; 1492 data[1489] = { "id":1489, 0:"epmflux", 1:"eliassen_palm_merid_flux", 2:"[0.0]", 3:"Eliassen-Palm meridional flux, zonal mean over 36 pressure levels plev36", 4:"CMIP6[HighResMIP]" }; 1493 data[1490] = { "id":1490, 0:"epvflux", 1:"eliassen_palm_vertical_flux", 2:"[0.0]", 3:"Eliassen-Palm vertical flux, zonal mean over plev36", 4:"CMIP6[HighResMIP]" }; 1494 data[1491] = { "id":1491, 0:"epfluxdiv", 1:"eliassen_palm_flux_divergence", 2:"[0.0]", 3:"Divergence of Eliassen-Palm flux, zonal mean over plev36", 4:"CMIP6[HighResMIP]" }; 1495 data[1492] = { "id":1492, 0:"vstarbar", 1:"residual_mean_merid_vstarbar", 2:"[0.0]", 3:"TEM residual mean meridional circulation vstarbar, zonal mean on plev36", 4:"CMIP6[HighResMIP]" }; 1496 data[1493] = { "id":1493, 0:"wstarbar", 1:"residual_mean_vert_wstarbar", 2:"[0.0]", 3:"TEM residual mean vertical circulation wstarbar, zonal mean on plev36", 4:"CMIP6[HighResMIP]" }; 1497 data[1494] = { "id":1494, 0:"wbptemp", 1:"wet_bulb_potential_temperature", 2:"[0.0]", 3:"Wet bulb potential temperature", 4:"CMIP6[HighResMIP]" }; 1498 data[1495] = { "id":1495, 0:"x_gwd_param", 1:"x_gravity_wave_drag_param", 2:"[0.0]", 3:"Parameterised x-component of gravity wave drag", 4:"CMIP6[HighResMIP]" }; 1499 data[1496] = { "id":1496, 0:"y_gwd_param", 1:"y_gravity_wave_drag_param", 2:"[0.0]", 3:"Parameterised y- component of gravity wave drag", 4:"CMIP6[HighResMIP]" }; 1500 data[1497] = { "id":1497, 0:"x_nonorog_gwd_param", 1:"x_gravity_wave_drag_param", 2:"[0.0]", 3:"Parameterised x-component of non-orographic gravity wave drag", 4:"CMIP6[HighResMIP]" }; 1501 data[1498] = { "id":1498, 0:"y_nonorog_gwd_param", 1:"y_gravity_wave_drag_param", 2:"[0.0]", 3:"Parameterised y- component of non-orogrpahic gravity wave drag", 4:"CMIP6[HighResMIP]" }; 1502 data[1499] = { "id":1499, 0:"prcsh", 1:"shallow_conv_precipitation_flux", 2:"[0.0]", 3:"Convection precipitation from shallow convection", 4:"CMIP6[HighResMIP]" }; 1503 data[1500] = { "id":1500, 0:"vortmean", 1:"vorticity_mean_850_700", 2:"[0.0]", 3:"Mean vorticity over 850,700,600 hPa", 4:"CMIP6[HighResMIP]" }; 1504 data[1501] = { "id":1501, 0:"u2", 1:"square_of_eastward_wind", 2:"[0.0]", 3:"u*u", 4:"CMIP6[HighResMIP]" }; 1505 data[1502] = { "id":1502, 0:"v2", 1:"square_of_northwardwind", 2:"[0.0]", 3:"v*v", 4:"CMIP6[HighResMIP]" }; 1506 data[1503] = { "id":1503, 0:"uv", 1:"eastward_wind_times_northward_wind", 2:"[0.0]", 3:"u*v", 4:"CMIP6[HighResMIP]" }; 1507 data[1504] = { "id":1504, 0:"wap2", 1:"square_of_omega", 2:"[0.0]", 3:"omega*omega", 4:"CMIP6[HighResMIP]" }; 1508 data[1505] = { "id":1505, 0:"t2", 1:"square_of_air_temperature", 2:"[0.0]", 3:"t*t", 4:"CMIP6[HighResMIP]" }; 1509 data[1506] = { "id":1506, 0:"uwap", 1:"eastward_wind_times_omega", 2:"[0.0]", 3:"u*omega", 4:"CMIP6[HighResMIP]" }; 1510 data[1507] = { "id":1507, 0:"vwap", 1:"northward_wind_times_omega", 2:"[0.0]", 3:"v*omega", 4:"CMIP6[HighResMIP]" }; 1511 data[1508] = { "id":1508, 0:"ut", 1:"air_temperature_times_eastward_wind", 2:"[0.0]", 3:"u*t", 4:"CMIP6[HighResMIP]" }; 1512 data[1509] = { "id":1509, 0:"vt", 1:"air_temperature_times_northward_wind", 2:"[0.0]", 3:"v*t", 4:"CMIP6[HighResMIP]" }; 1513 data[1510] = { "id":1510, 0:"twap", 1:"air_temperature_times_omega", 2:"[0.0]", 3:"omega*t", 4:"CMIP6[HighResMIP]" }; 1514 data[1511] = { "id":1511, 0:"bldep", 1:"boundary_layer_depth", 2:"[0.0]", 3:"Boundary layer depth", 4:"CMIP6[HighResMIP]" }; 1515 data[1512] = { "id":1512, 0:"cld_ice_mxrat", 1:"cloud_ice_mixing_ratio", 2:"[0.0]", 3:"Cloud ice mixing ratio", 4:"CMIP6[HighResMIP]" }; 1516 data[1513] = { "id":1513, 0:"cld_wat_mxrat", 1:"cloud_water_mixing_ratio", 2:"[0.0]", 3:"Cloud water mixing ratio", 4:"CMIP6[HighResMIP]" }; 1517 data[1514] = { "id":1514, 0:"rain_mxrat", 1:"rain_mixing_ratio", 2:"[0.0]", 3:"Rain mixing ratio", 4:"CMIP6[HighResMIP]" }; 1518 data[1515] = { "id":1515, 0:"snow_mxrat", 1:"snow_mixing_ratio", 2:"[0.0]", 3:"Snow mixing ratio", 4:"CMIP6[HighResMIP]" }; 1519 data[1516] = { "id":1516, 0:"grpl_mxrat", 1:"graupel_mixing_ratio", 2:"[0.0]", 3:"Graupel mixing ratio", 4:"CMIP6[HighResMIP]" }; 1520 data[1517] = { "id":1517, 0:"surf_albedo", 1:"surface_albedo", 2:"[0.0]", 3:"Surface albedo", 4:"CMIP6[HighResMIP]" }; 1521 data[1518] = { "id":1518, 0:"plev7_1", 1:"Pressure levels 925, 850, 700, 600, 500, 300, 200", 2:"[0.0]", 3:"", 4:"CMIP6[HighResMIP]" }; 1522 data[1519] = { "id":1519, 0:"plev_36", 1:"Pressure levels: 1000,850,700,500,400,300,200,170,150,130,115,100,90,80,70,50,30,20,15,10,7,5,3,2,1.5,1,0.7,0.5,0.3,0.2,0.15,0.1,0.07,0.05", 2:"[0.0]", 3:"", 4:"CMIP6[HighResMIP]" }; 1523 data[1520] = { "id":1520, 0:"plev_14", 1:"Pressure levels 925,850,700,600,500,300,200,150,100,50,20,10,5,1", 2:"[0.0]", 3:"", 4:"CMIP6[HighResMIP]" }; 1524 data[1521] = { "id":1521, 0:"litempsnic", 1:"Temperature at the interface between land ice and snow or firn", 2:"land_ice_temperature_at_snow_or_firn_base[-1.0]", 3:"Surface Temperature that is used to force ice sheet models. It does not vary with seasons. In some models it is the temperature at the base of the snow, and in other at the base of firn. Report surface temperature of ice sheet where snow or firn thickness is zero", 4:"CMIP6[ISMIP6]" }; 1525 data[1522] = { "id":1522, 0:"litempbot", 1:"Temperature at the basal interface of the land ice. ", 2:"land_ice_basal_temperature[-1.0]", 3:"Basal temperature that is used to force the ice sheet models. Report temperature AT interface. Beneath ice shelves it is the temperature AT ice ocean interface. Beneath grounded ice, it is the temperature AT ice bedrock interface ", 4:"CMIP6[ISMIP6]" }; 1526 data[1523] = { "id":1523, 0:"icem", 1:"Surface ice melt flux", 2:"surface_ice_melt_flux[-1.0]", 3:"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.", 4:"CMIP6[ISMIP6]" }; 1527 data[1524] = { "id":1524, 0:"bwa", 1:"Basal water amount", 2:"land_ice_basal_water_amount OR water_amount_at_land_ice_base[-1.0]", 3:"The effective thickness of water beneath the glaciated grounded ice", 4:"CMIP6[ISMIP6]" }; 1528 data[1525] = { "id":1525, 0:"sftgrf", 1:"Grounded Ice area fraction", 2:"grounded_ice_area_fraction[-1.0]", 3:"Fraction of grid cell covered by grounded glaciated land", 4:"CMIP6[ISMIP6]" }; 1529 data[1526] = { "id":1526, 0:"flandice", 1:"Water flux into Sea Water from Land Ice", 2:"water_flux_into_sea_water_from_land_ice[-1.0]", 3:"Computed as the water flux into the ocean due to land ice (runoff water from surface and base of land ice) into the ocean divided by the area ocean portion of the grid cell", 4:"CMIP6[ISMIP6]" }; 1530 data[1527] = { "id":1527, 0:"wvelsurf", 1:"Z-component of land ice surface velocity", 2:"land_ice_z_velocity[-1.0]", 3:"w-velocity at land ice surface ", 4:"CMIP6[ISMIP6]" }; 1531 data[1528] = { "id":1528, 0:"wvelbase", 1:"Z-component of land ice basal velocity", 2:"land_ice_basal_z_velocity[-1.0]", 3:"w-velocity at land ice base ", 4:"CMIP6[ISMIP6]" }; 1532 data[1529] = { "id":1529, 0:"gismask", 1:"Grounded ice sheet area mask", 2:"grounded_ice_sheet_binary_mask[-1.0]", 3:"The binary mask is set to 1 where grounded ice sheet, 0 elsewhere", 4:"CMIP6[ISMIP6]" }; 1533 data[1530] = { "id":1530, 0:"fismask", 1:"Ice shelf area mask", 2:"floating_ice_shelf_binary_mask[-1.0]", 3:"The binary mask is set to 1 where ice shelves (land ice floating over sea), 0 elsewhere", 4:"CMIP6[ISMIP6]" }; 1534 data[1531] = { "id":1531, 0:"ivolgre", 1:"Greenland ice sheet volume", 2:"land_ice_volume[-1.0]", 3:"Total volume of the Greenland ice sheet", 4:"CMIP6[ISMIP6]" }; 1535 data[1532] = { "id":1532, 0:"ivolant", 1:"Antarctica ice sheet volume", 2:"land_ice_volume[-1.0]", 3:"Total volume of the Antarctic ice sheet", 4:"CMIP6[ISMIP6]" }; 1536 data[1533] = { "id":1533, 0:"ivolfgre", 1:"Greenland grounded ice sheet volume above floatation", 2:"land_ice_volume_above_floatation[-1.0]", 3:"Total volume above floatation of the Greenland ice sheet. ", 4:"CMIP6[ISMIP6]" }; 1537 data[1534] = { "id":1534, 0:"ivolfant", 1:"Antarctica grounded ice sheet volume above floatation", 2:"land_ice_volume_above_floatation[-1.0]", 3:"Total volume above floatation of the Antarctic ice sheet", 4:"CMIP6[ISMIP6]" }; 1538 data[1535] = { "id":1535, 0:"iareaggre", 1:"Greenland Area covered by grounded ice", 2:"land_ice_area_grounded[-1.0]", 3:"Total area of the grounded ice in Greenland", 4:"CMIP6[ISMIP6]" }; 1539 data[1536] = { "id":1536, 0:"iareagant", 1:"Antarctica Area covered by grounded ice", 2:"land_ice_area_grounded[-1.0]", 3:"Total area of the grounded ice in Antarctica", 4:"CMIP6[ISMIP6]" }; 1540 data[1537] = { "id":1537, 0:"iareafant", 1:"Antarctica Area covered by floating ice shelves", 2:"land_ice_area_floating[-1.0]", 3:"Total area of the floating ice shelves of Antarctica", 4:"CMIP6[ISMIP6]" }; 1541 data[1538] = { "id":1538, 0:"hfsbl", 1:"Energy of sublimation", 2:"surface_snow_and_ice_sublimation_heat_flux[-1.0]", 3:"Energy consumed or released during vapor/solid phase changes.", 4:"CMIP6[LS3MIP]" }; 1542 data[1539] = { "id":1539, 0:"tau", 1:"Momentum flux", 2:"surface_downward_stress[-1.0]", 3:"module of the momentum lost by the atmosphere to the surface.", 4:"CMIP6[LS3MIP]" }; 1543 data[1540] = { "id":1540, 0:"hfrs", 1:"Heat transferred to snowpack by rainfall", 2:"temperature_flux_due_to_rainfall_expressed_as_heat_flux_onto_snow_and_ice[-1.0]", 3:"Heat transferred to a snow cover by rain..", 4:"CMIP6[LS3MIP]" }; 1544 data[1541] = { "id":1541, 0:"dtes", 1:"Change in surface heat storage", 2:"change_over_time_in_thermal_energy_content_of_surface[-1.0]", 3:"Change in heat storage over the soil layer and the vegetation for which the energy balance is calculated, accumulated over the sampling time interval.", 4:"CMIP6[LS3MIP]" }; 1545 data[1542] = { "id":1542, 0:"dtesn", 1:"Change in snow/ice cold content", 2:"change_over_time_in_thermal_energy_content_of_surface_snow_and_ice[-1.0]", 3:"Change in cold content over the snow layer for which the energy balance is calculated, accumulated over the sampling time interval. This should also include the energy contained in the liquid water in the snow pack.", 4:"CMIP6[LS3MIP]" }; 1546 data[1543] = { "id":1543, 0:"tsns", 1:"Snow Surface Temperature", 2:"surface_snow_skin_temperature[-1.0]", 3:"Temperature of the snow surface as it interacts with the atmosphere, averaged over a grid cell.", 4:"CMIP6[LS3MIP]" }; 1547 data[1544] = { "id":1544, 0:"tcs", 1:"Vegetation Canopy Temperature", 2:"surface_canopy_skin_temperature[-1.0]", 3:"Vegetation temperature, averaged over all vegetation types", 4:"CMIP6[LS3MIP]" }; 1548 data[1545] = { "id":1545, 0:"tgs", 1:"Temperature of bare soil", 2:"surface_ground_skin_temperature[-1.0]", 3:"Surface bare soil temperature", 4:"CMIP6[LS3MIP]" }; 1549 data[1546] = { "id":1546, 0:"tr", 1:"Surface Radiative Temperature", 2:"surface_radiative_temperature[-1.0]", 3:"Effective radiative surface temperature, averaged over the grid cell", 4:"CMIP6[LS3MIP]" }; 1550 data[1547] = { "id":1547, 0:"albsn", 1:"Snow Albedo", 2:"snow_and_ice_albedo[-1.0]", 3:"Albedo of the snow-covered surface, averaged over the grid cell.", 4:"CMIP6[LS3MIP]" }; 1551 data[1548] = { "id":1548, 0:"albc", 1:"Canopy Albedo", 2:"canopy_albedo[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1552 data[1549] = { "id":1549, 0:"cnc", 1:"Canopy covered fraction", 2:"surface_canopy_area_fraction[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1553 data[1550] = { "id":1550, 0:"et", 1:"Total Evapotranspiration", 2:"surface_evapotranspiration[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1554 data[1551] = { "id":1551, 0:"ec", 1:"Interception evaporation", 2:"liquid_water_evaporation_flux_from_canopy[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1555 data[1552] = { "id":1552, 0:"es", 1:"Bare soil evaporation", 2:"liquid_water_evaporation_flux_from_soil[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1556 data[1553] = { "id":1553, 0:"eow", 1:"Open water evaporation", 2:"liquid_water_evaporation_flux_from_open_water[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1557 data[1554] = { "id":1554, 0:"esn", 1:"Snow Evaporation", 2:"liquid_water_evaporation_flux_from_surface_snow[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1558 data[1555] = { "id":1555, 0:"slbnosn", 1:"Sublimation of the snow free area", 2:"sublimation_amount_assuming_no_snow[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1559 data[1556] = { "id":1556, 0:"potet", 1:"Potential Evapotranspiration", 2:"water_potential_evapotranspiration_flux[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1560 data[1557] = { "id":1557, 0:"snmsl", 1:"Water flowing out of snowpack", 2:"surface_snow_melt_flux_into_soil_layer[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1561 data[1558] = { "id":1558, 0:"qgwr", 1:"Groundwater recharge from soil layer", 2:"water_flux_from_soil_layer_to_groundwater[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1562 data[1559] = { "id":1559, 0:"rivo", 1:"River Inflow", 2:"water_flux_from_upstream[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1563 data[1560] = { "id":1560, 0:"rivi", 1:"River Discharge", 2:"water_flux_to_downstream[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1564 data[1561] = { "id":1561, 0:"dslw", 1:"Change in soil moisture", 2:"change_over_time_in_water_content_of_soil_layer[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1565 data[1562] = { "id":1562, 0:"dsn", 1:"Change in snow water equivalent", 2:"change_over_time_in_surface_snow_and_ice_amount[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1566 data[1563] = { "id":1563, 0:"dsw", 1:"Change in Surface Water Storage", 2:"change_over_time_in_surface_water_amount[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1567 data[1564] = { "id":1564, 0:"dcw", 1:"Change in interception storage", 2:"change_over_time_in_canopy_water_amount[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1568 data[1565] = { "id":1565, 0:"dgw", 1:"Change in groundwater", 2:"change_over_time_in_groundwater[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1569 data[1566] = { "id":1566, 0:"drivw", 1:"Change in river storage", 2:"change_over_time_in_river_water_amount[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1570 data[1567] = { "id":1567, 0:"rzwc", 1:"Root zone soil moisture", 2:"water_content_of_root_zone[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1571 data[1568] = { "id":1568, 0:"snwc", 1:"SWE intercepted by the vegetation", 2:"canopy_snow_amount[-1.0]", 3:"Total water mass of the snowpack (liquid or frozen), averaged over a grid cell and interecepted by the canopy.", 4:"CMIP6[LS3MIP]" }; 1572 data[1569] = { "id":1569, 0:"sw", 1:"Surface Water Storage", 2:"surface_water_amount_assuming_no_snow[-1.0]", 3:"Total liquid water storage, other than soil, snow or interception storage (i.e. lakes, river channel or depression storage).", 4:"CMIP6[LS3MIP]" }; 1573 data[1570] = { "id":1570, 0:"mrsow", 1:"Total Soil Wetness", 2:"relative_soil_moisture_content_above_field_capacity[-1.0]", 3:"Vertically integrated soil moisture divided by maximum allowable soil moisture above wilting point.", 4:"CMIP6[LS3MIP]" }; 1574 data[1571] = { "id":1571, 0:"wtd", 1:"Water table depth", 2:"depth_of_soil_moisture_saturation[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1575 data[1572] = { "id":1572, 0:"tws", 1:"Terrestrial Water Storage", 2:"canopy_and_surface_and_subsurface_water_amount[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1576 data[1573] = { "id":1573, 0:"mrlqso", 1:"Average layer fraction of liquid moisture", 2:"mass_fraction_of_unfrozen_water_in_soil_layer[-1.0]", 3:"Fraction of soil moisture mass in the liquid phase in each user-defined soil layer (3D variable)", 4:"CMIP6[LS3MIP]" }; 1577 data[1574] = { "id":1574, 0:"mrfsofr", 1:"Average layer fraction of frozen moisture", 2:"mass_fraction_of_frozen_water_in_soil_layer[-1.0]", 3:"Fraction of soil moisture mass in the solid phase in each user-defined soil layer (3D variable)", 4:"CMIP6[LS3MIP]" }; 1578 data[1575] = { "id":1575, 0:"prrsn", 1:"Fraction of rainfall on snow.", 2:"mass_fraction_of_rainfall_onto_snow[-1.0]", 3:"The fraction of the grid averaged rainfall which falls on the snow pack", 4:"CMIP6[LS3MIP]" }; 1579 data[1576] = { "id":1576, 0:"prsnsn", 1:"Fraction of snowfall on snow.", 2:"mass_fraction_of_snowfall_onto_snow[-1.0]", 3:"The fraction of the snowfall which falls on the snow pack", 4:"CMIP6[LS3MIP]" }; 1580 data[1577] = { "id":1577, 0:"lqsn", 1:"Snow liquid fraction", 2:"mass_fraction_of_liquid_water_in_snow[-1.0]", 3:"Fraction of Snow Equivalent Water which is in the liquid phase. 3D variable for multi-layer snow schemes.", 4:"CMIP6[LS3MIP]" }; 1581 data[1578] = { "id":1578, 0:"dfr", 1:"Frozen soil depth", 2:"depth_of_frozen_soil[-1.0]", 3:"Depth from surface to the first zero degree isotherm. Above this isotherm T < 0o, and below this line T > 0o.", 4:"CMIP6[LS3MIP]" }; 1582 data[1579] = { "id":1579, 0:"dmlt", 1:"Depth to soil thaw", 2:"depth_of_subsurface_melting[-1.0]", 3:"Depth from surface to the zero degree isotherm. Above this isotherm T > 0o, and below this line T < 0o.", 4:"CMIP6[LS3MIP]" }; 1583 data[1580] = { "id":1580, 0:"ares", 1:"Aerodynamic resistance", 2:"aerodynamic_resistance[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1584 data[1581] = { "id":1581, 0:"hurmax", 1:"Daily Maximum Near-Surface Relative Humidity", 2:"relative_humidity_maximum[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1585 data[1582] = { "id":1582, 0:"hurmin", 1:"Daily Minimum Near-Surface Relative Humidity", 2:"relative_humidity_minimum[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }; 1586 data[1583] = { "id":1583, 0:"Tiled variables", 1:"", 2:"dimension landusetype4, 4 land use types that should be reported if available, in this order are spl, crp, pst, urb where 'spl' = secondary and primary land, 'crp' = cropland, 'pst' = pastureland, and 'urb' = urban, see info under Long Name for further information[-1.0]", 3:"spl = all vegetated (or bare soil) land that is not being used as land use tile or pastureland. Secondary land refers to land harvested or abandoned (not managed anymore) during control or subsequent numerical experiments or abandoned (Hurtt et all 2006 and 2011) ", 4:"CMIP6[LUMIP]" }; 1587 data[1584] = { "id":1584, 0:"gpp_lut", 1:"kg C m-2 s-1", 2:"gross_primary_land_productivity_of_carbon_lut[-1.0]", 3:"gross primary productivity on land use tile", 4:"CMIP6[LUMIP]" }; 1588 data[1585] = { "id":1585, 0:"ra_lut", 1:"kg C m-2 s-1", 2:"plant_respiration_carbon_flux_lut[-1.0]", 3:"plant respiration on land use tile", 4:"CMIP6[LUMIP]" }; 1589 data[1586] = { "id":1586, 0:"npp_lut", 1:"kg C m-2 s-1", 2:"net_primary_land_productivity_of_carbon_lut[-1.0]", 3:"net primary productivity on land use tile", 4:"CMIP6[LUMIP]" }; 1590 data[1587] = { "id":1587, 0:"cTotFire_lut", 1:"kg C m-2 s-1", 2:"total_fire_loss_of_carbon_lut[-1.0]", 3:"total carbon loss from natural and managed fire on land use tile, including deforestation fires", 4:"CMIP6[LUMIP]" }; 1591 data[1588] = { "id":1588, 0:"rh_lut", 1:"kg C m-2 s-1", 2:"heterotrophic_respiration_carbon_flux_lut[-1.0]", 3:"soil heterotrophic respiration on land use tile", 4:"CMIP6[LUMIP]" }; 1592 data[1589] = { "id":1589, 0:"necb_lut", 1:"kg C m-2 s-1", 2:"net_ecosystem_carbon_balance_lut[-1.0]", 3:" net rate of C accumulation (or loss) on land use tile", 4:"CMIP6[LUMIP]" }; 1593 data[1590] = { "id":1590, 0:"nwdFrac_lut", 1:"fraction", 2:"non_woody_vegetation_fraction_on_lut[-1.0]", 3:"fraction of land use tile tile that is non-woody vegetation ( e.g. herbaceous crops)", 4:"CMIP6[LUMIP]" }; 1594 data[1591] = { "id":1591, 0:"tas_lut", 1:"K", 2:"air_temperature_lut[-1.0]", 3:"near-surface air temperature (2m above displacement height, i.e. t_ref) on land use tile", 4:"CMIP6[LUMIP]" }; 1595 data[1592] = { "id":1592, 0:"tslsi_lut ", 1:"K", 2:"surface_temperature_lut[-1.0]", 3:"surface 'skin' temperature on land use tile", 4:"CMIP6[LUMIP]" }; 1596 data[1593] = { "id":1593, 0:"huss_lut ", 1:"kg H2O /kg air", 2:"specific_humidity_lut[-1.0]", 3:"near-surface specific humidity on land use tile", 4:"CMIP6[LUMIP]" }; 1597 data[1594] = { "id":1594, 0:"hfls_lut ", 1:"W m-2", 2:"surface_upward_latent_heat_flux_lut[-1.0]", 3:"latent heat flux on land use tile", 4:"CMIP6[LUMIP]" }; 1598 data[1595] = { "id":1595, 0:"hfss_lut", 1:"W m-2", 2:"surface_upward_sensible_heat_flux_lut[-1.0]", 3:"sensible heat flux on land use tile", 4:"CMIP6[LUMIP]" }; 1599 data[1596] = { "id":1596, 0:"rsus_lut ", 1:"W m-2", 2:"surface_upwelling_shortwave_flux_in_air_lut[-1.0]", 3:"surface upwelling shortwave on land use tile", 4:"CMIP6[LUMIP]" }; 1600 data[1597] = { "id":1597, 0:"rlus_lut", 1:"W m-2", 2:"surface_upwelling_longwave_flux_in_air_lut[-1.0]", 3:"surface upwelling longwave on land use tile", 4:"CMIP6[LUMIP]" }; 1601 data[1598] = { "id":1598, 0:"swe_lut", 1:"m", 2:"snow_water_equivalent_lut[-1.0]", 3:"snow water equivalent on land use tile", 4:"CMIP6[LUMIP]" }; 1602 data[1599] = { "id":1599, 0:"lai_lut ", 1:"m2 of leaves/m2 of tile area", 2:"leaf_area_index_lut[-1.0]", 3:"leaf area index on land use tile", 4:"CMIP6[LUMIP]" }; 1603 data[1600] = { "id":1600, 0:"mrsos_lut", 1:"kg H2O m-2", 2:"moisture_content_of_upper_soil_layer_lut[-1.0]", 3:"Moisture in Upper Portion of Soil Column of land use tile", 4:"CMIP6[LUMIP]" }; 1604 data[1601] = { "id":1601, 0:"mrro_lut", 1:"kg H2O m-2 s-1", 2:"runoff_flux_lut[-1.0]", 3:"Total runoff from land use tile ", 4:"CMIP6[LUMIP]" }; 1605 data[1602] = { "id":1602, 0:"mrso_lut", 1:"kg H2O m-2", 2:"soil_moisture_content_lut[-1.0]", 3:"Total soil moisture", 4:"CMIP6[LUMIP]" }; 1606 data[1603] = { "id":1603, 0:"mrs1m_lut", 1:"kg H2O m-2", 2:"moisture_content_of_soil_1m_lut[-1.0]", 3:"Moisture in top 1 meter of land use tile soil column", 4:"CMIP6[LUMIP]" }; 1607 data[1604] = { "id":1604, 0:"irr_crp", 1:"kg H2O m-2 s-1", 2:"irrigation_crp[-1.0]", 3:"cropland irrigation flux", 4:"CMIP6[LUMIP]" }; 1608 data[1605] = { "id":1605, 0:"fah_urb", 1:"W m-2", 2:"anthropogenic_heat_flux_urban[-1.0]", 3:"Anthropogenic heat flux ", 4:"CMIP6[LUMIP]" }; 1609 data[1606] = { "id":1606, 0:"fHarvAnt_lut ", 1:"kg C m-2 s-1", 2:"harvested_carbon_into_anthropogenic_pool_lut[-1.0]", 3:"carbon harvested on land use tile that enters anthropogenic pools", 4:"CMIP6[LUMIP]" }; 1610 data[1607] = { "id":1607, 0:"fClAnt_lut ", 1:"kg C m-2 s-1", 2:"cleared_carbon_into_anthropogenic_pool_lut[-1.0]", 3:"carbon from land clearing for land use tile that enters anthropogenic pools", 4:"CMIP6[LUMIP]" }; 1611 data[1608] = { "id":1608, 0:"fHarvAtm_lut ", 1:"kg C m-2 s-1", 2:"harvested_carbon_into_atmosphere_lut[-1.0]", 3:"carbon harvested on land use tile that enters atmosphere", 4:"CMIP6[LUMIP]" }; 1612 data[1609] = { "id":1609, 0:"fClAtm_lut ", 1:"kg C m-2 s-1", 2:"cleared_carbon_into_atmosphere_lut[-1.0]", 3:"carbon from land clearance for land use tile that enters atmosphere", 4:"CMIP6[LUMIP]" }; 1613 data[1610] = { "id":1610, 0:"fAntAtm_lut", 1:"flux from anthropogenic pools on land use tile into atmosphere", 2:"flux_from anthropogenic_pool_into atmosphere_lut[-1.0]", 3:"If a model has separate anthropogenic pools by land use tile", 4:"CMIP6[LUMIP]" }; 1614 data[1611] = { "id":1611, 0:"fClRes_lut", 1:"kg C m-2 s-1", 2:"clearance_residue_lut[-1.0]", 3:"carbon left as residue into litter or soil after clearance for land use tile", 4:"CMIP6[LUMIP]" }; 1615 data[1612] = { "id":1612, 0:"fHarvRes_lut", 1:"kg C m-2 s-1", 2:"harvested_residue_lut[-1.0]", 3:"carbon after land use tile harvesting that left as residue into litter or soil", 4:"CMIP6[LUMIP]" }; 1616 data[1613] = { "id":1613, 0:"cSoil_lut", 1:"kg m-2", 2:"soil_carbon_content_lut[-1.0]", 3:"carbon in soil pool on land use tiles", 4:"CMIP6[LUMIP]" }; 1617 data[1614] = { "id":1614, 0:"cVeg_lut", 1:"kg m-2", 2:"vegetation_carbon_content_lut[-1.0]", 3:"carbon in vegetation on land use tiles", 4:"CMIP6[LUMIP]" }; 1618 data[1615] = { "id":1615, 0:"cLitter_lut", 1:"kg m-2", 2:"litter_carbon_content_lut[-1.0]", 3:"carbon in above and belowground litter pools on land use tiles", 4:"CMIP6[LUMIP]" }; 1619 data[1616] = { "id":1616, 0:"cAnt_lut", 1:"kg m-2", 2:"carbon_in_anthropogenic_pools_on_lut[-1.0]", 3:"anthropogenic pools associated with land use tiles", 4:"CMIP6[LUMIP]" }; 1620 data[1617] = { "id":1617, 0:"frac_lut", 1:"fraction", 2:"fraction_lut[-1.0]", 3:"fraction of grid cell for each land use tile", 4:"CMIP6[LUMIP]" }; 1621 data[1618] = { "id":1618, 0:"frac_out_lut", 1:"fraction", 2:"fraction_lut_transferred_out[-1.0]", 3:"annual gross fraction of land use tile that was transferred into other land use tiles", 4:"CMIP6[LUMIP]" }; 1622 data[1619] = { "id":1619, 0:"frac_in_lut", 1:"fraction", 2:"fraction_lut_transferred_in[-1.0]", 3:"annual gross fraction that was transferred into this tile from other land use tiles", 4:"CMIP6[LUMIP]" }; 1623 data[1620] = { "id":1620, 0:"hcont300", 1:"Heat content of upper 300 meters", 2:"heat_content_of_ocean_layer[-1.0]", 3:"Used in PMIP2", 4:"CMIP6[PMIP]" }; 1624 data[1621] = { "id":1621, 0:"depdust", 1:"Total deposition of dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_particles_due_to_total_deposition[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }; 1625 data[1622] = { "id":1622, 0:"sedustCI", 1:"Sedimentation Flux of dust mode coarse insoluble", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_particles_due_to_sedimentation[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }; 1626 data[1623] = { "id":1623, 0:"md", 1:"Wet diameter mode coarse insoluble", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_particles_due_to_emission[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }; 1627 data[1624] = { "id":1624, 0:"od443dust", 1:"Optical thickness at 443 nm Dust", 2:"atmosphere_optical_thickness_due_to_dust_ambient_aerosol_particles[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }; 1628 data[1625] = { "id":1625, 0:"od865dust", 1:"Optical thickness at 865 nm Dust", 2:"atmosphere_optical_thickness_due_to_dust_ambient_aerosol_particles[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }; 1629 data[1626] = { "id":1626, 0:"od550aerso", 1:"Stratospheric Optical depth at 550 nm (all aerosols) 2D-field (here we limit the computation of OD to the stratosphere only)", 2:"?[0.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }; 1630 data[1627] = { "id":1627, 0:"od550so4so", 1:"Stratospheric Optical depth at 550 nm (sulphate only) 2D-field (here we limit the computation of OD to the stratosphere only)", 2:"?[0.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }; 1631 data[1628] = { "id":1628, 0:"lwtoacs", 1:"Clear-sky TOA Longwave radiative flux due to Dust", 2:"tendency_of_clear_sky_top_of_atmosphere_longwave_flux_to_dust_ambient_aerosol_particles 2D field radiative properties[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }; 1632 data[1629] = { "id":1629, 0:"swsrfcsdust", 1:"Clear-sky Surface Shortwave radiative flux due to Dust", 2:"tendency_of_clear_sky_surface_shortwave_flux_due_to_dust_ambient_aerosol_particles[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }; 1633 data[1630] = { "id":1630, 0:"swsrfasdust", 1:"All-sky Surface Shortwave radiative flux due to Dust", 2:"tendency_of_all_sky_surface_shortwave_flux_due_to_dust_ambient_aerosol_particles[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }; 1634 data[1631] = { "id":1631, 0:"lwsrfcsdust", 1:"Clear-sky Surface Longwave radiative flux due to Dust", 2:"tendency_of_clear_sky_surface_longwave_flux_to_dust_ambient_aerosol_particles[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }; 1635 data[1632] = { "id":1632, 0:"lwsrfasdust", 1:"All-sky Surface Longwave radiative flux due to Dust", 2:"tendency_of_all_sky_surface_longwave_flux_to_dust_ambient_aerosol_particles[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }; 1636 data[1633] = { "id":1633, 0:"O18p", 1:"18O in total precipitation", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }; 1637 data[1634] = { "id":1634, 0:"O18s", 1:"18O in solid precipitation", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }; 1638 data[1635] = { "id":1635, 0:"H2p", 1:"2H in total precipitation", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }; 1639 data[1636] = { "id":1636, 0:"H2s", 1:"2H in solid precipitation", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }; 1640 data[1637] = { "id":1637, 0:"O17p", 1:"17O in total precipitation", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }; 1641 data[1638] = { "id":1638, 0:"O17s", 1:"17O in solid precipitation", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }; 1642 data[1639] = { "id":1639, 0:"O18wv", 1:"O18 in water vapor", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }; 1643 data[1640] = { "id":1640, 0:"O17wv", 1:"O17 in water vapor", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }; 1644 data[1641] = { "id":1641, 0:"H2wv", 1:"H2 in water vapor", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }; 1645 data[1642] = { "id":1642, 0:"O18sw", 1:"O18 in sea water", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }; 1646 data[1643] = { "id":1643, 0:"mrlso", 1:"Soil Liquid Water Content ", 2:"soil_liquid_water_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1647 data[1644] = { "id":1644, 0:"mrsol", 1:"Total water content of soil layer", 2:"total_moisture_content_of_soil_layer[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1648 data[1645] = { "id":1645, 0:"mrsll", 1:"Liquid water content of soil layer", 2:"liquid_moisture_content_of_soil_layer[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1649 data[1646] = { "id":1646, 0:"mrsfl", 1:"Frozen water content of soil layer", 2:"frozen_moisture_content_of_soil_layer[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1650 data[1647] = { "id":1647, 0:"mrtws", 1:"Total water storage in a grid cell", 2:"total_water_storage[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1651 data[1648] = { "id":1648, 0:"pcp", 1:"Total precipitation", 2:"total_precipitation_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1652 data[1649] = { "id":1649, 0:"vegFrac", 1:"Total vegetated fraction", 2:"total_vegetated_fraction[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1653 data[1650] = { "id":1650, 0:"treeFracNdlEvg", 1:"Needleleaf evergreen tree fraction", 2:"tree_fraction_needleleaf_evergreen[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1654 data[1651] = { "id":1651, 0:"treeFracNdlDcd", 1:"Needleleaf deciduous tree fraction", 2:"tree_fraction_needleleaf_deciduous[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1655 data[1652] = { "id":1652, 0:"treeFracBdlEvg", 1:"Broadleaf evergreen tree fraction", 2:"tree_fraction_broadleaf_evergreen[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1656 data[1653] = { "id":1653, 0:"treeFracBdlDcd", 1:"Broadleaf deciduous tree fraction", 2:"tree_fraction_broadleaf_deciduous[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1657 data[1654] = { "id":1654, 0:"grassFracC3", 1:"C3 grass fraction", 2:"grass_fraction_c3[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1658 data[1655] = { "id":1655, 0:"grassFracC4", 1:"C4 grass fraction", 2:"grass_fraction_c4[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1659 data[1656] = { "id":1656, 0:"cropFracC3", 1:"C3 crop fraction", 2:"crop_fraction_c3[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1660 data[1657] = { "id":1657, 0:"cropFracC4", 1:"C4 crop fraction", 2:"crop_fraction_c4[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1661 data[1658] = { "id":1658, 0:"cLand", 1:"Total carbon in all terrestrial carbon pools", 2:"total_land_carbon[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1662 data[1659] = { "id":1659, 0:"fDeforest", 1:"Deforested biomass as a result of anthropogenic land use change", 2:"deforested_biomass_due_to_anthorpogenic_land_use_change[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1663 data[1660] = { "id":1660, 0:"netAtmosLandCO2Flux", 1:"Net flux of CO2 between atmosphere and land (positive into land) as a result of all processes.", 2:"net_atmos_to_land_CO2_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1664 data[1661] = { "id":1661, 0:"lateralCtransfer", 1:"Lateral transfer of carbon into (positive) or out of (negative) a grid cell.", 2:"lateral_carbon_transfer_over_land[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1665 data[1662] = { "id":1662, 0:"vegHeight", 1:"Vegetation height averaged over all vegetation types and over the vegetated fraction of a grid cell.", 2:"vegetation_height[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1666 data[1663] = { "id":1663, 0:"vegHeightTree", 1:"Vegetation height averaged over the tree fraction of a grid cell.", 2:"tree_vegetation_height[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1667 data[1664] = { "id":1664, 0:"vegHeightGrass", 1:"Vegetation height averaged over the grass fraction of a grid cell.", 2:"grass_vegetation_height[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1668 data[1665] = { "id":1665, 0:"vegHeightShrub", 1:"Vegetation height averaged over the shrub fraction of a grid cell.", 2:"shrub_vegetation_height[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1669 data[1666] = { "id":1666, 0:"vegHeightCrop", 1:"Vegetation height averaged over the crop fraction of a grid cell.", 2:"crop_vegetation_height[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1670 data[1667] = { "id":1667, 0:"wetlandFrac", 1:"Fraction of a grid cell covered by wetland.", 2:"wetland_fraction[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1671 data[1668] = { "id":1668, 0:"c14Veg", 1:"Mass of 14C in Vegetation", 2:"vegetation_c14_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1672 data[1669] = { "id":1669, 0:"c14Litter", 1:"Mass of 14C in Litter Pool", 2:"litter_c14_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1673 data[1670] = { "id":1670, 0:"c14Soil", 1:"Mass of 14C in Soil Pool", 2:"soil_c14_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1674 data[1671] = { "id":1671, 0:"c14Land", 1:"Mass of 14C in all terrestrial carbon pools", 2:"total_land_c14[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1675 data[1672] = { "id":1672, 0:"c13Veg", 1:"Mass of 13C in Vegetation", 2:"vegetation_c13_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1676 data[1673] = { "id":1673, 0:"c13Litter", 1:"Mass of 13C in Litter Pool", 2:"litter_c13_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1677 data[1674] = { "id":1674, 0:"c13Soil", 1:"Mass of 13C in Soil Pool", 2:"soil_c13_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1678 data[1675] = { "id":1675, 0:"c13Land", 1:"Mass of 13C in all terrestrial carbon pools", 2:"total_land_c13[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1679 data[1676] = { "id":1676, 0:"nVeg", 1:"Nitrogen Mass in Vegetation", 2:"vegetation_nitrogen_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1680 data[1677] = { "id":1677, 0:"nLitter", 1:"Nitrogen Mass in Litter Pool", 2:"litter_nitrogen_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1681 data[1678] = { "id":1678, 0:"nSoil", 1:"Nitrogen Mass in Soil Pool", 2:"soil_nitrogen_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1682 data[1679] = { "id":1679, 0:"nProduct", 1:"Nitrogen Mass in Products of Land Use Change", 2:"nitrogen_content_of_products_of_anthropogenic_land_use_change[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1683 data[1680] = { "id":1680, 0:"nLand", 1:"Total nitrogen in all terrestrial nitrogen pools", 2:"total_land_nitrogen[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1684 data[1681] = { "id":1681, 0:"wetlandCH4", 1:"Grid averaged methane emissions from wetlands", 2:"wetland_methane_emissions[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1685 data[1682] = { "id":1682, 0:"gpp_c14", 1:"Mass Flux of 14C out of Atmosphere due to Gross Primary Production on Land", 2:"gross_primary_productivity_of_c14[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1686 data[1683] = { "id":1683, 0:"ra_c14", 1:"Mass Flux of 14C into Atmosphere due to Autotrophic (Plant) Respiration on Land", 2:"plant_respiration_c14_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1687 data[1684] = { "id":1684, 0:"rh_c14", 1:"Mass Flux of 14C into Atmosphere due to Heterotrophic Respiration on Land", 2:"heterotrophic_respiration_c14_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1688 data[1685] = { "id":1685, 0:"netAtmosLandC14Flux", 1:"Net Mass Flux of 14C between atmosphere and land (positive into land) as a result of all processes.", 2:"net_atmos_to_land_C14_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1689 data[1686] = { "id":1686, 0:"gpp_c13", 1:"Mass Flux of 13C out of Atmosphere due to Gross Primary Production on Land", 2:"gross_primary_productivity_of_c13[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1690 data[1687] = { "id":1687, 0:"ra_c13", 1:"Mass Flux of 13C into Atmosphere due to Autotrophic (Plant) Respiration on Land", 2:"plant_respiration_c13_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1691 data[1688] = { "id":1688, 0:"rh_c13", 1:"Mass Flux of 13C into Atmosphere due to Heterotrophic Respiration on Land", 2:"heterotrophic_respiration_c13_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1692 data[1689] = { "id":1689, 0:"netAtmosLandC13Flux", 1:"Net Mass Flux of 13C between atmosphere and land (positive into land) as a result of all processes.", 2:"net_atmos_to_land_C13_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1693 data[1690] = { "id":1690, 0:"fNleach", 1:"Total N loss to leaching or runoff (sum of ammonium, nitrite and nitrate)", 2:"land_nitrogen_lost_to_leaching[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1694 data[1691] = { "id":1691, 0:"fNgas", 1:"Total N lost to the atmosphere (sum of NHx, NOx, N2O, N2)", 2:"land_nitrogen_lost_to_atmosphere[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1695 data[1692] = { "id":1692, 0:"fN2O", 1:"Total land N2O flux ", 2:"land_net_n2o_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1696 data[1693] = { "id":1693, 0:"fNdep_ox", 1:"dry and wet deposition of oxidised reactive nitrogen onto land", 2:"deposition_of_oxidised_nitrogen_onto_land[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1697 data[1694] = { "id":1694, 0:"fNdep_red", 1:"dry and wet deposition of reduced reactive nitrogen onto land", 2:"deposition_of_reduced_nitrogen_onto_land[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1698 data[1695] = { "id":1695, 0:"fBNF_symb", 1:"symbiontic biological nitrogen fixation", 2:"symbiontic_biological_nitrogen_fixation[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1699 data[1696] = { "id":1696, 0:"fBNF_asymb", 1:"asymbiontic biological nitrogen fixation", 2:"asymbiontic_biological_nitrogen_fixation[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1700 data[1697] = { "id":1697, 0:"fNup", 1:"total plant nitrogen uptake (sum of ammonium and nitrate), irrespective of the source of nitrogen", 2:"plant_nitrogen_uptake[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1701 data[1698] = { "id":1698, 0:"fNnetmin", 1:"Net nitrogen release from soil and litter as the outcome of nitrogen immobilisation and gross mineralisation", 2:"net_nitrogen_mineralisation[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1702 data[1699] = { "id":1699, 0:"fric", 1:"Downward Inorganic Carbon Flux at Ocean Bottom", 2:"tendency_of_ocean_mole_content_of_inorganic_carbon_due_to_sedimentation[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1703 data[1700] = { "id":1700, 0:"froc", 1:"Downward Organic Carbon Flux at Ocean Bottom", 2:"tendency_of_ocean_mole_content_of_organic_carbon_due_to_sedimentation[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1704 data[1701] = { "id":1701, 0:"limndiat", 1:"Nitrogen limitation of Diatoms", 2:"nitrogen_limitation_of_diatoms[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1705 data[1702] = { "id":1702, 0:"limndiaz", 1:"Nitrogen limitation of Diazotrophs", 2:"nitrogen_limitation_of_diazotrophs[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1706 data[1703] = { "id":1703, 0:"limncalc", 1:"Nitrogen limitation of Calcareous Phytoplankton", 2:"nitrogen_limitation_of_calcareous_phytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1707 data[1704] = { "id":1704, 0:"limnpico", 1:"Nitrogen limitation of Picophytoplankton", 2:"nitrogen_limitation_of_picophytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1708 data[1705] = { "id":1705, 0:"limnmisc", 1:"Nitrogen Limitation of Other Phytoplankton", 2:"nitrogen_limitation_of_miscellaneous_phytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1709 data[1706] = { "id":1706, 0:"limirrdiat", 1:"Irradiance limitation of Diatoms", 2:"irradiance_limitation_of_diatoms[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1710 data[1707] = { "id":1707, 0:"limirrdiaz", 1:"Irradiance limitation of Diazotrophs", 2:"irradiance_limitation_of_diazotrophs[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1711 data[1708] = { "id":1708, 0:"limirrcalc", 1:"Irradiance limitation of Calcareous Phytoplankton", 2:"irradiance_limitation_of_calcareous_phytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1712 data[1709] = { "id":1709, 0:"limirrpico", 1:"Irradiance limitation of Picophytoplankton", 2:"irradiance_limitation_of_picophytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1713 data[1710] = { "id":1710, 0:"limirrmisc", 1:"Irradiance Limitation of Other Phytoplankton", 2:"irradiance_limitation_of_miscellaneous_phytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1714 data[1711] = { "id":1711, 0:"limfediat", 1:"Iron limitation of Diatoms", 2:"iron_limitation_of_diatoms[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1715 data[1712] = { "id":1712, 0:"limfediaz", 1:"Iron limitation of Diazotrophs", 2:"iron_limitation_of_diazotrophs[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1716 data[1713] = { "id":1713, 0:"limfecalc", 1:"Iron limitation of Calcareous Phytoplankton", 2:"iron_limitation_of_calcareous_phytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1717 data[1714] = { "id":1714, 0:"limfepico", 1:"Iron limitation of Picophytoplankton", 2:"iron_limitation_of_picophytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1718 data[1715] = { "id":1715, 0:"limfemisc", 1:"Iron Limitation of Other Phytoplankton", 2:"iron_limitation_of_miscellaneous_phytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1719 data[1716] = { "id":1716, 0:"dissi14c", 1:"Concentration of DI14C", 2:"mole_concentration_of_dissolved_inorganic_c14_in_sea_water[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1720 data[1717] = { "id":1717, 0:"fg14co2", 1:"Total air-sea flux of 14CO2", 2:"air_sea_flux_of_14CO2[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1721 data[1718] = { "id":1718, 0:"dissi13c", 1:"Concentration of DI13C", 2:"mole_concentration_of_dissolved_inorganic_c13_in_sea_water[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1722 data[1719] = { "id":1719, 0:"fg13co2", 1:"Total air-sea flux of 13CO2", 2:"air_sea_flux_of_13CO2[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }; 1723 data[1720] = { "id":1720, 0:"intuaw", 1:"Vertically integrated Eastward moisture transport (Mass_weighted_vertical integral of the product of eastward wind by total water mass per unit mass)", 2:"vertical_integral_eastward_wind_by_total_water[-1.0]", 3:"Used in PMIP2", 4:"CMIP6[PMIP]" }; 1724 data[1721] = { "id":1721, 0:"intvaw", 1:"Vertically integrated Northward moisture transport (Mass_weighted_vertical integral of the product of northward wind by total water mass per unit mass)", 2:"vertical_integral_northward_wind_by_total_water[-1.0]", 3:"Used in PMIP2", 4:"CMIP6[PMIP]" }; 1725 data[1722] = { "id":1722, 0:"intuadse", 1:"Vertically integrated Eastward dry transport (cp.T +zg).u (Mass_weighted_vertical integral of the product of northward wind by dry static_energy per mass unit)", 2:"vertical_integral_eastward_wind_by_dry_static_energy[-1.0]", 3:"Used in PMIP2", 4:"CMIP6[PMIP]" }; 1726 data[1723] = { "id":1723, 0:"intvadse", 1:"Vertically integrated Northward dry transport (cp.T +zg).v (Mass_weighted_vertical integral of the product of northward wind by dry static_energy per mass unit)", 2:"vertical_integral_northward_wind_by_dry_static_energy[-1.0]", 3:"Used in PMIP2", 4:"CMIP6[PMIP]" }; 1727 data[1724] = { "id":1724, 0:"albdiff", 1:"Aerosol level extinction for band", 2:"band_diffuse_albedo[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }; 1728 data[1725] = { "id":1725, 0:"albdir", 1:"Aerosol level single-scattering albedo for band", 2:"band_direct_albedo[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }; 1729 data[1726] = { "id":1726, 0:"sol", 1:"Top-of-Atmosphere Solar Insolation in band", 2:"band_solar_insolation[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }; 1730 data[1727] = { "id":1727, 0:"aerext", 1:"Aerosol level extinction resolved for each band", 2:"band_aerosol_extinction[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }; 1731 data[1728] = { "id":1728, 0:"aerssa", 1:"Aerosol level single-scattering albedo for each band", 2:"band_aerosol_single_scattering_albedo[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }; 1732 data[1729] = { "id":1729, 0:"aerasym", 1:"Aerosol level asymmetry parameter for each band", 2:"band_aerosol_asymmetry_parameter[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }; 1733 data[1730] = { "id":1730, 0:"rsutcc", 1:"TOA Outgoing Clean-Clear-Sky Shortwave Radiation", 2:"toa_outgoing_shortwave_flux_assuming_clean_clear_sky[-1.0]", 3:"Calculated in the absence of aerosols and clouds.", 4:"CMIP6[RFMIP]" }; 1734 data[1731] = { "id":1731, 0:"rsdscc", 1:"Surface Downwelling Clean-Clear-Sky Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air_assuming_clean_clear_sky[-1.0]", 3:"Calculated in the absence of aerosols and clouds.", 4:"CMIP6[RFMIP]" }; 1735 data[1732] = { "id":1732, 0:"rsuscc", 1:"Surface Upwelling Clean-Clear-Sky Shortwave Radiation", 2:"surface_upwelling_shortwave_flux_in_air_assuming_clean_clear_sky[-1.0]", 3:"Calculated in the absence of aerosols and clouds.", 4:"CMIP6[RFMIP]" }; 1736 data[1733] = { "id":1733, 0:"sitimefrac", 1:"Fraction of time steps with sea ice", 2:"sea_ice_time_fraction[-1.0]", 3:"Fraction of time steps of the averaging period during which sea ice is present (siconc >0 ) in a grid cell ", 4:"CMIP6[SIMIP]" }; 1737 data[1734] = { "id":1734, 0:"siitdconc", 1:"Sea-ice area fractions in thickness categories", 2:"sea_ice_area_fraction_over_categories[-1.0]", 3:"Area fraction of grid cell covered by each ice-thickness category (vector with one entry for each thickness category starting from the thinnest category, netcdf file should use thickness bounds of the categories as third coordinate axis)", 4:"CMIP6[SIMIP]" }; 1738 data[1735] = { "id":1735, 0:"siitdthick", 1:"Sea-ice thickness in thickness categories", 2:"sea_ice_thickness_over_categories[-1.0]", 3:"Actual (floe) thickness of sea ice in each category (NOT volume divided by grid area), (vector with one entry for each thickness category starting from the thinnest category, netcdf file should use thickness bounds of categories as third coordinate axis)", 4:"CMIP6[SIMIP]" }; 1739 data[1736] = { "id":1736, 0:"siitdsnconc", 1:"Snow area fractions in thickness categories", 2:"snow_area_fraction_over_categories[-1.0]", 3:"Area fraction of grid cell covered by snow in each ice-thickness category (vector with one entry for each thickness category starting from the thinnest category, netcdf file should use thickness bounds of the categories as third coordinate axis)", 4:"CMIP6[SIMIP]" }; 1740 data[1737] = { "id":1737, 0:"siitdsnthick", 1:"Snow thickness in thickness categories", 2:"snow_thickness_over_categories[-1.0]", 3:"Actual thickness of snow in each category (NOT volume divided by grid area), (vector with one entry for each thickness category starting from the thinnest category, netcdf file should use thickness bounds of categories as third coordinate axis)", 4:"CMIP6[SIMIP]" }; 1741 data[1738] = { "id":1738, 0:"sitempsnic", 1:"Temperature at snow-ice interface", 2:"snow_sea_ice_interface_temperature[-1.0]", 3:"Report surface temperature of ice where snow thickness is zero", 4:"CMIP6[SIMIP]" }; 1742 data[1739] = { "id":1739, 0:"sitempbot", 1:"Temperature at ice-ocean interface", 2:"sea_ice_bottom_temperature[-1.0]", 3:"Report temperature at interface, NOT temperature within lowermost model layer", 4:"CMIP6[SIMIP]" }; 1743 data[1740] = { "id":1740, 0:"sisaltmass", 1:"Mass of salt in sea ice per area", 2:"sea_ice_salt_mass[-1.0]", 3:"Total mass of all salt in sea ice divided by grid-cell area", 4:"CMIP6[SIMIP]" }; 1744 data[1741] = { "id":1741, 0:"simpconc", 1:"Meltpond area fraction", 2:"melt_pond_fraction[-1.0]", 3:"Area fraction of grid cell that is covered by melt ponds", 4:"CMIP6[SIMIP]" }; 1745 data[1742] = { "id":1742, 0:"simpthick", 1:"Meltpond depth", 2:"melt_pond_depth[-1.0]", 3:"Volume of water in meltponds divided by meltpond covered area", 4:"CMIP6[SIMIP]" }; 1746 data[1743] = { "id":1743, 0:"simprefrozen", 1:"Thickness of refozen ice on melt pond", 2:"melt_pond_refrozen_ice[-1.0]", 3:"Volume of refrozen ice on melt ponds divided by meltpond covered area", 4:"CMIP6[SIMIP]" }; 1747 data[1744] = { "id":1744, 0:"sirdgconc", 1:"Ridged ice area fraction", 2:"fraction_of_ridged_sea_ice[-1.0]", 3:"Area fraction of grid cell covered by ridged sea ice", 4:"CMIP6[SIMIP]" }; 1748 data[1745] = { "id":1745, 0:"sirdgthick", 1:"Ridged ice thickness", 2:"thickness_of_ridged_sea_ice[-1.0]", 3:"Total volume of ridged sea ice divided by area of ridges", 4:"CMIP6[SIMIP]" }; 1749 data[1746] = { "id":1746, 0:"sidmassth", 1:"sea-ice mass change from thermodynamics", 2:"tendency_of_sea_ice_amount_due_to_thermodynamics[-1.0]", 3:"Total change in sea-ice mass from thermodynamic processes divided by grid-cell area", 4:"CMIP6[SIMIP]" }; 1750 data[1747] = { "id":1747, 0:"sidmassdyn", 1:"sea-ice mass change from dynamics", 2:"tendency_of_sea_ice_amount_due_to_dynamics[-1.0]", 3:"Total change in sea-ice mass through dynamics-related processes (advection,...) divided by grid-cell area", 4:"CMIP6[SIMIP]" }; 1751 data[1748] = { "id":1748, 0:"sidmassgrowthwat", 1:"sea-ice mass change through growth in supercooled open water (aka frazil)", 2:"tendency_of_sea_ice_amount_due_to_freezing_in_open_water[-1.0]", 3:"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 ", 4:"CMIP6[SIMIP]" }; 1752 data[1749] = { "id":1749, 0:"sidmasslat", 1:"Lateral sea ice melt rate", 2:"tendency_of_sea_ice_amount_due_to_lateral_melting[-1.0]", 3:"The rate of change of sea ice mass through lateral melting divided by grid-cell area (report 0 if not explicitly calculated thermodynamically)", 4:"CMIP6[SIMIP]" }; 1753 data[1750] = { "id":1750, 0:"sndmasssubl", 1:"snow mass change through evaporation or sublimation", 2:"surface_snow_sublimation_flux[-1.0]", 3:"the rate of change of snow mass through sublimation and evaporation divided by grid-cell area", 4:"CMIP6[SIMIP]" }; 1754 data[1751] = { "id":1751, 0:"sndmassdyn", 1:"snow mass change through advection by sea-ice dynamics", 2:"tendency_of_snow_mass_due_to_sea_ice_dynamics[-1.0]", 3:"the rate of change of snow mass through advection with sea ice divided by grid-cell area", 4:"CMIP6[SIMIP]" }; 1755 data[1752] = { "id":1752, 0:"sndmasssi", 1:"snow mass change through snow-to-ice conversion", 2:"tendency_of_snow_mass_due_to_snow_to_ice_conversion[-1.0]", 3:"the rate of change of snow mass due to transformation of snow to sea ice divided by grid-cell area", 4:"CMIP6[SIMIP]" }; 1756 data[1753] = { "id":1753, 0:"sndmasswindrif", 1:"snow mass change through wind drift of snow", 2:"tendency_of_snow_mass_due_to_drifting_snow[-1.0]", 3:"the rate of change of snow mass through wind drift of snow divided by grid-cell area", 4:"CMIP6[SIMIP]" }; 1757 data[1754] = { "id":1754, 0:"siflswdbot", 1:"Downwelling shortwave flux under sea ice", 2:"bottom_downwelling_shortwave_flux_into_ocean[-1.0]", 3:"the downwelling shortwave flux underneath sea ice (always positive)", 4:"CMIP6[SIMIP]" }; 1758 data[1755] = { "id":1755, 0:"siflsensupbot", 1:"Net sensible heat flux under sea ice", 2:"ice_ocean_heat_flux[-1.0]", 3:"the net sensible heat flux under sea ice from the ocean", 4:"CMIP6[SIMIP]" }; 1759 data[1756] = { "id":1756, 0:"siflcondtop", 1:"Net conductive heat flux in ice at the surface", 2:"conductive_heat_flux_at_sea_ice_surface[-1.0]", 3:"the net heat conduction flux at the ice surface", 4:"CMIP6[SIMIP]" }; 1760 data[1757] = { "id":1757, 0:"siflcondbot", 1:"Net conductive heat fluxes in ice at the bottom", 2:"conductive_heat_flux_at_sea_ice_bottom[-1.0]", 3:"the net heat conduction flux at the ice base ", 4:"CMIP6[SIMIP]" }; 1761 data[1758] = { "id":1758, 0:"siflsaltbot", 1:"Salt flux from sea ice", 2:"salt_flux_from_ice[-1.0]", 3:"Total flux of salt from water into sea ice divided by grid-cell area; salt flux is upward (negative) during ice growth when salt is embedded into the ice and downward (positive) during melt when salt from sea ice is again released to the ocean", 4:"CMIP6[SIMIP]" }; 1762 data[1759] = { "id":1759, 0:"siflfwbot", 1:"Freshwater flux from sea ice", 2:"freshwater_flux_from_ice[-1.0]", 3:"Total flux of fresh water from water into sea ice divided by grid-cell area; This flux is negative during ice growth (liquid water mass decreases, hence upward flux of freshwater), positive during ice melt (liquid water mass increases, hence downward flux of freshwater)", 4:"CMIP6[SIMIP]" }; 1763 data[1760] = { "id":1760, 0:"sistrxubot", 1:"X-component of ocean stress on sea ice", 2:"sea_ice_base_upward_x_stress[-1.0]", 3:"X-component of ocean stress on sea ice ", 4:"CMIP6[SIMIP]" }; 1764 data[1761] = { "id":1761, 0:"sistryubot", 1:"Y-component of ocean stress on sea ice", 2:"sea_ice_base_upward_y_stress[-1.0]", 3:"Y-component of ocean stress on sea ice ", 4:"CMIP6[SIMIP]" }; 1765 data[1762] = { "id":1762, 0:"sidragbot", 1:"Ocean drag coefficient", 2:"surface_drag_coefficient_for_momentum_in_water[-1.0]", 3:"Oceanic drag coefficient that is used to calculate the oceanic momentum drag on sea ice", 4:"CMIP6[SIMIP]" }; 1766 data[1763] = { "id":1763, 0:"siforcetiltx", 1:"Sea-surface tilt term in force balance (x-component)", 2:"sea_surface_tilt_force_on_sea_ice_x[-1.0]", 3:"X-component of force on sea ice caused by sea-surface tilt", 4:"CMIP6[SIMIP]" }; 1767 data[1764] = { "id":1764, 0:"siforcetilty", 1:"Sea-surface tilt term in force balance (y-component)", 2:"sea_surface_tilt_force_on_sea_ice_y[-1.0]", 3:"Y-component of force on sea ice caused by sea-surface tilt", 4:"CMIP6[SIMIP]" }; 1768 data[1765] = { "id":1765, 0:"siforcecoriolx", 1:"Coriolis force term in force balance (x-component)", 2:"coriolis_force_on_sea_ice_x[-1.0]", 3:"X-component of force on sea ice caused by coriolis force", 4:"CMIP6[SIMIP]" }; 1769 data[1766] = { "id":1766, 0:"siforcecorioly", 1:"Coriolis force term in force balance (y-component)", 2:"coriolis_force_on_sea_ice_y[-1.0]", 3:"Y-component of force on sea ice caused by coriolis force", 4:"CMIP6[SIMIP]" }; 1770 data[1767] = { "id":1767, 0:"siforceintstrx", 1:"Internal stress term in force balance (x-component)", 2:"internal_stress_in_sea_ice_x[-1.0]", 3:"X-component of force on sea ice caused by internal stress (divergence of sigma)", 4:"CMIP6[SIMIP]" }; 1771 data[1768] = { "id":1768, 0:"siforceintstry", 1:"Internal stress term in force balance (y-component)", 2:"internal_stress_in_sea_ice_y[-1.0]", 3:"Y-component of force on sea ice caused by internal stress (divergence of sigma)", 4:"CMIP6[SIMIP]" }; 1772 data[1769] = { "id":1769, 0:"sistresave", 1:"Average normal stress in sea ice", 2:"average_normal_stress[-1.0]", 3:"Average normal stress in sea ice (first stress invariant)", 4:"CMIP6[SIMIP]" }; 1773 data[1770] = { "id":1770, 0:"sistremax", 1:"Maximum shear stress in sea ice", 2:"maximum_shear_stress[-1.0]", 3:"Maximum shear stress in sea ice (second stress invariant)", 4:"CMIP6[SIMIP]" }; 1774 data[1771] = { "id":1771, 0:"sishevel", 1:"Maximum shear of sea-ice velocity field", 2:"maximum_shear_of_sea_ice_velocity[-1.0]", 3:"Maximum shear of sea-ice velocity field (second shear strain invariant)", 4:"CMIP6[SIMIP]" }; 1775 data[1772] = { "id":1772, 0:"simassacrossline", 1:"Sea ice mass flux through straits", 2:"sea_ice_mass_transport_across_line[-1.0]", 3:"net (sum of transport in all directions) sea ice mass transport through the following four passages, positive into the Arctic Ocean;;1. Fram Strait = (11.5oW,81.3oN to (10.5oE,79.6oN);;2. Canadian Archipelego = (128.2oW,70.6oN) to (59.3oW,82.1oN);;3. Barents opening = (16.8oE,76.5oN) to (19.2oE,70.2oN) ;;4. Bering Strait = (171oW,66.2oN) to (166oW,65oN)", 4:"CMIP6[SIMIP]" }; 1776 data[1773] = { "id":1773, 0:"siareaacrossline", 1:"Sea ice area flux through straits", 2:"sea_ice_area_transport_across_line[-1.0]", 3:"net (sum of transport in all directions) sea ice area transport through the following four passages, positive into the Arctic Ocean;;1. Fram Strait = (11.5oW,81.3oN to (10.5oE,79.6oN);;2. Canadian Archipelego = (128.2oW,70.6oN) to (59.3oW,82.1oN);;3. Barents opening = (16.8oE,76.5oN) to (19.2oE,70.2oN) ;;4. Bering Strait = (171oW,66.2oN) to (166oW,65oN)", 4:"CMIP6[SIMIP]" }; 1777 data[1774] = { "id":1774, 0:"j_o2", 1:"photoloysis rate of O2", 2:"not yet defined[-1.0]", 3:"rate of o2 -> o1d+o", 4:"CMIP6[SolarMIP]" }; 1778 data[1775] = { "id":1775, 0:"j_o3", 1:"photoloysis rate of O3", 2:"not yet defined[-1.0]", 3:"sum of rates o3 -> o1d+o2 and o3 -> o+o2", 4:"CMIP6[SolarMIP]" }; 1779 data[1776] = { "id":1776, 0:"ox_prod", 1:"total Ox production rate", 2:"not yet defined[-1.0]", 3:"total production rate of o+o1d+o3 including o2 photolysis and all o3 producing reactions", 4:"CMIP6[SolarMIP]" }; 1780 data[1777] = { "id":1777, 0:"ox_loss", 1:"total Ox loss rate", 2:"not yet defined[-1.0]", 3:"total chemical loss rate for o+o1d+o3 ", 4:"CMIP6[SolarMIP]" }; 1781 data[1778] = { "id":1778, 0:"aod550volso4", 1:"aerosol optical depth at 550 um due to stratospheric volcanic aerosols ", 2:"aerosol optical depth at 550 um due to stratospheric volcanic aerosols [-1.0]", 3:"aerosol optical depth at 550 um due to stratospheric volcanic aerosols ", 4:"CMIP6[VolMIP]" }; 1782 data[1779] = { "id":1779, 0:"zmsw_aero", 1:"Zonal mean shortwave heating rate due to volcanic aerosols", 2:"shortwave heating rate due to volcanic aerosols[-1.0]", 3:"shortwave heating rate due to volcanic aerosols to be diagnosed through double radiation call, zonal average values required", 4:"CMIP6[VolMIP]" }; 1783 data[1780] = { "id":1780, 0:"zmlw_aero", 1:"Zonal mean longwave heating rate due to volcanic aerosols", 2:"longwave heating rate due to volcanic aerosols[-1.0]", 3:"longwave heating rate due to volcanic aerosols to be diagnosed through double radiation call, zonal average values required", 4:"CMIP6[VolMIP]" }; 1784 data[1781] = { "id":1781, 0:"sw_sfflux_aero", 1:"shortwave flux due to volcanic aerosols at the surface", 2:"shortwave flux due to volcanic aerosols at the surface[-1.0]", 3:"shortwave flux due to volcanic aerosols at the surface to be diagnosed through double radiation call, zonal average values required", 4:"CMIP6[VolMIP]" }; 1785 data[1782] = { "id":1782, 0:"lw_sfflux_aero", 1:"longwave flux due to volcanic aerosols at the surface", 2:"longwave flux due to volcanic aerosols at the surface[-1.0]", 3:"longwave flux due to volcanic aerosols at the surface to be diagnosed through double radiation call, zonal average values required", 4:"CMIP6[VolMIP]" }; 1786 data[1783] = { "id":1783, 0:"sw-toaflux_aero_cs", 1:"shortwave flux due to volcanic aerosols at TOA under clear sky", 2:"shortwave flux due to volcanic aerosols at TOA under clear sky[-1.0]", 3:"shortwave flux due to volcanic aerosols at TOA under clear sky to be diagnosed through double radiation call, zonal average values required", 4:"CMIP6[VolMIP]" }; 1787 data[1784] = { "id":1784, 0:"lw-toaflux_aero_cs", 1:"longwave flux due to volcanic aerosols at TOA under clear sky", 2:"longwave flux due to volcanic aerosols at TOA under clear sky[-1.0]", 3:"longwave flux due to volcanic aerosols at TOA under clear sky to be diagnosed through double radiation call, zonal average values required", 4:"CMIP6[VolMIP]" }; 1503 1788 return data; 1504 1789 };
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