Nanopublications

Matches in Nanopublications for { ?s <http://w3id.org/ro/earth-science#Sentence> ?o ?g. }

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489c9359-2c33-4600-9cbd-00cd31d662cf Sentence "Simulation of NorESM1-ME: historical, spin-up, and future scenario runs" assertion.
489c9359-2c33-4600-9cbd-00cd31d662cf Sentence "NorESM1-ME interactive DMS." assertion.
fa7ac5c7-1614-496b-a701-ca3bd104ba7f Sentence "Anticyclones detected as masks from the daily 500-hPa geopotential (Wernli and Schwierz 2006)" assertion.
fa7ac5c7-1614-496b-a701-ca3bd104ba7f Sentence "Blocking/RWB/Anticyclones - HAPPI." assertion.
fa7ac5c7-1614-496b-a701-ca3bd104ba7f Sentence "Anticyclones are detected only for the Present (All-Hist) experiment." assertion.
31be4b50-8107-409b-9e76-5c3835106a3b Sentence "Shapefiles can be loaded in different types of Geographic Information systems and other geological and geographical tools." assertion.
31be4b50-8107-409b-9e76-5c3835106a3b Sentence "This data set contains a set of shapefiles outlining the subsurface geology of NW Europe for structures and strata of Late-Carboniferous to Permian age." assertion.
31be4b50-8107-409b-9e76-5c3835106a3b Sentence "Late Carboniferous-Permian of NW Europe: an introduction to a new regional map." assertion.
be04f63a-b689-441c-92ee-c7ab40db14e8 Sentence "Irradiance datasets collected from spectrometers on board a UAS flying from Summit, Greenland Aug 5 and 6, 2010." assertion.
be04f63a-b689-441c-92ee-c7ab40db14e8 Sentence "VAUUAV Irradiance over Summit, Greenland." assertion.
26fbf4cd-cf72-434e-bed0-7dd96ff3eb7a Sentence "Stensola2012." assertion.
26fbf4cd-cf72-434e-bed0-7dd96ff3eb7a Sentence "This dataset contains data prsented in the paper doi:10.1038/nature11649." assertion.
26fbf4cd-cf72-434e-bed0-7dd96ff3eb7a Sentence "To use the dataset you should follow the guidelines in the README contained within the dataset." assertion.
6da93796-f794-4cb5-a2f5-14ad7fbe32cb Sentence "As part of the "KROP - Kongsfjorden Rijpfjorden Observatory Programme" UiT The Arctic University of Norway and The Scottish Association for Marine Science maintain marine observatories (moorings) in two high-Arctic fjords in Svalbard: Kongsfjorden and Rijpfjorden." assertion.
6da93796-f794-4cb5-a2f5-14ad7fbe32cb Sentence "This dataset contains the CTD, PAR and fluorescence data from Rijpfjorden 2017-2018." assertion.
6da93796-f794-4cb5-a2f5-14ad7fbe32cb Sentence "The observatory layout is available in the mooring diagram provided." assertion.
c568fad1-a501-475e-913b-f92a219e5bac Sentence "The equations for the picture-to-E(PAR) conversion can be found in: Johnsen et al 2021, An all-sky camera system providing high temporal resolution annual time-series of irradiance in the Arctic, Applied Optics." assertion.
c568fad1-a501-475e-913b-f92a219e5bac Sentence "UiT The Arctic University of Norway (UiT) and the Norwegian University of Science and Technology (NTNU) established a light observatory at Kings Bay, Ny-Ålesund (Svalbard, Norway) in January 2017." assertion.
c568fad1-a501-475e-913b-f92a219e5bac Sentence "Time series (2019) of irradiance in the PAR (photosynthetically active radiation) region measured under the dome of a light observatory in the Arctic (Ny-Ålesund, Svalbard, Norway) derived from SLR camera." assertion.
1e016568-086c-4af1-90d8-13ff3006e5e0 Sentence "ice tracker data." assertion.
1e016568-086c-4af1-90d8-13ff3006e5e0 Sentence "GPS data of ice tracker (Oceanetic Measurements Ltd,Cannada) deployed on drifting ice on Spitsbergen Bank." assertion.
1e016568-086c-4af1-90d8-13ff3006e5e0 Sentence "Later after ice melting the tracker was floating and transmitting data." assertion.
0e0d1f22-1bcc-494a-91fc-08a9612777fb Sentence "The simulated ocean circulation contains many of the observed currents in the world, like the Antarctic Circumpolar Current (ACC) the Kuroshio Current, the" assertion.
0e0d1f22-1bcc-494a-91fc-08a9612777fb Sentence "The thermally driven large-scale ocean circulation is studied." assertion.
0e0d1f22-1bcc-494a-91fc-08a9612777fb Sentence "We obtain a steady state ocean circulation by running the time-dependent, nonlinear model to equi- librium using restoring boundary conditions on surface temperature." assertion.
0c794e71-1fd2-4282-97cd-179f144cb71d Sentence "The simulated ocean circulation contains many of the observed currents in the world, like the Antarctic Circumpolar Current (ACC) the Kuroshio Current, the" assertion.
0c794e71-1fd2-4282-97cd-179f144cb71d Sentence "The thermally driven large-scale ocean circulation is studied." assertion.
0c794e71-1fd2-4282-97cd-179f144cb71d Sentence "We obtain a steady state ocean circulation by running the time-dependent, nonlinear model to equilibrium using restoring boundary conditions on surface temperature." assertion.
0e00a442-e695-466c-b3a7-24c9c8d55a80 Sentence "The simulated ocean circulation contains many of the observed currents in the world, like the Antarctic Circumpolar Current (ACC) the Kuroshio Current, the" assertion.
0e00a442-e695-466c-b3a7-24c9c8d55a80 Sentence "The thermally driven large-scale ocean circulation is studied." assertion.
0e00a442-e695-466c-b3a7-24c9c8d55a80 Sentence "We obtain a steady state ocean circulation by running the time-dependent, nonlinear model to equilibrium using restoring boundary conditions on surface temperature." assertion.
bb5e0842-f9f8-42d8-9fdf-1c7b2920fe73 Sentence "Norwegian Climate Prediction Model reanalysis with assimilation of SST anomaly: 1950-2010." assertion.
bb5e0842-f9f8-42d8-9fdf-1c7b2920fe73 Sentence "(Wang et al. 2016) The full state is updated (u,v,dp,temp,saln,uflx,vflx,outfox,vtflx,usflx,vsflx,pb,ub,vb,ubflx,vbflx,ubflxs,vbflxs,ubcors_p,vbcorhs_p,phi,sealv,ustar,buoyfl) 1 time level (e.g. temp from 1 to 53 and pb from 1 to 1) The observation error variance is inflated by a factor of 8 and gradually decreased over 5 assimilation cycles (5 months) The observations are the SST ensemble mean (10 members) from HadISST2.1.0.0, and the observation error variance is the ensemble spread." assertion.
bb5e0842-f9f8-42d8-9fdf-1c7b2920fe73 Sentence "The Norwegian Climate Prediction model combines the Norwegian Earth System Model version 1 (medium resolution) with the Ensemble Kalman Filter data assimilation method. netcdf 4 format." assertion.
4c1c7afc-a72c-4024-9bb4-15af924607df Sentence "A tale of two damaging convective storms during the record-breaking Norwegian summer of 2014." assertion.
4c1c7afc-a72c-4024-9bb4-15af924607df Sentence "This dataset includes grib files from the operational model used for the simulation of large scale atmospheric flow, satellite images, LAGRANTO trajectory calculation and grib files from ERA-Interim for anomaly calculation." assertion.
b2bd4aba-f097-4962-9b9e-74bd417ba59d Sentence "This dataset contains results from WRF3.6.1 with and without sub-grid snow tiling, described in paper: 10.1175/JHM-D-16-0026.1." assertion.
b2bd4aba-f097-4962-9b9e-74bd417ba59d Sentence "A Tiling Approach to Represent Subgrid Snow Variability in Coupled Land Surface?" assertion.
b2bd4aba-f097-4962-9b9e-74bd417ba59d Sentence "Only surface variables are included from the full year, whereas the full atmosphere is included from spring and summer." assertion.
b1e007e9-fe64-4b79-987d-d6276a965ab5 Sentence "Transport variability of very short-lived substances from the West Indian Ocean to the stratosphere." assertion.
b1e007e9-fe64-4b79-987d-d6276a965ab5 Sentence "This dataset contains the FLEXPART model code, input, and output used in the publication in Journal of Geophysical Research." assertion.
55cecdae-494a-40c3-8c3c-6c3bbc18a5de Sentence "Oxidant impact on indirect effects - Model output from the three simulations with original model setup." assertion.
55cecdae-494a-40c3-8c3c-6c3bbc18a5de Sentence "Mean values for the last three years of the three model simulations with the original model default setup applied in Karset et al. (2018) "Strong impacts on aerosol indirect effects from historical oxidant changes"" assertion.
3267d237-9d14-4cfa-b491-aaaae998b82a Sentence "Improving the reliability and added value of dynamical downscaling via correction of large-scale errors: A Norwegian perspective." assertion.
3267d237-9d14-4cfa-b491-aaaae998b82a Sentence "WRF model data used in the paper "Improving the reliability and added value of dynamical downscaling via correction of large-scale errors: A Norwegian perspective" in review" assertion.
b911ed6b-315f-4c89-8025-a73a1850784b Sentence "Additionally, data for lichen heath from distribution modelling provided by Peter Horvath." assertion.
b911ed6b-315f-4c89-8025-a73a1850784b Sentence "Model runs and inputdata from CLM4.5 runs in Finnmark (with lichen) Inputdata and model runs for CLM4.5, for Finnmark with and without lichen." assertion.
138037d0-b899-43e0-bdeb-410b51407246 Sentence "Size-dependent evaporation and entrainment - Output from main simulations with CAM5.3-Oslo. netCDF files with output from the 8 main simulations in the study" assertion.
c528c084-04ad-4325-99b0-015a23589268 Sentence "Slab ocean q-fluxes are based on runs with relaxation of SST towards the HappiMIP SST datasets for the three different cases (PD, 1p5, 2p0) respectively." assertion.
c528c084-04ad-4325-99b0-015a23589268 Sentence "Data description: Source = CAM; Variables = P0:reference pressure; lat:latitude; lon:longitude; slat:staggered latitude; slon:staggered longitude; w_stag:staggered latitude weights; lev:hybrid level at midpoints (1000* A+B); ilev:hybrid level at interfaces (1000* A+B); isccp_prs:Mean ISCCP pressure; isccp_tau:Mean ISCCP optical depth; isccp_prstau:Mean pressure (mb) mean optical depth (unitless) 1000; time:time; time_bnds:time interval endpoints; ntrm:spectral truncation parameter M; ntrn:spectral truncation parameter N; ntrk:spectral truncation parameter K; ndbase:base day; nsbase:seconds of base day; nbdate:base date (YYYYMMDD); nbsec:seconds of base date; mdt:timestep; nlon:number of longitudes; wnummax:cutoff Fourier wavenumber; hyai:hybrid A coefficient at layer interfaces; hybi:hybrid B coefficient at layer interfaces; hyam:hybrid A coefficient at layer midpoints; hybm:hybrid B coefficient at layer midpoints; gw:gauss weights; ndcur:current day (from base day); nscur:current seconds of current day; date:current date (YYYYMMDD); co2vmr:co2 volume mixing ratio; ch4vmr:ch4 volume mixing ratio; n2ovmr:n2o volume mixing ratio; f11vmr:f11 volume mixing ratio; f12vmr:f12 volume mixing ratio; sol_tsi:total solar irradiance; datesec:current seconds of current date; nsteph:current timestep; ABSVIS:Aerosol absorptive optical depth at 0.35-0.64um; AEROD_v:Total Aerosol Optical Depth in visible band; AKCXS:Scheme excess aerosol mass burden; AODVIS:Aerosol optical depth at 0.35-0.64um; BAK:Aerosol extinction; BC:Concentration; CABSVIS:Clear air aerosol absorptive optical depth; CAODVIS:Clear air aerosol optical depth; CDNC:Cloud Droplet Number Concentration; CDNCINT:Cloud Droplet Number Column; CDNCIX:Aerosol calc cloud droplet number concentration; CLDFOC:Frequency of Warm Cloud Occurence; CLDFREE:Cloud free fraction wrt CAODVIS and CABSVIS; CLDHGH:Vertically-integrated high cloud; CLDICE:Grid box averaged cloud ice amount; CLDLIQ:Grid box averaged cloud liquid amount; CLDLIX:Aerosol calc averaged liquid condensate amount; CLDLOW:Vertically-integrated low cloud; CLDMED:Vertically-integrated mid-level cloud; CLDTOT:Vertically-integrated total cloud; CLOUD:Cloud fraction; CMFDQ:QV tendency - shallow convection; CMFDQR:Q tendency - shallow convection rainout; CMFDT:T tendency - shallow convection; CMFMC:Moist shallow convection mass flux; CMFMCDZM:Convection mass flux from ZM deep; CONCLD:Convective cloud cover; C_BC:Column burden; C_DMS:Column burden; C_DUST:Column burden; C_POM:Column burden; C_SO2:Column burden; C_SO4:Column burden; C_SS:Column burden; DAYFOC:Daylight fraction; DCQ:Q tendency due to moist processes; DMS:DMS; DRY_BC:Dry deposition; DRY_DUST:Dry deposition; DRY_POM:Dry deposition; DRY_SO2:Dry deposition; DRY_SO4:Dry deposition; DRY_SS:Dry deposition; DTCOND:T tendency - moist processes; DTV:T vertical diffusion; DUST:Concentration; EMI_BC:Emissions; EMI_DMS:Emissions; EMI_DUST:Emissions; EMI_POM:Emissions; EMI_SO2:Emissions; EMI_SO4:Emissions; EMI_SS:Emissions; EVAPX:Evaporation of cloud droplets; FICE:Fractional ice content within cloud; FLDS:Downwelling longwave flux at surface; FLDSC:Clearsky downwelling longwave flux at surface; FLNS:Net longwave flux at surface; FLNSC:Clearsky net longwave flux at surface; FLNT:Net longwave flux at top of model; FLNTC:Clearsky net longwave flux at top of model; FLUT:Upwelling longwave flux at top of model; FLUTC:Clearsky upwelling longwave flux at top of model; FOCHANA:Frequency of Occurrence of Clouds with REHANA / 0; FREQSH:Fractional occurance of shallow convection; FREQZM:Fractional occurance of ZM convection; FSDS:Downwelling solar flux at surface; FSDSC:Clearsky downwelling solar flux at surface; FSNS:Net solar flux at surface; FSNSC:Clearsky net solar flux at surface; FSNT:Net solar flux at top of model; FSNTC:Clearsky net solar flux at top of model; FSNTOA:Net solar flux at top of atmosphere; FSNTOAC:Clearsky net solar flux at top of atmosphere; FSUTOA:Upwelling solar flux at top of atmosphere; GCLDLWP:Grid-box cloud water path; ICEFRAC:Fraction of sfc area covered by sea-ice; ICLDIWP:In-cloud ice water path; ICLDTWP:In-cloud cloud total water path (liquid and ice); LANDFRAC:Fraction of sfc area covered by land; LHFLX:Surface latent heat flux; LWCF:Longwave cloud forcing; MSAGA:MSA gas-phase prod; MSKtem:TEM mask; NRAINX:Loss of cloud droplets due to precip; NUCRAT:Nucleation of cloud droplets; N_AER:Aerosol number concentration; OCNFRAC:Fraction of sfc area covered by ocean; OMEGA:Vertical velocity (pressure); OMEGA010:Vertical velocity at 10 mbar pressure surface; OMEGA020:Vertical velocity at 20 mbar pressure surface; OMEGA030:Vertical velocity at 30 mbar pressure surface; OMEGA050:Vertical velocity at 50 mbar pressure surface; OMEGA070:Vertical velocity at 70 mbar pressure surface; OMEGA100:Vertical velocity at 100 mbar pressure surface; OMEGA1000:Vertical velocity at 1000 mbar pressure surface; OMEGA150:Vertical velocity at 150 mbar pressure surface; OMEGA200:Vertical velocity at 200 mbar pressure surface; OMEGA250:Vertical velocity at 250 mbar pressure surface; OMEGA300:Vertical velocity at 300 mbar pressure surface; OMEGA400:Vertical velocity at 400 mbar pressure surface; OMEGA500:Vertical velocity at 500 mbar pressure surface; OMEGA600:Vertical velocity at 600 mbar pressure surface; OMEGA700:Vertical velocity at 700 mbar pressure surface; OMEGA850:Vertical velocity at 850 mbar pressure surface; OMEGA925:Vertical velocity at 925 mbar pressure surface; OMEGAT:Vertical heat flux; PBLH:PBL height; PCONVB:convection base pressure; PCONVT:convection top pressure; PHIS:Surface geopotential; POM:Concentration; PRECC:Convective precipitation rate (liq + ice); PRECCDZM:Convective precipitation rate from ZM deep; PRECL:Large-scale (stable) precipitation rate (liq + ice); PRECSC:Convective snow rate (water equivalent); PRECSH:Shallow Convection precipitation rate; PRECSL:Large-scale (stable) snow rate (water equivalent); PRECT:Total (convective and large-scale) precipitation rate (liq + ice); PS:Surface pressure; PSL:Sea level pressure; Q:Specific humidity; Q010:Specific Humidity at 10 mbar pressure surface; Q020:Specific Humidity at 20 mbar pressure surface; Q030:Specific Humidity at 30 mbar pressure surface; Q050:Specific Humidity at 50 mbar pressure surface; Q070:Specific Humidity at 70 mbar pressure surface; Q100:Specific Humidity at 100 mbar pressure surface; Q1000:Specific Humidity at 1000 mbar pressure surface; Q150:Specific Humidity at 150 mbar pressure surface; Q200:Specific Humidity at 200 mbar pressure surface; Q250:Specific Humidity at 250 mbar pressure surface; Q300:Specific Humidity at 300 mbar pressure surface; Q400:Specific Humidity at 400 mbar pressure surface; Q500:Specific Humidity at 500 mbar pressure surface; Q600:Specific Humidity at 600 mbar pressure surface; Q700:Specific Humidity at 700 mbar pressure surface; Q850:Specific Humidity at 850 mbar pressure surface; Q925:Specific Humidity at 925 mbar pressure surface; QC:Q tendency - shallow convection LW export; QFLX:Surface water flux; QREFHT:Reference height humidity; QRL:Longwave heating rate; QRS:Solar heating rate; R010:Relative Humidity at 10 mbar pressure surface; R020:Relative Humidity at 20 mbar pressure surface; R030:Relative Humidity at 30 mbar pressure surface; R050:Relative Humidity at 50 mbar pressure surface; R070:Relative Humidity at 70 mbar pressure surface; R100:Relative Humidity at 100 mbar pressure surface; R1000:Relative Humidity at 1000 mbar pressure surface; R150:Relative Humidity at 150 mbar pressure surface; R200:Relative Humidity at 200 mbar pressure surface; R250:Relative Humidity at 250 mbar pressure surface; R300:Relative Humidity at 300 mbar pressure surface; R400:Relative Humidity at 400 mbar pressure surface; R500:Relative Humidity at 500 mbar pressure surface; R600:Relative Humidity at 600 mbar pressure surface; R700:Relative Humidity at 700 mbar pressure surface; R850:Relative Humidity at 850 mbar pressure surface; R925:Relative Humidity at 925 mbar pressure surface; REFFL:Effective Radius of Cloud Droplets; REHANA:Effective radius as seen from satellite; RELH:Fictive relative humidity; RELHUM:Relative humidity; RHREFHT:Reference height relative humidity; RHREFHTMN:Minimum reference height relative humidity; S2GA:SO2 gas-phase prod; S4AQ:Sulphate aq.phase prod; S4GA:Sulphate gas-phase prod; SELFX:Selfcollection of cloud droplets; SHFLX:Surface sensible heat flux; SNOWHICE:Water equivalent snow depth; SNOWHLND:Water equivalent snow depth; SO2:SO2; SO4:Concentration; SOLIN:Solar insolation; SOLLD:Solar downward near infrared diffuse to surface; SOLSD:Solar downward visible diffuse to surface; SRFRAD:Net radiative flux at surface; SS:Concentration; SST:sea surface temperature; SUPERSAT:Supersaturation from AGR schem; SWCF:Shortwave cloud forcing; T:Temperature; T010:Temperature at 10 mbar pressure surface; T020:Temperature at 20 mbar pressure surface; T030:Temperature at 30 mbar pressure surface; T050:Temperature at 50 mbar pressure surface; T070:Temperature at 70 mbar pressure surface; T100:Temperature at 100 mbar pressure surface; T1000:Temperature at 1000 mbar pressure surface; T150:Temperature at 150 mbar pressure surface; T200:Temperature at 200 mbar pressure surface; T250:Temperature at 250 mbar pressure surface; T300:Temperature at 300 mbar pressure surface; T400:Temperature at 400 mbar pressure surface; T500:Temperature at 500 mbar pressure surface; T600:Temperature at 600 mbar pressure surface; T700:Temperature at 700 mbar pressure surface; T850:Temperature at 850 mbar pressure surface; T925:Temperature at 925 mbar pressure surface; TAUX:Zonal surface stress; TAUY:Meridional surface stress; TGCLDIWP:Total grid-box cloud ice water path; TGCLDLWP:Total grid-box cloud liquid water path; TGCLDLWX:Offline grid-box cloud liquid water path; TH2d:Zonal-Mean potential temp; TMQ:Total (vertically integrated) precipitatable water; TREFHT:Reference height temperature; TREFMNAV:Average of TREFHT daily minimum; TREFMXAV:Average of TREFHT daily maximum; TROP_P:Tropopause Pressure; TROP_T:Tropopause Temperature; TROP_Z:Tropopause Height; TS:Surface temperature (radiative); TSMN:Minimum surface temperature over output period; TSMX:Maximum surface temperature over output period; U:Zonal wind; U010:Zonal wind at 10 mbar pressure surface; U020:Zonal wind at 20 mbar pressure surface; U030:Zonal wind at 30 mbar pressure surface; U050:Zonal wind at 50 mbar pressure surface; U070:Zonal wind at 70 mbar pressure surface; U10:10m wind speed; U100:Zonal wind at 100 mbar pressure surface; U1000:Zonal wind at 1000 mbar pressure surface; U150:Zonal wind at 150 mbar pressure surface; U200:Zonal wind at 200 mbar pressure surface; U250:Zonal wind at 250 mbar pressure surface; U2d:Zonal-Mean zonal wind; U300:Zonal wind at 300 mbar pressure surface; U400:Zonal wind at 400 mbar pressure surface; U500:Zonal wind at 500 mbar pressure surface; U600:Zonal wind at 600 mbar pressure surface; U700:Zonal wind at 700 mbar pressure surface; U850:Zonal wind at 850 mbar pressure surface; U925:Zonal wind at 925 mbar pressure surface; UAS:Eastward 10m wind; US:Zonal wind, staggered; UTGWORO:U tendency - orographic gravity wave drag; UU:Zonal velocity squared; UV2d:Meridional Flux of Zonal Momentum: 2D prj of zon. mean; UV3d:Meridional Flux of Zonal Momentum: 3D zon. mean; UW2d:Vertical Flux of Zonal Momentum; 2D prj of zon. mean; UW3d:Vertical Flux of Zonal Momentum: 3D zon. mean; V:Meridional wind; V010:Meridional wind at 10 mbar pressure surface; V020:Meridional wind at 20 mbar pressure surface; V030:Meridional wind at 30 mbar pressure surface; V050:Meridional wind at 50 mbar pressure surface; V070:Meridional wind at 70 mbar pressure surface; V100:Meridional wind at 100 mbar pressure surface; V1000:Meridional wind at 1000 mbar pressure surface; V150:Meridional wind at 150 mbar pressure surface; V200:Meridional wind at 200 mbar pressure surface; V250:Meridional wind at 250 mbar pressure surface; V2d:Zonal-Mean meridional wind; V300:Meridional wind at 300 mbar pressure surface; V400:Meridional wind at 400 mbar pressure surface; V500:Meridional wind at 500 mbar pressure surface; V600:Meridional wind at 600 mbar pressure surface; V700:Meridional wind at 700 mbar pressure surface; V850:Meridional wind at 850 mbar pressure surface; V925:Meridional wind at 925 mbar pressure surface; VAS:Northward 10m wind; VD01:Vertical diffusion of Q; VQ:Meridional water transport; VS:Meridional wind, staggered; VT:Meridional heat transport; VTH2d:Meridional Heat Flux: 2D prj of zon. mean; VTH3d:Meridional Heat Flux: 3D zon. mean; VU:Meridional flux of zonal momentum; VV:Meridional velocity squared; W2d:Zonal-Mean vertical wind; WET_BC:Wet deposition; WET_DUST:Wet deposition; WET_POM:Wet deposition; WET_SO2:Wet deposition; WET_SO4:Wet deposition; WET_SS:Wet deposition; WTH3d:Vertical Heat Flux: 3D zon. mean; Z010:Geopotential Z at 10 mbar pressure surface; Z020:Geopotential Z at 20 mbar pressure surface; Z030:Geopotential Z at 30 mbar pressure surface; Z050:Geopotential Z at 50 mbar pressure surface; Z070:Geopotential Z at 70 mbar pressure surface; Z100:Geopotential Z at 100 mbar pressure surface; Z1000:Geopotential Z at 1000 mbar pressure surface; Z150:Geopotential Z at 150 mbar pressure surface; Z200:Geopotential Z at 200 mbar pressure surface; Z250:Geopotential Z at 250 mbar pressure surface; Z3:Geopotential Height (above sea level); Z300:Geopotential Z at 300 mbar pressure surface; Z400:Geopotential Z at 400 mbar pressure surface; Z500:Geopotential Z at 500 mbar pressure surface; Z600:Geopotential Z at 600 mbar pressure surface; Z700:Geopotential Z at 700 mbar pressure surface; Z850:Geopotential Z at 850 mbar pressure surface; Z925:Geopotential Z at 925 mbar pressure surface; Source = CLM; Variables = levgrnd:coordinate soil levels; levlak:coordinate lake levels; edgen:northern edge of surface grid; edgee:eastern edge of surface grid; edges:southern edge of surface grid; edgew:western edge of surface grid; time:time; mcdate:current date (YYYYMMDD); mcsec:current seconds of current date; mdcur:current day (from base day); mscur:current seconds of current day; nstep:time step; time_bounds:history time interval endpoints; lon:coordinate longitude; lat:coordinate latitude; lonatm:atm coordinate longitude; latatm:atm coordinate latitude; lonrof:runoff coordinate longitude; latrof:runoff coordinate latitude; longxy:longitude; latixy:latitude; area:grid cell areas; areaupsc:normalized grid cell areas related to upscaling; topo:grid cell topography; topodnsc:normalized grid cell topography related to downscaling; landfrac:land fraction; landmask:land/ocean mask (0. ocean and 1. land); pftmask:pft real/fake mask (0. fake and 1. real); indxupsc:upscaling atm global grid index; longxyatm:atm longitude; latixyatm:atm latitude; areaatm:atm grid cell areas; ZSOI:soil depth; DZSOI:soil thickness; WATSAT:saturated soil water content (porosity); SUCSAT:saturated soil matric potential; BSW:slope of soil water retention curve; HKSAT:saturated hydraulic conductivity; ACTUAL_IMMOB:actual N immobilization; AGNPP:aboveground NPP; ANN_FAREA_BURNED:annual total fractional area burned; AR:autotrophic respiration (MR + GR); BCDEP:total BC deposition (dry+wet) from atmosphere; BGNPP:belowground NPP; BIOGENCO:biogenic CO flux; BTRAN:transpiration beta factor; BUILDHEAT:heat flux from urban building interior to walls and roof; COL_CTRUNC:column-level sink for C truncation; COL_FIRE_CLOSS:total column-level fire C loss; COL_FIRE_NLOSS:total column-level fire N loss; COL_NTRUNC:column-level sink for N truncation; CPOOL:temporary photosynthate C pool; CWDC:coarse woody debris C; CWDC_HR:coarse woody debris C heterotrophic respiration; CWDC_LOSS:coarse woody debris C loss; CWDN:coarse woody debris N; DEADCROOTC:dead coarse root C; DEADCROOTN:dead coarse root N; DEADSTEMC:dead stem C; DEADSTEMN:dead stem N; DENIT:total rate of denitrification; DISPVEGC:displayed veg carbon, excluding storage and cpool; DISPVEGN:displayed vegetation nitrogen; DSTDEP:total dust deposition (dry+wet) from atmosphere; DSTFLXT:total surface dust emission; DWT_CLOSS:total carbon loss from land cover conversion; DWT_CONV_CFLUX:conversion C flux (immediate loss to atm); DWT_CONV_NFLUX:conversion N flux (immediate loss to atm); DWT_NLOSS:total nitrogen loss from landcover conversion; DWT_PROD100C_GAIN:landcover change-driven addition to 100-yr wood product pool; DWT_PROD100N_GAIN:addition to 100-yr wood product pool; DWT_PROD10C_GAIN:landcover change-driven addition to 10-yr wood product pool; DWT_PROD10N_GAIN:addition to 10-yr wood product pool; DWT_SEEDC_TO_DEADSTEM:seed source to PFT-level deadstem; DWT_SEEDC_TO_LEAF:seed source to PFT-level leaf; DWT_SEEDN_TO_DEADSTEM:seed source to PFT-level deadstem; DWT_SEEDN_TO_LEAF:seed source to PFT-level leaf; EFLX_DYNBAL:dynamic land cover change conversion energy flux; EFLX_LH_TOT_R:Rural total evaporation; EFLX_LH_TOT_U:Urban total evaporation; ELAI:exposed one-sided leaf area index; ER:total ecosystem respiration, autotrophic + heterotrophic; ERRH2O:total water conservation error; ERRSEB:surface energy conservation error; ERRSOI:soil/lake energy conservation error; ERRSOL:solar radiation conservation error; ESAI:exposed one-sided stem area index; FCEV:canopy evaporation; FCOV:fractional impermeable area; FCTR:canopy transpiration; FGEV:ground evaporation; FGR:heat flux into soil/snow including snow melt; FGR12:heat flux between soil layers 1 and 2; FGR_R:Rural heat flux into soil/snow including snow melt; FGR_U:Urban heat flux into soil/snow including snow melt; FIRA:net infrared (longwave) radiation; FIRA_R:Rural net infrared (longwave) radiation; FIRA_U:Urban net infrared (longwave) radiation; FIRE:emitted infrared (longwave) radiation; FIRESEASONL:annual fire season length; FLDS:atmospheric longwave radiation; FLUXFM2A:heat flux for rain to snow conversion; FLUXFMLND:heat flux from rain to snow conversion; FPG:fraction of potential gpp; FPI:fraction of potential immobilization; FPSN:photosynthesis; FROOTC:fine root C; FROOTC_ALLOC:fine root C allocation; FROOTC_LOSS:fine root C loss; FROOTN:fine root N; FSA:absorbed solar radiation; FSAT:fractional area with water table at surface; FSA_R:Rural absorbed solar radiation; FSA_U:Urban absorbed solar radiation; FSDS:atmospheric incident solar radiation; FSDSND:direct nir incident solar radiation; FSDSNDLN:direct nir incident solar radiation at local noon; FSDSNI:diffuse nir incident solar radiation; FSDSVD:direct vis incident solar radiation; FSDSVDLN:direct vis incident solar radiation at local noon; FSDSVI:diffuse vis incident solar radiation; FSH:sensible heat; FSH_G:sensible heat from ground; FSH_NODYNLNDUSE:sensible heat; FSH_R:Rural sensible heat; FSH_U:Urban sensible heat; FSH_V:sensible heat from veg; FSM:snow melt heat flux; FSM_R:Rural snow melt heat flux; FSM_U:Urban snow melt heat flux; FSNO:fraction of ground covered by snow; FSR:reflected solar radiation; FSRND:direct nir reflected solar radiation; FSRNDLN:direct nir reflected solar radiation at local noon; FSRNI:diffuse nir reflected solar radiation; FSRVD:direct vis reflected solar radiation; FSRVDLN:direct vis reflected solar radiation at local noon; FSRVI:diffuse vis reflected solar radiation; GC_HEAT1:initial gridcell total heat content; GC_ICE1:initial gridcell total ice content; GC_LIQ1:initial gridcell total liq content; GPP:gross primary production; GR:total growth respiration; GROSS_NMIN:gross rate of N mineralization; H2OCAN:intercepted water; H2OSNO:snow depth (liquid water); H2OSNO_TOP:mass of snow in top snow layer; H2OSOI:volumetric soil water; HC:heat content of soil/snow/lake; HCSOI:soil heat content; HEAT_FROM_AC:sensible heat flux put into canyon due to heat removed from air conditioning; HR:total heterotrophic respiration; HTOP:canopy top; ISOPRENE:isoprene flux; LAISHA:shaded projected leaf area index; LAISUN:sunlit projected leaf area index; LAND_UPTAKE:NEE minus LAND_USE_FLUX, negative for update; LAND_USE_FLUX:total C emitted from land cover conversion and wood product pools; LEAFC:leaf C; LEAFC_ALLOC:leaf C allocation; LEAFC_LOSS:leaf C loss; LEAFN:leaf N; LITFALL:litterfall (leaves and fine roots); LITHR:litter heterotrophic respiration; LITR1C:litter labile C; LITR1C_TO_SOIL1C:decomp. of litter 1 C to SOM 1 C; LITR1N:litter labile N; LITR2C:litter cellulose C; LITR2C_TO_SOIL2C:decomp. of litter 2 C to SOM 2 C; LITR2N:litter cellulose N; LITR3C:litter lignin C; LITR3C_TO_SOIL3C:decomp. of litter 3 C to SOM 3 C; LITR3N:litter lignin N; LITTERC:litter C; LITTERC_HR:litter C heterotrophic respiration; LITTERC_LOSS:litter C loss; LIVECROOTC:live coarse root C; LIVECROOTN:live coarse root N; LIVESTEMC:live stem C; LIVESTEMN:live stem N; MEAN_FIRE_PROB:e-folding mean of daily fire probability; MONOTERP:monoterpene flux; MR:maintenance respiration; NBP:net biome production, includes fire, landuse, and harvest flux, positive for sink; NDEPLOY:total N deployed in new growth; NDEP_TO_SMINN:atmospheric N deposition to soil mineral N; NEE:net ecosystem exchange of carbon, includes fire, landuse, harvest, and hrv_xsmrpool flux, positive for source; NEP:net ecosystem production, excludes fire, landuse, and harvest flux, positive for sink; NET_NMIN:net rate of N mineralization; NFIX_TO_SMINN:symbiotic/asymbiotic N fixation to soil mineral N; NPP:net primary production; OCDEP:total OC deposition (dry+wet) from atmosphere; ORVOC:other reactive VOC flux; OVOC:other VOC flux; PBOT:atmospheric pressure; PCO2:atmospheric partial pressure of CO2; PFT_CTRUNC:pft-level sink for C truncation; PFT_FIRE_CLOSS:total pft-level fire C loss; PFT_FIRE_NLOSS:total pft-level fire N loss; PFT_NTRUNC:pft-level sink for N truncation; PLANT_NDEMAND:N flux required to support initial GPP; POTENTIAL_IMMOB:potential N immobilization; PROD100C:100-yr wood product C; PROD100C_LOSS:loss from 100-yr wood product pool; PROD100N:100-yr wood product N; PROD100N_LOSS:loss from 100-yr wood product pool; PROD10C:10-yr wood product C; PROD10C_LOSS:loss from 10-yr wood product pool; PROD10N:10-yr wood product N; PROD10N_LOSS:loss from 10-yr wood product pool; PRODUCT_CLOSS:total carbon loss from wood product pools; PRODUCT_NLOSS:total N loss from wood product pools; PSNSHA:shaded leaf photosynthesis; PSNSHADE_TO_CPOOL:C fixation from shaded canopy; PSNSUN:sunlit leaf photosynthesis; PSNSUN_TO_CPOOL:C fixation from sunlit canopy; Q2M:2m specific humidity; QBOT:atmospheric specific humidity; QCHANR:RTM river flow: LIQ; QCHANR_ICE:RTM river flow: ICE; QCHARGE:aquifer recharge rate; QCHOCNR:RTM river discharge into ocean: LIQ; QCHOCNR_ICE:RTM river discharge into ocean: ICE; QDRAI:sub-surface drainage; QDRIP:throughfall; QFLX_ICE_DYNBAL:ice dynamic land cover change conversion runoff flux; QFLX_LIQ_DYNBAL:liq dynamic land cover change conversion runoff flux; QINFL:infiltration; QINTR:interception; QMELT:snow melt; QOVER:surface runoff; QRGWL:surface runoff at glaciers (liquid only) wetlands, lakes; QRUNOFF:total liquid runoff (does not include QSNWCPICE); QRUNOFF_NODYNLNDUSE:total liquid runoff (does not include QSNWCPICE); QRUNOFF_R:Rural total runoff; QRUNOFF_U:Urban total runoff; QSNWCPICE:excess snowfall due to snow capping; QSNWCPICE_NODYNLNDUSE:excess snowfall due to snow capping; QSOIL:ground evaporation; QVEGE:canopy evaporation; QVEGT:canopy transpiration; RAIN:atmospheric rain; RAINATM:atmospheric rain forcing; RAINFM2A:land rain on atm grid; RETRANSN:plant pool of retranslocated N; RETRANSN_TO_NPOOL:deployment of retranslocated N; RH2M:2m relative humidity; RH2M_R:Rural 2m specific humidity; RH2M_U:Urban 2m relative humidity; RR:root respiration (fine root MR + total root GR); SABG:solar rad absorbed by ground; SABV:solar rad absorbed by veg; SEEDC:pool for seeding new PFTs; SEEDN:pool for seeding new PFTs; SMINN:soil mineral N; SMINN_LEACHED:soil mineral N pool loss to leaching; SMINN_TO_NPOOL:deployment of soil mineral N uptake; SMINN_TO_PLANT:plant uptake of soil mineral N; SNOAERFRC2L:surface forcing of all aerosols in snow, averaged only when snow is present (land); SNOAERFRCL:surface forcing of all aerosols in snow (land); SNOBCFRC2L:surface forcing of BC in snow, averaged only when snow is present (land); SNOBCFRCL:surface forcing of BC in snow (land); SNOBCMCL:mass of BC in snow column; SNOBCMSL:mass of BC in top snow layer; SNODSTFRC2L:surface forcing of dust in snow, averaged only when snow is present (land); SNODSTFRCL:surface forcing of dust in snow (land); SNODSTMCL:mass of dust in snow column; SNODSTMSL:mass of dust in top snow layer; SNOOCFRC2L:surface forcing of OC in snow, averaged only when snow is present (land); SNOOCFRCL:surface forcing of OC in snow (land); SNOOCMCL:mass of OC in snow column; SNOOCMSL:mass of OC in top snow layer; SNOW:atmospheric snow; SNOWATM:atmospheric snow forcing; SNOWDP:snow height; SNOWFM2A:land snow on atm grid; SNOWICE:snow ice; SNOWLIQ:snow liquid water; SOIL1C:soil organic matter C (fast pool); SOIL1N:soil organic matter N (fast pool); SOIL2C:soil organic matter C (medium pool); SOIL2N:soil organic matter N (medium pool); SOIL3C:soil organic matter C (slow pool); SOIL3N:soil orgainc matter N (slow pool); SOIL4C:soil organic matter C (slowest pool); SOIL4N:soil orgainc matter N (slowest pool); SOILC:soil C; SOILC_HR:soil C heterotrophic respiration; SOILC_LOSS:soil C loss; SOILICE:soil ice; SOILLIQ:soil liquid water; SOILPSI:soil water potential in each soil layer; SOILWATER_10CM:soil liquid water + ice in top 10cm of soil; SOMHR:soil organic matter heterotrophic respiration; SR:total soil respiration (HR + root resp); STORVEGC:stored vegetation carbon, excluding cpool; STORVEGN:stored vegetation nitrogen; SUPPLEMENT_TO_SMINN:supplemental N supply; SoilAlpha:factor limiting ground evap; SoilAlpha_U:urban factor limiting ground evap; TAUX:zonal surface stress; TAUY:meridional surface stress; TBOT:atmospheric air temperature; TBUILD:internal urban building temperature; TG:ground temperature; TG_R:Rural ground temperature; TG_U:Urban ground temperature; THBOT:atmospheric air potential temperature; TLAI:total projected leaf area index; TLAKE:lake temperature; TOTCOLC:total column carbon, incl veg and cpool; TOTCOLN:total column-level N; TOTECOSYSC:total ecosystem carbon, incl veg but excl cpool; TOTECOSYSN:total ecosystem N; TOTLITC:total litter carbon; TOTLITN:total litter N; TOTPFTC:total pft-level carbon, including cpool; TOTPFTN:total PFT-level nitrogen; TOTPRODC:total wood product C; TOTPRODN:total wood product N; TOTSOMC:total soil organic matter carbon; TOTSOMN:total soil organic matter N; TOTVEGC:total vegetation carbon, excluding cpool; TOTVEGN:total vegetation nitrogen; TREFMNAV:daily minimum of average 2-m temperature; TREFMNAV_R:Rural daily minimum of average 2-m temperature; TREFMNAV_U:Urban daily minimum of average 2-m temperature; TREFMXAV:daily maximum of average 2-m temperature; TREFMXAV_R:Rural daily maximum of average 2-m temperature; TREFMXAV_U:Urban daily maximum of average 2-m temperature; TSA:2m air temperature; TSAI:total projected stem area index; TSA_R:Rural 2m air temperature; TSA_U:Urban 2m air temperature; TSOI:soil temperature; TSOI_10CM:soil temperature in top 10cm of soil; TV:vegetation temperature; URBAN_AC:urban air conditioning flux; URBAN_HEAT:urban heating flux; VOCFLXT:total VOC flux into atmosphere; WA:water in the unconfined aquifer; WASTEHEAT:sensible heat flux from heating/cooling sources of urban waste heat; WIND:atmospheric wind velocity magnitude; WOODC:wood C; WOODC_ALLOC:wood C allocation; WOODC_LOSS:wood C loss; WOOD_HARVESTC:wood harvest (to product pools); WOOD_HARVESTN:wood harvest (to product pools); WT:total water storage (unsaturated soil water + groundwater); XSMRPOOL:temporary photosynthate C pool; XSMRPOOL_RECOVER:C flux assigned to recovery of negative xsmrpool; ZBOT:atmospheric reference height; ZWT:water table depth; Source = CICE; Variables = time:model time; time_bounds:boundaries for time-averaging interval; TLON:T grid center longitude; TLAT:T grid center latitude; ULON:U grid center longitude; ULAT:U grid center latitude; tmask:ocean grid mask; tarea:area of T grid cells; uarea:area of U grid cells; dxt:T cell width through middle; dyt:T cell height through middle; dxu:U cell width through middle; dyu:U cell height through middle; HTN:T cell width on North side; HTE:T cell width on East side; ANGLE:angle grid makes with latitude line on U grid; ANGLET:angle grid makes with latitude line on T grid; lont_bounds:longitude boundaries of T cells; latt_bounds:latitude boundaries of T cells; lonu_bounds:longitude boundaries of U cells; latu_bounds:latitude boundaries of U cells; hi:grid cell mean ice thickness; hs:grid cell mean snow thickness; fs:grid cell mean snow fraction; Tsfc:snow/ice surface temperature; aice:ice area (aggregate); qi:internal ice heat content; qs:internal snow heat content; uvel:ice velocity (x); vvel:ice velocity (y); transix:ice mass transport (x) on East side; transiy:ice mass transport (y) on North side; fswdn:down solar flux; fswdn_ai:down solar flux weighted with respect to ice area; fswup:upward solar flux; fswup_ai:upward solar flux weighted with sea ice area; flwdn:down longwave flux; flwdn_ai:down longwave flux weighted with respect to ice area; snow:snowfall rate (cpl); snow_ai:snowfall rate; rain:rainfall rate (cpl); rain_ai:rainfall rate; sst:sea surface temperature; fswfac:shortwave scaling factor; fswabs:snow/ice/ocn absorbed solar flux (cpl); fswabs_ai:snow/ice/ocn absorbed solar flux; alvdr:visible direct albedo; alidr:near IR direct albedo; albice:bare ice albedo; albsno:snow albedo; albpnd:melt pond albedo; coszen:cosine of the zenith angle; flat:latent heat flux (cpl); flat_ai:latent heat flux; fsens:sensible heat flux (cpl); fsens_ai:sensible heat flux; flwup:upward longwave flux (cpl); flwup_ai:upward longwave flux; evap:evaporative water flux (cpl); evap_ai:evaporative water flux; Tair:air temperature; Tref:2m reference temperature; Qref:2m reference specific humidity; congel:congelation ice growth; frazil:frazil ice growth; snoice:snow-ice formation; meltt:top ice melt; meltb:basal ice melt; meltl:lateral ice melt; melts:snow melt; fresh:freshwtr flx ice to ocn (cpl); fresh_ai:freshwtr flx ice to ocn; fsalt:salt flux ice to ocn (cpl); fsalt_ai:salt flux ice to ocean; fhocn:heat flux ice to ocn (cpl); fhocn_ai:heat flux ice to ocean; fswthru:SW thru ice to ocean (cpl); fswthru_ai:SW flux thru ice to ocean; strairx:atm/ice stress (x); strairy:atm/ice stress (y); strcorx:coriolis stress (x); strcory:coriolis stress (y); strocnx:ocean/ice stress (x); strocny:ocean/ice stress (y); strintx:internal ice stress (x); strinty:internal ice stress (y); strength:compressive ice strength; opening:lead area opening rate; divu:strain rate (divergence); shear:strain rate (shear); sig1:norm. principal stress 1; sig2:norm. principal stress 2; dvidtt:volume tendency thermo; dvidtd:volume tendency dynamics; daidtt:area tendency thermo; daidtd:area tendency dynamics; dardg1dt:ice area ridging rate; dardg2dt:ridge area formation rate; dvirdgdt:ice volume ridging rate; hisnap:ice volume snapshot; aisnap:ice area snapshot; trsig:internal stress tensor trace; ice_present:fraction of time-avg interval that any ice is present; fsurf_ai:net surface heat flux; fcondtop_ai:top surface conductive heat flux; aicen001:ice area, category 001; aicen002:ice area, category 002; aicen003:ice area, category 003; aicen004:ice area, category 004; aicen005:ice area, category 005; vicen001:ice volume, category 001; vicen002:ice volume, category 002; vicen003:ice volume, category 003; vicen004:ice volume, category 004; vicen005:ice volume, category 005; iage:sea ice age; FYarea:first-year ice area; aerosnossl001:snow ssl aerosol mass; aerosnoint001:snow int aerosol mass; aeroicessl001:ice ssl aerosol mass; aeroiceint001:ice int aerosol mass; aerosnossl002:snow ssl aerosol mass; aerosnoint002:snow int aerosol mass; aeroicessl002:ice ssl aerosol mass; aeroiceint002:ice int aerosol mass; aerosnossl003:snow ssl aerosol mass; aerosnoint003:snow int aerosol mass; aeroicessl003:ice ssl aerosol mass; aeroiceint003:ice int aerosol mass; faero_atm001:aerosol deposition rate; faero_atm002:aerosol deposition rate; faero_atm003:aerosol deposition rate; faero_ocn001:aerosol flux to ocean; faero_ocn002:aerosol flux to ocean; faero_ocn003:aerosol flux to ocean; alvl:level ice area fraction; vlvl:level ice mean thickness; ardg:ridged ice area fraction; vrdg:ridged ice mean thickness; apond001:melt pond concentration, category 001; apond002:melt pond concentration, category 002; apond003:melt pond concentration, category 003; apond004:melt pond concentration, category 004; apond005:melt pond concentration, category 005; Scientific publication: Graff et al. 2019, LINK: http: doi.org/10.5194/esd-10-569-2019" assertion.
c528c084-04ad-4325-99b0-015a23589268 Sentence "Data from the NorESM1-Happi Present Day (PD; 2005-2015) 1.5, and 2.0 degree warming (above pre-industrial) done with a slab ocean (SO) set-up." assertion.
33bc542c-0486-4ede-8084-e214390cb615 Sentence "Those two experiments use the same q-flux field as the control simualtion, so the only forcing that is changed is the CO2 concentration in the atmosphere." assertion.
33bc542c-0486-4ede-8084-e214390cb615 Sentence "Consists of a 1850 control simulation with slab ocean q-fluxes derived from the NorESM1-Happi fully coupled 1850 control." assertion.
33bc542c-0486-4ede-8084-e214390cb615 Sentence "Data description: case = N1Happi_som_1850_02; N1Happi_som_1850_2XCO2_02; N1Happi_som_1850_4XCO2_01; Source = CAM; Variables = P0:reference pressure; lat:latitude; lon:longitude; slat:staggered latitude; slon:staggered longitude; w_stag:staggered latitude weights; lev:hybrid level at midpoints (1000* A+B); ilev:hybrid level at interfaces (1000* A+B); isccp_prs:Mean ISCCP pressure; isccp_tau:Mean ISCCP optical depth; isccp_prstau:Mean pressure (mb) mean optical depth (unitless) 1000; time:time; time_bnds:time interval endpoints; ntrm:spectral truncation parameter M; ntrn:spectral truncation parameter N; ntrk:spectral truncation parameter K; ndbase:base day; nsbase:seconds of base day; nbdate:base date (YYYYMMDD); nbsec:seconds of base date; mdt:timestep; nlon:number of longitudes; wnummax:cutoff Fourier wavenumber; hyai:hybrid A coefficient at layer interfaces; hybi:hybrid B coefficient at layer interfaces; hyam:hybrid A coefficient at layer midpoints; hybm:hybrid B coefficient at layer midpoints; gw:gauss weights; ndcur:current day (from base day); nscur:current seconds of current day; date:current date (YYYYMMDD); co2vmr:co2 volume mixing ratio; ch4vmr:ch4 volume mixing ratio; n2ovmr:n2o volume mixing ratio; f11vmr:f11 volume mixing ratio; f12vmr:f12 volume mixing ratio; sol_tsi:total solar irradiance; datesec:current seconds of current date; nsteph:current timestep; ABSVIS:Aerosol absorptive optical depth at 0.35-0.64um; AEROD_v:Total Aerosol Optical Depth in visible band; AKCXS:Scheme excess aerosol mass burden; AODVIS:Aerosol optical depth at 0.35-0.64um; BAK:Aerosol extinction; BC:Concentration; BC_A:BC_A; BC_AC:BC_AC; BC_AI:BC_AI; BC_AX:BC_AX; BC_N:BC_N; BC_NI:BC_NI; CABSVIS:Clear air aerosol absorptive optical depth; CAODVIS:Clear air aerosol optical depth; CDNC:Cloud Droplet Number Concentration; CDNCINT:Cloud Droplet Number Column; CDNCIX:Aerosol calc cloud droplet number concentration; CH2O2:H2O2 MMR from file; CLDFOC:Frequency of Warm Cloud Occurence; CLDFREE:Cloud free fraction wrt CAODVIS and CABSVIS; CLDHGH:Vertically-integrated high cloud; CLDICE:Grid box averaged cloud ice amount; CLDLIQ:Grid box averaged cloud liquid amount; CLDLIX:Aerosol calc averaged liquid condensate amount; CLDLOW:Vertically-integrated low cloud; CLDMED:Vertically-integrated mid-level cloud; CLDTOT:Vertically-integrated total cloud; CLOUD:Cloud fraction; CMFDQ:QV tendency - shallow convection; CMFDQR:Q tendency - shallow convection rainout; CMFDT:T tendency - shallow convection; CMFMC:Moist shallow convection mass flux; CMFMCDZM:Convection mass flux from ZM deep; CONCLD:Convective cloud cover; C_BC:Column burden; C_DMS:Column burden; C_DUST:Column burden; C_POM:Column burden; C_SO2:Column burden; C_SO4:Column burden; C_SS:Column burden; DAYFOC:Daylight fraction; DCQ:Q tendency due to moist processes; DMS:DMS; DMSCO:Concentration; DRY_BC:Dry deposition; DRY_DUST:Dry deposition; DRY_POM:Dry deposition; DRY_SO2:Dry deposition; DRY_SO4:Dry deposition; DRY_SS:Dry deposition; DST_A2:DST_A2; DST_A3:DST_A3; DTCOND:T tendency - moist processes; DTV:T vertical diffusion; DUST:Concentration; EMI_BC:Emissions; EMI_DMS:Emissions; EMI_DUST:Emissions; EMI_POM:Emissions; EMI_SO2:Emissions; EMI_SO4:Emissions; EMI_SS:Emissions; EVAPX:Evaporation of cloud droplets; FICE:Fractional ice content within cloud; FLDS:Downwelling longwave flux at surface; FLDSC:Clearsky downwelling longwave flux at surface; FLNS:Net longwave flux at surface; FLNSC:Clearsky net longwave flux at surface; FLNT:Net longwave flux at top of model; FLNTC:Clearsky net longwave flux at top of model; FLUT:Upwelling longwave flux at top of model; FLUTC:Clearsky upwelling longwave flux at top of model; FOCHANA:Frequency of Occurrence of Clouds with REHANA / 0; FREEZ: rate of freezing of cloud droplets; FREQSH:Fractional occurance of shallow convection; FREQZM:Fractional occurance of ZM convection; FSDS:Downwelling solar flux at surface; FSDSC:Clearsky downwelling solar flux at surface; FSNS:Net solar flux at surface; FSNSC:Clearsky net solar flux at surface; FSNT:Net solar flux at top of model; FSNTC:Clearsky net solar flux at top of model; FSNTOA:Net solar flux at top of atmosphere; FSNTOAC:Clearsky net solar flux at top of atmosphere; FSUTOA:Upwelling solar flux at top of atmosphere; GAK:Aerosol assymetry factor; GCLDLWP:Grid-box cloud water path; H2O2:H2O2; ICEFRAC:Fraction of sfc area covered by sea-ice; ICLDIWP:In-cloud ice water path; ICLDTWP:In-cloud cloud total water path (liquid and ice); ICLDTWX:In-cloud cloud total water path (liquid and ice); ICWMRX:Prognostic in-cloud water mixing ratio; KHET:Aqueous-phase reaction rate; LANDFRAC:Fraction of sfc area covered by land; LCLOUD:Liquid cloud fraction; LHFLX:Surface latent heat flux; LWCF:Longwave cloud forcing; MSAGA:MSA gas-phase prod; MSKtem:TEM mask; NDROPCOL:Column droplet number; NDROPMIX:Droplet number mixing; NDROPSNK:Droplet number loss by microphysics; NDROPSRC:Droplet number source; NRAINX:Loss of cloud droplets due to precip; NUCRAT:Nucleation of cloud droplets; NUSO4N:SO4 nucleation rate; N_AER:Aerosol number concentration; N_AERORG:Aerosol number concentration; OCNFRAC:Fraction of sfc area covered by ocean; ODV_SSLTA:SSLTA optical depth in visible band; ODV_SSLTC:SSLTC optical depth in visible band; ODV_bcar1:bcar1 optical depth in visible band; ODV_bcar2:bcar2 optical depth in visible band; ODV_dust1:dust1 optical depth in visible band; ODV_dust2:dust2 optical depth in visible band; ODV_dust3:dust3 optical depth in visible band; ODV_dust4:dust4 optical depth in visible band; ODV_ocar1:ocar1 optical depth in visible band; ODV_ocar2:ocar2 optical depth in visible band; ODV_sulf:sulf optical depth in visible band; OMEGA:Vertical velocity (pressure); OMEGAT:Vertical heat flux; OM_AC:OM_AC; OM_AI:OM_AI; OM_NI:OM_NI; PBLH:PBL height; PCONVB:convection base pressure; PCONVT:convection top pressure; PHIS:Surface geopotential; POM:Concentration; PRECC:Convective precipitation rate (liq + ice); PRECCDZM:Convective precipitation rate from ZM deep; PRECL:Large-scale (stable) precipitation rate (liq + ice); PRECSC:Convective snow rate (water equivalent); PRECSH:Shallow Convection precipitation rate; PRECSL:Large-scale (stable) snow rate (water equivalent); PRECT:Total (convective and large-scale) precipitation rate (liq + ice); PS:Surface pressure; PSL:Sea level pressure; Q:Specific humidity; QC:Q tendency - shallow convection LW export; QFLX:Surface water flux; QREFHT:Reference height humidity; QRL:Longwave heating rate; QRS:Solar heating rate; REFFL:Effective Radius of Cloud Droplets; REHANA:Effective radius as seen from satellite; RELH:Fictive relative humidity; RELHUM:Relative humidity; RHREFHT:Reference height relative humidity; S2GA:SO2 gas-phase prod; S4AQ:Sulphate aq.phase prod; S4GA:Sulphate gas-phase prod; SELFX:Selfcollection of cloud droplets; SFCDNCIX:CDNCIX surface flux; SFCLDICE:CLDICE surface flux; SFCLDLIQ:CLDLIQ surface flux; SFCLDLIX:CLDLIX surface flux; SHFLX:Surface sensible heat flux; SNOWHICE:Water equivalent snow depth; SNOWHLND:Water equivalent snow depth; SO2:SO2; SO2CO:Concentration; SO4:Concentration; SO4_A1:SO4_A1; SO4_A2:SO4_A2; SO4_AC:SO4_AC; SO4_N:SO4_N; SO4_NA:SO4_NA; SO4_PR:SO4_PR; SOLIN:Solar insolation; SOLLD:Solar downward near infrared diffuse to surface; SOLSD:Solar downward visible diffuse to surface; SRFRAD:Net radiative flux at surface; SS:Concentration; SST:sea surface temperature; SS_A1:SS_A1; SS_A2:SS_A2; SS_A3:SS_A3; SUPERSAT:Supersaturation from AGR schem; SWCF:Shortwave cloud forcing; T:Temperature; TAUX:Zonal surface stress; TAUY:Meridional surface stress; TGCLDIWP:Total grid-box cloud ice water path; TGCLDLWP:Total grid-box cloud liquid water path; TGCLDLWX:Offline grid-box cloud liquid water path; TH:Potential Temperature; TH2d:Zonal-Mean potential temp; TMQ:Total (vertically integrated) precipitatable water; TREFHT:Reference height temperature; TREFMNAV:Average of TREFHT daily minimum; TREFMXAV:Average of TREFHT daily maximum; TROP_P:Tropopause Pressure; TROP_T:Tropopause Temperature; TROP_Z:Tropopause Height; TS:Surface temperature (radiative); TSMN:Minimum surface temperature over output period; TSMX:Maximum surface temperature over output period; U:Zonal wind; U10:10m wind speed; U2d:Zonal-Mean zonal wind; UAS:Eastward 10m wind; US:Zonal wind, staggered; UTGWORO:U tendency - orographic gravity wave drag; UU:Zonal velocity squared; UV2d:Meridional Flux of Zonal Momentum: 2D prj of zon. mean; UV3d:Meridional Flux of Zonal Momentum: 3D zon. mean; UW2d:Vertical Flux of Zonal Momentum; 2D prj of zon. mean; UW3d:Vertical Flux of Zonal Momentum: 3D zon. mean; V:Meridional wind; V2d:Zonal-Mean meridional wind; VAS:Northward 10m wind; VD01:Vertical diffusion of Q; VQ:Meridional water transport; VS:Meridional wind, staggered; VT:Meridional heat transport; VTH2d:Meridional Heat Flux: 2D prj of zon. mean; VTH3d:Meridional Heat Flux: 3D zon. mean; VU:Meridional flux of zonal momentum; VV:Meridional velocity squared; W2d:Zonal-Mean vertical wind; WAK:Aerosol single scattering albedo; WET_BC:Wet deposition; WET_DUST:Wet deposition; WET_POM:Wet deposition; WET_SO2:Wet deposition; WET_SO4:Wet deposition; WET_SS:Wet deposition; WTH3d:Vertical Heat Flux: 3D zon. mean; WTKE:Standard deviation of updraft velocity; Z3:Geopotential Height (above sea level); Source = CLM; Variables = levgrnd:coordinate soil levels; levlak:coordinate lake levels; edgen:northern edge of surface grid; edgee:eastern edge of surface grid; edges:southern edge of surface grid; edgew:western edge of surface grid; time:time; mcdate:current date (YYYYMMDD); mcsec:current seconds of current date; mdcur:current day (from base day); mscur:current seconds of current day; nstep:time step; time_bounds:history time interval endpoints; lon:coordinate longitude; lat:coordinate latitude; lonatm:atm coordinate longitude; latatm:atm coordinate latitude; lonrof:runoff coordinate longitude; latrof:runoff coordinate latitude; longxy:longitude; latixy:latitude; area:grid cell areas; areaupsc:normalized grid cell areas related to upscaling; topo:grid cell topography; topodnsc:normalized grid cell topography related to downscaling; landfrac:land fraction; landmask:land/ocean mask (0. ocean and 1. land); pftmask:pft real/fake mask (0. fake and 1. real); indxupsc:upscaling atm global grid index; longxyatm:atm longitude; latixyatm:atm latitude; areaatm:atm grid cell areas; ZSOI:soil depth; DZSOI:soil thickness; WATSAT:saturated soil water content (porosity); SUCSAT:saturated soil matric potential; BSW:slope of soil water retention curve; HKSAT:saturated hydraulic conductivity; ACTUAL_IMMOB:actual N immobilization; AGNPP:aboveground NPP; ANN_FAREA_BURNED:annual total fractional area burned; AR:autotrophic respiration (MR + GR); BCDEP:total BC deposition (dry+wet) from atmosphere; BGNPP:belowground NPP; BIOGENCO:biogenic CO flux; BTRAN:transpiration beta factor; BUILDHEAT:heat flux from urban building interior to walls and roof; COL_CTRUNC:column-level sink for C truncation; COL_FIRE_CLOSS:total column-level fire C loss; COL_FIRE_NLOSS:total column-level fire N loss; COL_NTRUNC:column-level sink for N truncation; CPOOL:temporary photosynthate C pool; CWDC:coarse woody debris C; CWDC_HR:coarse woody debris C heterotrophic respiration; CWDC_LOSS:coarse woody debris C loss; CWDN:coarse woody debris N; DEADCROOTC:dead coarse root C; DEADCROOTN:dead coarse root N; DEADSTEMC:dead stem C; DEADSTEMN:dead stem N; DENIT:total rate of denitrification; DISPVEGC:displayed veg carbon, excluding storage and cpool; DISPVEGN:displayed vegetation nitrogen; DSTDEP:total dust deposition (dry+wet) from atmosphere; DSTFLXT:total surface dust emission; DWT_CLOSS:total carbon loss from land cover conversion; DWT_CONV_CFLUX:conversion C flux (immediate loss to atm); DWT_CONV_NFLUX:conversion N flux (immediate loss to atm); DWT_NLOSS:total nitrogen loss from landcover conversion; DWT_PROD100C_GAIN:landcover change-driven addition to 100-yr wood product pool; DWT_PROD100N_GAIN:addition to 100-yr wood product pool; DWT_PROD10C_GAIN:landcover change-driven addition to 10-yr wood product pool; DWT_PROD10N_GAIN:addition to 10-yr wood product pool; DWT_SEEDC_TO_DEADSTEM:seed source to PFT-level deadstem; DWT_SEEDC_TO_LEAF:seed source to PFT-level leaf; DWT_SEEDN_TO_DEADSTEM:seed source to PFT-level deadstem; DWT_SEEDN_TO_LEAF:seed source to PFT-level leaf; EFLX_DYNBAL:dynamic land cover change conversion energy flux; EFLX_LH_TOT_R:Rural total evaporation; EFLX_LH_TOT_U:Urban total evaporation; ELAI:exposed one-sided leaf area index; ER:total ecosystem respiration, autotrophic + heterotrophic; ERRH2O:total water conservation error; ERRSEB:surface energy conservation error; ERRSOI:soil/lake energy conservation error; ERRSOL:solar radiation conservation error; ESAI:exposed one-sided stem area index; FCEV:canopy evaporation; FCOV:fractional impermeable area; FCTR:canopy transpiration; FGEV:ground evaporation; FGR:heat flux into soil/snow including snow melt; FGR12:heat flux between soil layers 1 and 2; FGR_R:Rural heat flux into soil/snow including snow melt; FGR_U:Urban heat flux into soil/snow including snow melt; FIRA:net infrared (longwave) radiation; FIRA_R:Rural net infrared (longwave) radiation; FIRA_U:Urban net infrared (longwave) radiation; FIRE:emitted infrared (longwave) radiation; FIRESEASONL:annual fire season length; FLDS:atmospheric longwave radiation; FLUXFM2A:heat flux for rain to snow conversion; FLUXFMLND:heat flux from rain to snow conversion; FPG:fraction of potential gpp; FPI:fraction of potential immobilization; FPSN:photosynthesis; FROOTC:fine root C; FROOTC_ALLOC:fine root C allocation; FROOTC_LOSS:fine root C loss; FROOTN:fine root N; FSA:absorbed solar radiation; FSAT:fractional area with water table at surface; FSA_R:Rural absorbed solar radiation; FSA_U:Urban absorbed solar radiation; FSDS:atmospheric incident solar radiation; FSDSND:direct nir incident solar radiation; FSDSNDLN:direct nir incident solar radiation at local noon; FSDSNI:diffuse nir incident solar radiation; FSDSVD:direct vis incident solar radiation; FSDSVDLN:direct vis incident solar radiation at local noon; FSDSVI:diffuse vis incident solar radiation; FSH:sensible heat; FSH_G:sensible heat from ground; FSH_NODYNLNDUSE:sensible heat; FSH_R:Rural sensible heat; FSH_U:Urban sensible heat; FSH_V:sensible heat from veg; FSM:snow melt heat flux; FSM_R:Rural snow melt heat flux; FSM_U:Urban snow melt heat flux; FSNO:fraction of ground covered by snow; FSR:reflected solar radiation; FSRND:direct nir reflected solar radiation; FSRNDLN:direct nir reflected solar radiation at local noon; FSRNI:diffuse nir reflected solar radiation; FSRVD:direct vis reflected solar radiation; FSRVDLN:direct vis reflected solar radiation at local noon; FSRVI:diffuse vis reflected solar radiation; GC_HEAT1:initial gridcell total heat content; GC_ICE1:initial gridcell total ice content; GC_LIQ1:initial gridcell total liq content; GPP:gross primary production; GR:total growth respiration; GROSS_NMIN:gross rate of N mineralization; H2OCAN:intercepted water; H2OSNO:snow depth (liquid water); H2OSNO_TOP:mass of snow in top snow layer; H2OSOI:volumetric soil water; HC:heat content of soil/snow/lake; HCSOI:soil heat content; HEAT_FROM_AC:sensible heat flux put into canyon due to heat removed from air conditioning; HR:total heterotrophic respiration; HTOP:canopy top; ISOPRENE:isoprene flux; LAISHA:shaded projected leaf area index; LAISUN:sunlit projected leaf area index; LAND_UPTAKE:NEE minus LAND_USE_FLUX, negative for update; LAND_USE_FLUX:total C emitted from land cover conversion and wood product pools; LEAFC:leaf C; LEAFC_ALLOC:leaf C allocation; LEAFC_LOSS:leaf C loss; LEAFN:leaf N; LITFALL:litterfall (leaves and fine roots); LITHR:litter heterotrophic respiration; LITR1C:litter labile C; LITR1C_TO_SOIL1C:decomp. of litter 1 C to SOM 1 C; LITR1N:litter labile N; LITR2C:litter cellulose C; LITR2C_TO_SOIL2C:decomp. of litter 2 C to SOM 2 C; LITR2N:litter cellulose N; LITR3C:litter lignin C; LITR3C_TO_SOIL3C:decomp. of litter 3 C to SOM 3 C; LITR3N:litter lignin N; LITTERC:litter C; LITTERC_HR:litter C heterotrophic respiration; LITTERC_LOSS:litter C loss; LIVECROOTC:live coarse root C; LIVECROOTN:live coarse root N; LIVESTEMC:live stem C; LIVESTEMN:live stem N; MEAN_FIRE_PROB:e-folding mean of daily fire probability; MONOTERP:monoterpene flux; MR:maintenance respiration; NBP:net biome production, includes fire, landuse, and harvest flux, positive for sink; NDEPLOY:total N deployed in new growth; NDEP_TO_SMINN:atmospheric N deposition to soil mineral N; NEE:net ecosystem exchange of carbon, includes fire, landuse, harvest, and hrv_xsmrpool flux, positive for source; NEP:net ecosystem production, excludes fire, landuse, and harvest flux, positive for sink; NET_NMIN:net rate of N mineralization; NFIX_TO_SMINN:symbiotic/asymbiotic N fixation to soil mineral N; NPP:net primary production; OCDEP:total OC deposition (dry+wet) from atmosphere; ORVOC:other reactive VOC flux; OVOC:other VOC flux; PBOT:atmospheric pressure; PCO2:atmospheric partial pressure of CO2; PFT_CTRUNC:pft-level sink for C truncation; PFT_FIRE_CLOSS:total pft-level fire C loss; PFT_FIRE_NLOSS:total pft-level fire N loss; PFT_NTRUNC:pft-level sink for N truncation; PLANT_NDEMAND:N flux required to support initial GPP; POTENTIAL_IMMOB:potential N immobilization; PROD100C:100-yr wood product C; PROD100C_LOSS:loss from 100-yr wood product pool; PROD100N:100-yr wood product N; PROD100N_LOSS:loss from 100-yr wood product pool; PROD10C:10-yr wood product C; PROD10C_LOSS:loss from 10-yr wood product pool; PROD10N:10-yr wood product N; PROD10N_LOSS:loss from 10-yr wood product pool; PRODUCT_CLOSS:total carbon loss from wood product pools; PRODUCT_NLOSS:total N loss from wood product pools; PSNSHA:shaded leaf photosynthesis; PSNSHADE_TO_CPOOL:C fixation from shaded canopy; PSNSUN:sunlit leaf photosynthesis; PSNSUN_TO_CPOOL:C fixation from sunlit canopy; Q2M:2m specific humidity; QBOT:atmospheric specific humidity; QCHANR:RTM river flow: LIQ; QCHANR_ICE:RTM river flow: ICE; QCHARGE:aquifer recharge rate; QCHOCNR:RTM river discharge into ocean: LIQ; QCHOCNR_ICE:RTM river discharge into ocean: ICE; QDRAI:sub-surface drainage; QDRIP:throughfall; QFLX_ICE_DYNBAL:ice dynamic land cover change conversion runoff flux; QFLX_LIQ_DYNBAL:liq dynamic land cover change conversion runoff flux; QINFL:infiltration; QINTR:interception; QMELT:snow melt; QOVER:surface runoff; QRGWL:surface runoff at glaciers (liquid only) wetlands, lakes; QRUNOFF:total liquid runoff (does not include QSNWCPICE); QRUNOFF_NODYNLNDUSE:total liquid runoff (does not include QSNWCPICE); QRUNOFF_R:Rural total runoff; QRUNOFF_U:Urban total runoff; QSNWCPICE:excess snowfall due to snow capping; QSNWCPICE_NODYNLNDUSE:excess snowfall due to snow capping; QSOIL:ground evaporation; QVEGE:canopy evaporation; QVEGT:canopy transpiration; RAIN:atmospheric rain; RAINATM:atmospheric rain forcing; RAINFM2A:land rain on atm grid; RETRANSN:plant pool of retranslocated N; RETRANSN_TO_NPOOL:deployment of retranslocated N; RH2M:2m relative humidity; RH2M_R:Rural 2m specific humidity; RH2M_U:Urban 2m relative humidity; RR:root respiration (fine root MR + total root GR); SABG:solar rad absorbed by ground; SABV:solar rad absorbed by veg; SEEDC:pool for seeding new PFTs; SEEDN:pool for seeding new PFTs; SMINN:soil mineral N; SMINN_LEACHED:soil mineral N pool loss to leaching; SMINN_TO_NPOOL:deployment of soil mineral N uptake; SMINN_TO_PLANT:plant uptake of soil mineral N; SNOAERFRC2L:surface forcing of all aerosols in snow, averaged only when snow is present (land); SNOAERFRCL:surface forcing of all aerosols in snow (land); SNOBCFRC2L:surface forcing of BC in snow, averaged only when snow is present (land); SNOBCFRCL:surface forcing of BC in snow (land); SNOBCMCL:mass of BC in snow column; SNOBCMSL:mass of BC in top snow layer; SNODSTFRC2L:surface forcing of dust in snow, averaged only when snow is present (land); SNODSTFRCL:surface forcing of dust in snow (land); SNODSTMCL:mass of dust in snow column; SNODSTMSL:mass of dust in top snow layer; SNOOCFRC2L:surface forcing of OC in snow, averaged only when snow is present (land); SNOOCFRCL:surface forcing of OC in snow (land); SNOOCMCL:mass of OC in snow column; SNOOCMSL:mass of OC in top snow layer; SNOW:atmospheric snow; SNOWATM:atmospheric snow forcing; SNOWDP:snow height; SNOWFM2A:land snow on atm grid; SNOWICE:snow ice; SNOWLIQ:snow liquid water; SOIL1C:soil organic matter C (fast pool); SOIL1N:soil organic matter N (fast pool); SOIL2C:soil organic matter C (medium pool); SOIL2N:soil organic matter N (medium pool); SOIL3C:soil organic matter C (slow pool); SOIL3N:soil orgainc matter N (slow pool); SOIL4C:soil organic matter C (slowest pool); SOIL4N:soil orgainc matter N (slowest pool); SOILC:soil C; SOILC_HR:soil C heterotrophic respiration; SOILC_LOSS:soil C loss; SOILICE:soil ice; SOILLIQ:soil liquid water; SOILPSI:soil water potential in each soil layer; SOILWATER_10CM:soil liquid water + ice in top 10cm of soil; SOMHR:soil organic matter heterotrophic respiration; SR:total soil respiration (HR + root resp); STORVEGC:stored vegetation carbon, excluding cpool; STORVEGN:stored vegetation nitrogen; SUPPLEMENT_TO_SMINN:supplemental N supply; SoilAlpha:factor limiting ground evap; SoilAlpha_U:urban factor limiting ground evap; TAUX:zonal surface stress; TAUY:meridional surface stress; TBOT:atmospheric air temperature; TBUILD:internal urban building temperature; TG:ground temperature; TG_R:Rural ground temperature; TG_U:Urban ground temperature; THBOT:atmospheric air potential temperature; TLAI:total projected leaf area index; TLAKE:lake temperature; TOTCOLC:total column carbon, incl veg and cpool; TOTCOLN:total column-level N; TOTECOSYSC:total ecosystem carbon, incl veg but excl cpool; TOTECOSYSN:total ecosystem N; TOTLITC:total litter carbon; TOTLITN:total litter N; TOTPFTC:total pft-level carbon, including cpool; TOTPFTN:total PFT-level nitrogen; TOTPRODC:total wood product C; TOTPRODN:total wood product N; TOTSOMC:total soil organic matter carbon; TOTSOMN:total soil organic matter N; TOTVEGC:total vegetation carbon, excluding cpool; TOTVEGN:total vegetation nitrogen; TREFMNAV:daily minimum of average 2-m temperature; TREFMNAV_R:Rural daily minimum of average 2-m temperature; TREFMNAV_U:Urban daily minimum of average 2-m temperature; TREFMXAV:daily maximum of average 2-m temperature; TREFMXAV_R:Rural daily maximum of average 2-m temperature; TREFMXAV_U:Urban daily maximum of average 2-m temperature; TSA:2m air temperature; TSAI:total projected stem area index; TSA_R:Rural 2m air temperature; TSA_U:Urban 2m air temperature; TSOI:soil temperature; TSOI_10CM:soil temperature in top 10cm of soil; TV:vegetation temperature; URBAN_AC:urban air conditioning flux; URBAN_HEAT:urban heating flux; VOCFLXT:total VOC flux into atmosphere; WA:water in the unconfined aquifer; WASTEHEAT:sensible heat flux from heating/cooling sources of urban waste heat; WIND:atmospheric wind velocity magnitude; WOODC:wood C; WOODC_ALLOC:wood C allocation; WOODC_LOSS:wood C loss; WOOD_HARVESTC:wood harvest (to product pools); WOOD_HARVESTN:wood harvest (to product pools); WT:total water storage (unsaturated soil water + groundwater); XSMRPOOL:temporary photosynthate C pool; XSMRPOOL_RECOVER:C flux assigned to recovery of negative xsmrpool; ZBOT:atmospheric reference height; ZWT:water table depth; Source = CICE; Variables = time:model time; time_bounds:boundaries for time-averaging interval; TLON:T grid center longitude; TLAT:T grid center latitude; ULON:U grid center longitude; ULAT:U grid center latitude; tmask:ocean grid mask; tarea:area of T grid cells; uarea:area of U grid cells; dxt:T cell width through middle; dyt:T cell height through middle; dxu:U cell width through middle; dyu:U cell height through middle; HTN:T cell width on North side; HTE:T cell width on East side; ANGLE:angle grid makes with latitude line on U grid; ANGLET:angle grid makes with latitude line on T grid; lont_bounds:longitude boundaries of T cells; latt_bounds:latitude boundaries of T cells; lonu_bounds:longitude boundaries of U cells; latu_bounds:latitude boundaries of U cells; hi:grid cell mean ice thickness; hs:grid cell mean snow thickness; fs:grid cell mean snow fraction; Tsfc:snow/ice surface temperature; aice:ice area (aggregate); qi:internal ice heat content; qs:internal snow heat content; uvel:ice velocity (x); vvel:ice velocity (y); transix:ice mass transport (x) on East side; transiy:ice mass transport (y) on North side; fswdn:down solar flux; fswdn_ai:down solar flux weighted with respect to ice area; fswup:upward solar flux; fswup_ai:upward solar flux weighted with sea ice area; flwdn:down longwave flux; flwdn_ai:down longwave flux weighted with respect to ice area; snow:snowfall rate (cpl); snow_ai:snowfall rate; rain:rainfall rate (cpl); rain_ai:rainfall rate; fswfac:shortwave scaling factor; fswabs:snow/ice/ocn absorbed solar flux (cpl); fswabs_ai:snow/ice/ocn absorbed solar flux; alvdr:visible direct albedo; alidr:near IR direct albedo; albice:bare ice albedo; albsno:snow albedo; albpnd:melt pond albedo; coszen:cosine of the zenith angle; flat:latent heat flux (cpl); flat_ai:latent heat flux; fsens:sensible heat flux (cpl); fsens_ai:sensible heat flux; flwup:upward longwave flux (cpl); flwup_ai:upward longwave flux; evap:evaporative water flux (cpl); evap_ai:evaporative water flux; Tair:air temperature; Tref:2m reference temperature; Qref:2m reference specific humidity; congel:congelation ice growth; frazil:frazil ice growth; snoice:snow-ice formation; meltt:top ice melt; meltb:basal ice melt; meltl:lateral ice melt; melts:snow melt; fresh:freshwtr flx ice to ocn (cpl); fresh_ai:freshwtr flx ice to ocn; fsalt:salt flux ice to ocn (cpl); fsalt_ai:salt flux ice to ocean; fhocn:heat flux ice to ocn (cpl); fhocn_ai:heat flux ice to ocean; fswthru:SW thru ice to ocean (cpl); fswthru_ai:SW flux thru ice to ocean; strairx:atm/ice stress (x); strairy:atm/ice stress (y); strcorx:coriolis stress (x); strcory:coriolis stress (y); strocnx:ocean/ice stress (x); strocny:ocean/ice stress (y); strintx:internal ice stress (x); strinty:internal ice stress (y); strength:compressive ice strength; opening:lead area opening rate; divu:strain rate (divergence); shear:strain rate (shear); sig1:norm. principal stress 1; sig2:norm. principal stress 2; dvidtt:volume tendency thermo; dvidtd:volume tendency dynamics; daidtt:area tendency thermo; daidtd:area tendency dynamics; dardg1dt:ice area ridging rate; dardg2dt:ridge area formation rate; dvirdgdt:ice volume ridging rate; hisnap:ice volume snapshot; aisnap:ice area snapshot; trsig:internal stress tensor trace; ice_present:fraction of time-avg interval that any ice is present; fsurf_ai:net surface heat flux; fcondtop_ai:top surface conductive heat flux; aicen001:ice area, category 001; aicen002:ice area, category 002; aicen003:ice area, category 003; aicen004:ice area, category 004; aicen005:ice area, category 005; vicen001:ice volume, category 001; vicen002:ice volume, category 002; vicen003:ice volume, category 003; vicen004:ice volume, category 004; vicen005:ice volume, category 005; iage:sea ice age; FYarea:first-year ice area; aerosnossl001:snow ssl aerosol mass; aerosnoint001:snow int aerosol mass; aeroicessl001:ice ssl aerosol mass; aeroiceint001:ice int aerosol mass; aerosnossl002:snow ssl aerosol mass; aerosnoint002:snow int aerosol mass; aeroicessl002:ice ssl aerosol mass; aeroiceint002:ice int aerosol mass; aerosnossl003:snow ssl aerosol mass; aerosnoint003:snow int aerosol mass; aeroicessl003:ice ssl aerosol mass; aeroiceint003:ice int aerosol mass; faero_atm001:aerosol deposition rate; faero_atm002:aerosol deposition rate; faero_atm003:aerosol deposition rate; faero_ocn001:aerosol flux to ocean; faero_ocn002:aerosol flux to ocean; faero_ocn003:aerosol flux to ocean; alvl:level ice area fraction; vlvl:level ice mean thickness; ardg:ridged ice area fraction; vrdg:ridged ice mean thickness; apond001:melt pond concentration, category 001; apond002:melt pond concentration, category 002; apond003:melt pond concentration, category 003; apond004:melt pond concentration, category 004; apond005:melt pond concentration, category 005;" assertion.
d53b1515-4055-4d33-b0e8-291b6e3fa075 Sentence "Rebound effect of energy intensity reduction on energy consumption." assertion.
d53b1515-4055-4d33-b0e8-291b6e3fa075 Sentence "The GAMS codes to generate results presented in the article." assertion.
94884654-42a6-4b78-b9b0-44c142469ecf Sentence "Data for: Large difference in aerosol radiative effects from BVOC-SOA treatment in three ESMs." assertion.
94884654-42a6-4b78-b9b0-44c142469ecf Sentence "The data has been averaged over time and the variables used in the publication are included." assertion.
94884654-42a6-4b78-b9b0-44c142469ecf Sentence "Data from the CTRL simulation as well as the 5 sensitivity test are provided." assertion.
5d888016-4dee-4ad6-89eb-c49ff588ea12 Sentence "The input data include model grid, forcing files, model specific input files that sets the model parameters, and the compiled verion of the model code." assertion.
5d888016-4dee-4ad6-89eb-c49ff588ea12 Sentence "Input and output files from a regional ocean model (ROMS) applied over the Weddell Sea, Antarctica." assertion.
5d888016-4dee-4ad6-89eb-c49ff588ea12 Sentence "The input files contain both a reference simulation and idealized variations of the reference simulation where we modify the thermocline depth over the continental slope (denoted as TCL200 and TCL400 for thermocline lifts of 200 and 400 m, respectively) the dense shelf water salinity (denoted as LFRESH and SFRESH for a light/strong freshening, respectively) the ocean surface stress (denoted as BRIOS20/BRIOS22 for surfce stress exctracted from the BRIOS model for end of 20th/22nd centuries respectively." assertion.
5f08b5e8-3167-4375-aa09-cd586c3a1ca9 Sentence "The dataset contains both raw output files and post processed files." assertion.
5f08b5e8-3167-4375-aa09-cd586c3a1ca9 Sentence "Data for: Implementing a sectional scheme for early aerosol growth from new particle formation in the Norwegian Earth System Model v2: comparison to observations and climate impacts." assertion.
5f08b5e8-3167-4375-aa09-cd586c3a1ca9 Sentence "Model output for simulations with NorESMv2 for manuscript "Implementing a sectional scheme for early aerosol growth from new particle formation in the Norwegian Earth System Model v2: comparison to observations and climate impacts"" assertion.
7de97f06-b1dd-4d7b-bf97-919b2e1aa4e6 Sentence "The experiment comprises 30 simulation members and used constant preindustrial year-1850 external forcings." assertion.
7de97f06-b1dd-4d7b-bf97-919b2e1aa4e6 Sentence "The output is given in self-describing NetCDF format with in-file metadata that in detail describe its contents." assertion.
7de97f06-b1dd-4d7b-bf97-919b2e1aa4e6 Sentence "NorCPM output prepared for PRACTICE: model-model prediction with NorESM1-L. The dataset comprises output that has been prepared for the project PRACTICE from a perfect model prediction experiment with the NorESM1-L climate model system, where synthetic observations generated from the model itself are assimilated." assertion.
3a88071c-463a-48c7-94db-54ea4875162b Sentence "Output from NorESM2-LM piControl hosing experiment." assertion.
3a88071c-463a-48c7-94db-54ea4875162b Sentence "An enhanced freshwater input of 0.17Sv was applied to the Weddell Sea and the surrounding area bounded by 60°S, 60°W and 50°E in order to investigate the impact of shutting down convection in the large open-ocean polynya situated north of Weddell Sea on sea surface temperatures." assertion.
3a88071c-463a-48c7-94db-54ea4875162b Sentence "This dataset was created with the NorESM2 model LINK: http: doi.org/10.5194/gmd-13-6165-2020." assertion.
34c84981-b67d-4d5f-8ca8-6cdde286378e Sentence "NorESM2-MM (atmosphere and land components) has a horizontal resolution of ?" assertion.
34c84981-b67d-4d5f-8ca8-6cdde286378e Sentence "The model (NorESM2-MM) was forced by +4K increase to the pre-industrial sea surface temperatures." assertion.
34c84981-b67d-4d5f-8ca8-6cdde286378e Sentence "piClim-p4k: +4K pre-industrial fixed SST simulation for NorESM2-MM. Atmospheric Model Intercomparison Project (AMIP) experiments in which the atmosphere and land components were active while values for SSTs and sea ice were prescribed." assertion.
bc89916c-b67e-48a9-9136-199b3090d315 Sentence "Applied machine learning for rockfall source area prediction and a meteorological trigger analysis" assertion.
bc89916c-b67e-48a9-9136-199b3090d315 Sentence "Emhjellen master thesis." assertion.
a50fdebc-d1ed-4576-abdb-647160bf10b2 Sentence "To use the dataset you should follow the guidelines in the README contained within the dataset." assertion.
a50fdebc-d1ed-4576-abdb-647160bf10b2 Sentence "Quantifying the climate response to extreme land cover changes in Europe with a regional model." assertion.
a50fdebc-d1ed-4576-abdb-647160bf10b2 Sentence "The datasets contain one control and four extreme land cover change simulations in Europe with a regional climate model (COSMO-CLM) Details on the observations can be found in the paper: DOI: LINK: http: doi.org/10.1088/1748-9326/aac794." assertion.
a8c21c10-47aa-4145-a2f2-173f1c501773 Sentence "To facilitate a more widespread use of volumetric tumor segmentation in clinical studies, there is an urgent need for reliable, user-friendly segmentation software." assertion.
a8c21c10-47aa-4145-a2f2-173f1c501773 Sentence "Our main findings were that there is a high agreement within and between the software packages in terms of small intra-rater, inter-rater and between-software differences of means and high Dice?s similarity coefficients." assertion.
a8c21c10-47aa-4145-a2f2-173f1c501773 Sentence "Between-software agreement and 95 % LoA were very similar for the different software packages." assertion.
b2139b4a-c8c8-4a41-9601-e3325eeda646 Sentence "Comparison of the tropical tropopause in ECMWF reanalyses and GPS-RO satellite observation." assertion.
b2139b4a-c8c8-4a41-9601-e3325eeda646 Sentence "All scripts and figures used in master thesis submitted by Johanne Mehren 2020-06-25." assertion.
fd932f10-150c-45cd-a5c7-765d0fa0c0d7 Sentence "Grid cell data Hafting et al 2005." assertion.
fd932f10-150c-45cd-a5c7-765d0fa0c0d7 Sentence "Spike-time data for grid cells." assertion.
fd932f10-150c-45cd-a5c7-765d0fa0c0d7 Sentence "The data was used in the publication: Hafting, T. et al, 2005, "Microstructure of a spatial map in the entorhinal cortex" 436, 801-806 (doi:10.1038/nature03721)" assertion.
8b060f8b-89c6-4d94-be82-4141257b69a1 Sentence "Spike-time data for grid cells." assertion.
8b060f8b-89c6-4d94-be82-4141257b69a1 Sentence "Grid cell data Sargolini et al 2006." assertion.
8b060f8b-89c6-4d94-be82-4141257b69a1 Sentence "Data used in the publidation: Sargolini, F. et al, 2006, "Conjunctive Representation of Position, Direction, and Velocity in Entorhinal Cortex" Science 312 (5774) 758-612 (doi:10.1126/science.1125572)" assertion.
8ea05dcd-5699-4eac-a543-9f26db2aed27 Sentence "Spike-time data for grid cells." assertion.
8ea05dcd-5699-4eac-a543-9f26db2aed27 Sentence "Grid cell data Brun et al 2008." assertion.
8ea05dcd-5699-4eac-a543-9f26db2aed27 Sentence "Data used in the publication: Brun, V. 2008, "Progressive increase in grid scale from dorsal to ventral medial entorhinal cortex" Hippocampus, 18, 1200?" assertion.
1629b99a-a623-4b21-be4f-427330e04c36 Sentence "Construction algorithms remodel the arbitrarily complex control flow of a procedure to make it amenable to DDG representation, whereas destruction algorithms reestablish control flow for generating efficient object code." assertion.
1629b99a-a623-4b21-be4f-427330e04c36 Sentence "We provide an algorithm for constructing RVSDGs in predicate continuation form, and propose a novel destruction algorithm for RVSDGs in this form." assertion.
1629b99a-a623-4b21-be4f-427330e04c36 Sentence "Demand-based dependence graphs (DDGs) such as the (Regionalized) Value State Dependence Graph (R)VSDG) are intermediate representations (IRs) well suited for a wide range of program transformations." assertion.
afc95f4d-ef46-47bf-a284-89e1bd53495b Sentence "This dataset is collective static information outputted by the TOPAZ4 reanalysis in 1991-2013." assertion.
afc95f4d-ef46-47bf-a284-89e1bd53495b Sentence "Observations and ensemble statics of the TOPAZ4 reanalysis of 1991-2013." assertion.
afc95f4d-ef46-47bf-a284-89e1bd53495b Sentence "Quality assessment of the TOPAZ4 reanalysis in the Arctic over the period 1991?" assertion.
bfab61ab-8d3a-4c8a-956a-0d05839af73b Sentence "Data and analysis used in the publication: Wernle, T. et al. 2017, "Integration of grid maps in merged environments" (NN-A60549A) format: Matlab." assertion.

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