[ {
  "@graph" : [ {
    "@id" : "https://w3id.org/np/RAqJeIhz4WMMCVq8FpoN2bIxcf81dqs_Wj_RAj9eok6GU",
    "@type" : [ "http://www.nanopub.org/nschema#Nanopublication" ],
    "http://www.nanopub.org/nschema#hasAssertion" : [ {
      "@id" : "https://w3id.org/np/RAqJeIhz4WMMCVq8FpoN2bIxcf81dqs_Wj_RAj9eok6GU/assertion"
    } ],
    "http://www.nanopub.org/nschema#hasProvenance" : [ {
      "@id" : "https://w3id.org/np/RAqJeIhz4WMMCVq8FpoN2bIxcf81dqs_Wj_RAj9eok6GU/provenance"
    } ],
    "http://www.nanopub.org/nschema#hasPublicationInfo" : [ {
      "@id" : "https://w3id.org/np/RAqJeIhz4WMMCVq8FpoN2bIxcf81dqs_Wj_RAj9eok6GU/pubinfo"
    } ]
  } ],
  "@id" : "https://w3id.org/np/RAqJeIhz4WMMCVq8FpoN2bIxcf81dqs_Wj_RAj9eok6GU/Head"
}, {
  "@graph" : [ {
    "@id" : "http://eurovoc.europa.eu/2919",
    "@type" : [ "http://schema.org/DefinedTerm" ],
    "http://schema.org/description" : [ {
      "@value" : ""
    } ],
    "http://schema.org/name" : [ {
      "@value" : "Environmental research"
    } ]
  }, {
    "@id" : "http://eurovoc.europa.eu/3941",
    "@type" : [ "http://schema.org/DefinedTerm" ],
    "http://schema.org/description" : [ {
      "@value" : ""
    } ],
    "http://schema.org/name" : [ {
      "@value" : "Life sciences"
    } ]
  }, {
    "@id" : "http://eurovoc.europa.eu/3946",
    "@type" : [ "http://schema.org/DefinedTerm" ],
    "http://schema.org/description" : [ {
      "@value" : ""
    } ],
    "http://schema.org/name" : [ {
      "@value" : "Physical sciences"
    } ]
  }, {
    "@id" : "http://eurovoc.europa.eu/3952",
    "@type" : [ "http://schema.org/DefinedTerm" ],
    "http://schema.org/description" : [ {
      "@value" : ""
    } ],
    "http://schema.org/name" : [ {
      "@value" : "Earth sciences"
    } ]
  }, {
    "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/",
    "@type" : [ "http://purl.org/wf4ever/ro#ResearchObject", "http://purl.org/wf4ever/roevo#LiveRO", "http://schema.org/Dataset", "http://w3id.org/ro/earth-science#DataResearchObject", "https://w3id.org/ro/terms/earth-science#DataResearchObject" ],
    "http://schema.org/about" : [ {
      "@id" : "http://eurovoc.europa.eu/2919"
    }, {
      "@id" : "http://eurovoc.europa.eu/3941"
    }, {
      "@id" : "http://eurovoc.europa.eu/3946"
    }, {
      "@id" : "http://eurovoc.europa.eu/3952"
    } ],
    "http://schema.org/author" : [ {
      "@id" : "mailto:chuncheng.guo@rohub.com"
    } ],
    "http://schema.org/contentSize" : [ {
      "@type" : "http://www.w3.org/2001/XMLSchema#integer",
      "@value" : "12925"
    } ],
    "http://schema.org/contentUrl" : [ {
      "@value" : "https://api.rohub.org/api/ros/2bcdebae-c7e8-4e97-9e38-8555365a3218/crate/download/"
    } ],
    "http://schema.org/creator" : [ {
      "@id" : "mailto:georgehadib@gmail.com"
    } ],
    "http://schema.org/dateCreated" : [ {
      "@value" : "2022-03-22 03:08:15.247195+00:00"
    } ],
    "http://schema.org/dateModified" : [ {
      "@value" : "2025-03-05 12:48:07.126833+00:00"
    } ],
    "http://schema.org/datePublished" : [ {
      "@value" : "2022-03-22 03:08:15.247195+00:00"
    } ],
    "http://schema.org/description" : [ {
      "@value" : "This dataset contains a thousand years' simulation of the Eemian climate at 125 ka BP, using the NorESM1-F version of NorESM.\n Data description: case = NBF1850OC_f19_tn11_01_125ka ; Source = CAM ; Variables =\t\tlev:hybrid level at midpoints (1000*(A+B)) ;\thyam:hybrid A coefficient at layer midpoints ;\thybm:hybrid B coefficient at layer midpoints ;\tilev:hybrid level at interfaces (1000*(A+B)) ;\thyai:hybrid A coefficient at layer interfaces ;\thybi:hybrid B coefficient at layer interfaces ;\tP0:reference pressure ;\ttime:time ;\tdate:current date (YYYYMMDD) ;\tdatesec:current seconds of current date ;\tlat:latitude ;\tlon:longitude ;\tslat:staggered latitude ;\tslon:staggered longitude ;\tw_stag:staggered latitude weights ;\ttime_bnds:time interval endpoints ;\tntrm:spectral truncation parameter M ;\tntrn:spectral truncation parameter N ;\tntrk:spectral truncation parameter K ;\tndbase:base day ;\tnsbase:seconds of base day ;\tnbdate:base date (YYYYMMDD) ;\tnbsec:seconds of base date ;\tmdt:timestep ;\tnlon:number of longitudes ;\twnummax:cutoff Fourier wavenumber ;\tgw:gauss weights ;\tndcur:current day (from base day) ;\tnscur:current seconds of current day ;\tco2vmr:co2 volume mixing ratio ;\tch4vmr:ch4 volume mixing ratio ;\tn2ovmr:n2o volume mixing ratio ;\tf11vmr:f11 volume mixing ratio ;\tf12vmr:f12 volume mixing ratio ;\tsol_tsi:total solar irradiance ;\tnsteph:current timestep ;\tCLDHGH:Vertically-integrated high cloud ;\tCLDLOW:Vertically-integrated low cloud ;\tCLDMED:Vertically-integrated mid-level cloud ;\tCLDTOT:Vertically-integrated total cloud ;\tCLOUD:Cloud fraction ;\tFLDS:Downwelling longwave flux at surface ;\tFLDSC:Clearsky downwelling longwave flux at surface ;\tFLNS:Net longwave flux at surface ;\tFLNSC:Clearsky net longwave flux at surface ;\tFLNT:Net longwave flux at top of model ;\tFLNTC:Clearsky net longwave flux at top of model ;\tFLUT:Upwelling longwave flux at top of model ;\tFLUTC:Clearsky upwelling longwave flux at top of model ;\tFSDS:Downwelling solar flux at surface ;\tFSDSC:Clearsky downwelling solar flux at surface ;\tFSDTOA:Downwelling solar flux at top of atmosphere ;\tFSNS:Net solar flux at surface ;\tFSNSC:Clearsky net solar flux at surface ;\tFSNT:Net solar flux at top of model ;\tFSNTC:Clearsky net solar flux at top of model ;\tFSNTOA:Net solar flux at top of atmosphere ;\tFSNTOAC:Clearsky net solar flux at top of atmosphere ;\tFSUTOA:Upwelling solar flux at top of atmosphere ;\tICEFRAC:Fraction of sfc area covered by sea-ice ;\tLANDFRAC:Fraction of sfc area covered by land ;\tLHFLX:Surface latent heat flux ;\tLWCF:Longwave cloud forcing ;\tOCNFRAC:Fraction of sfc area covered by ocean ;\tOMEGA:Vertical velocity (pressure) ;\tOMEGA500:Vertical velocity at 500 mbar pressure surface ;\tOMEGA850:Vertical velocity at 850 mbar pressure surface ;\tPBLH:PBL height ;\tPRECC:Convective precipitation rate (liq + ice) ;\tPRECL:Large-scale (stable) precipitation rate (liq + ice) ;\tPRECT:Total (convective and large-scale) precipitation rate (liq + ice) ;\tPS:Surface pressure ;\tPSL:Sea level pressure ;\tQ:Specific humidity ;\tQFLX:Surface water flux ;\tQREFHT:Reference height humidity ;\tRELHUM:Relative humidity ;\tRHREFHT:Reference height relative humidity ;\tSHFLX:Surface sensible heat flux ;\tSNOWHICE:Water equivalent snow depth ;\tSNOWHLND:Water equivalent snow depth ;\tSOLIN:Solar insolation ;\tSOLLD:Solar downward near infrared diffuse to surface ;\tSOLSD:Solar downward visible diffuse to surface ;\tSRFRAD:Net radiative flux at surface ;\tSWCF:Shortwave cloud forcing ;\tT:Temperature ;\tT1000:Temperature at 1000 mbar pressure surface ;\tT200:Temperature at 200 mbar pressure surface ;\tT500:Temperature at 500 mbar pressure surface ;\tT700:Temperature at 700 mbar pressure surface ;\tT850:Temperature at 850 mbar pressure surface ;\tTAUX:Zonal surface stress ;\tTAUY:Meridional surface stress ;\tTGCLDLWP:Total grid-box cloud liquid water path ;\tTMQ:Total (vertically integrated) precipitatable water ;\tTREFHT:Reference height temperature ;\tTS:Surface temperature (radiative) ;\tTSMN:Minimum surface temperature over output period ;\tTSMX:Maximum surface temperature over output period ;\tU:Zonal wind ;\tU10:10m wind speed ;\tU200:Zonal wind at 200 mbar pressure surface ;\tU850:Zonal wind at 850 mbar pressure surface ;\tV:Meridional wind ;\tV200:Meridional wind at 200 mbar pressure surface ;\tV850:Meridional wind at 850 mbar pressure surface ;\tZ050:Geopotential Z at 50 mbar pressure surface ;\tZ100:Geopotential Z at 100 mbar pressure surface ;\tZ200:Geopotential Z at 200 mbar pressure surface ;\tZ3:Geopotential Height (above sea level) ;\tZ300:Geopotential Z at 300 mbar pressure surface ;\tZ500:Geopotential Z at 500 mbar pressure surface ;\tZ700:Geopotential Z at 700 mbar pressure surface ;\tSource = MICOM ; Variables =\t\ttime:time ;\tsigma:Potential density ;\tdepth:z level ;\tsigmx:Mixed layer density ;\tubaro:Barotropic velocity x-component ;\tvbaro:Barotropic velocity y-component ;\tsealv:Sea level ;\tfice:Ice concentration ;\tswa:Short-wave heat flux ;\tnsf:Non-solar heat flux ;\thmltfz:Heat flux due to melting/freezing ;\thflx:Heat flux received by ocean ;\tlip:Liquid precipitation ;\tsop:Solid precipitation ;\teva:Evaporation ;\tfmltfz:Fresh water flux due to melting/freezing ;\trnf:Liquid runoff ;\trfi:Frozen runoff ;\tsflx:Salt flux received by ocean ;\tbflx:Brine flux ;\tztx:Wind stress x-component ;\tmty:Wind stress y-component ;\ttaux:Momentum flux received by ocean x-component ;\ttauy:Momentum flux received by ocean y-component ;\tustar:Friction velocity ;\tabswnd:Absolute wind speed ;\tsfl:Salt flux ;\tmld:Mixed layer depth ;\tmaxmld:Maximum mixed layer depth ;\tbrnpd:Brine plume depth ;\tsst:Ocean surface temperature ;\tsss:Ocean surface salinity ;\tmxlu:Mixed layer velocity x-component ;\tmxlv:Mixed layer velocity y-component ;\tSource = CLM ; Variables =\t\tlevgrnd:coordinate soil levels ;\tlevlak:coordinate lake levels ;\tedgen:northern edge of surface grid ;\tedgee:eastern edge of surface grid ;\tedges:southern edge of surface grid ;\tedgew:western edge of surface grid ;\ttime:time ;\tmcdate:current date (YYYYMMDD) ;\tmcsec:current seconds of current date ;\tmdcur:current day (from base day) ;\tmscur:current seconds of current day ;\tnstep:time step ;\ttime_bounds:history time interval endpoints ;\tlon:coordinate longitude ;\tlat:coordinate latitude ;\tlonatm:atm coordinate longitude ;\tlatatm:atm coordinate latitude ;\tlonrof:runoff coordinate longitude ;\tlatrof:runoff coordinate latitude ;\tlongxy:longitude ;\tlatixy:latitude ;\tarea:grid cell areas ;\tareaupsc:normalized grid cell areas related to upscaling ;\ttopo:grid cell topography ;\ttopodnsc:normalized grid cell topography related to downscaling ;\tlandfrac:land fraction ;\tlandmask:land/ocean mask (0.=ocean and 1.=land) ;\tpftmask:pft real/fake mask (0.=fake and 1.=real) ;\tindxupsc:upscaling atm global grid index ;\tlongxyatm:atm longitude ;\tlatixyatm:atm latitude ;\tareaatm:atm grid cell areas ;\tZSOI:soil depth ;\tDZSOI:soil thickness ;\tWATSAT:saturated soil water content (porosity) ;\tSUCSAT:saturated soil matric potential ;\tBSW:slope of soil water retention curve ;\tHKSAT:saturated hydraulic conductivity ;\tFSNO:fraction of ground covered by snow ;\tSNOWDP:snow height ;\tSOILWATER_10CM:soil liquid water + ice in top 10cm of soil ;\tSource = CICE ; Variables =\t\ttime:model time ;\ttime_bounds:boundaries for time-averaging interval ;\tTLON:T grid center longitude ;\tTLAT:T grid center latitude ;\tULON:U grid center longitude ;\tULAT:U grid center latitude ;\ttarea:area of T grid cells ;\tANGLE:angle grid makes with latitude line on U grid ;\thi:grid cell mean ice thickness ;\ths:grid cell mean snow thickness ;\tfs:grid cell mean snow fraction ;\taice:ice area  (aggregate) ;\tuvel:ice velocity (x) ;\tvvel:ice velocity (y) ;\ttransix:ice mass transport (x) on East side ;\ttransiy:ice mass transport (y) on North side ;\tcongel:congelation ice growth ;\tfrazil:frazil ice growth ;\tmeltt:top ice melt ;\tmeltb:basal ice melt ;\tmeltl:lateral ice melt ;\tfresh_ai:freshwtr flx ice to ocn ;\tfsalt_ai:salt flux ice to ocean ;\n Science publication: Published : DOI: 10.5194/cp-14-1463-2018, URL: LINK: http://www.clim-past.net/14/1463/2018/, Citation: Plach et al., Eemian Greenland SMB strongly sensitive to model choice, Climate of the Past, 2018 (primary)"
    } ],
    "http://schema.org/encodingFormat" : [ {
      "@value" : "application/ld+json"
    } ],
    "http://schema.org/hasPart" : [ {
      "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/folders/580744d4-fee1-4cf0-b55b-5be0d4327a2f"
    }, {
      "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/folders/7c804d50-d630-4a12-8e03-8c250cdedb97"
    }, {
      "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/folders/c3a2b2be-6a4b-47a4-8e0d-07c091a691ad"
    }, {
      "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/folders/f56bde4c-2d4e-47f4-b333-f00dc8eba0b0"
    } ],
    "http://schema.org/identifier" : [ {
      "@value" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218"
    } ],
    "http://schema.org/license" : [ {
      "@id" : "https://choosealicense.com/no-permission/"
    } ],
    "http://schema.org/name" : [ {
      "@value" : "NorESM1-F Eemian 125ka simulation"
    } ],
    "http://w3id.org/ro-id/rohub/model#creation_mode" : [ {
      "@value" : "MANUAL"
    } ],
    "http://w3id.org/ro/earth-science#Concept" : [ {
      "@value" : "atmosphere"
    }, {
      "@value" : "flux"
    }, {
      "@value" : "humidity"
    }, {
      "@value" : "land"
    }, {
      "@value" : "latent heat"
    }, {
      "@value" : "pressure"
    }, {
      "@value" : "prison cell"
    }, {
      "@value" : "short wave"
    }, {
      "@value" : "temperature"
    }, {
      "@value" : "topography"
    }, {
      "@value" : "transport"
    }, {
      "@value" : "velocity"
    } ],
    "http://w3id.org/ro/earth-science#FieldOfResearch" : [ {
      "@value" : "earth sciences"
    } ],
    "http://w3id.org/ro/earth-science#IPTC" : [ {
      "@value" : "Climate change"
    }, {
      "@value" : "Synthetic and plastic chemicals"
    }, {
      "@value" : "Weather statistic"
    }, {
      "@value" : "Weather"
    } ],
    "http://w3id.org/ro/earth-science#Lemma" : [ {
      "@value" : "Geopotential"
    }, {
      "@value" : "atm"
    }, {
      "@value" : "cell"
    }, {
      "@value" : "heat flux"
    }, {
      "@value" : "humidity"
    }, {
      "@value" : "pressure"
    }, {
      "@value" : "temperature"
    } ],
    "http://w3id.org/ro/earth-science#NASA" : [ {
      "@value" : "geosciences"
    } ],
    "http://w3id.org/ro/earth-science#Phrase" : [ {
      "@value" : "grid cell area"
    }, {
      "@value" : "grid cell topography"
    }, {
      "@value" : "pressure surface"
    }, {
      "@value" : "reference pressure"
    }, {
      "@value" : "salt flux ice"
    } ],
    "http://w3id.org/ro/earth-science#Sentence" : [ {
      "@value" : "Data description: case = NBF1850OC_f19_tn11_01_125ka; Source = CAM; Variables = lev:hybrid level at midpoints (1000* A+B); hyam:hybrid A coefficient at layer midpoints; hybm:hybrid B coefficient at layer midpoints; ilev:hybrid level at interfaces (1000* A+B); hyai:hybrid A coefficient at layer interfaces; hybi:hybrid B coefficient at layer interfaces; P0:reference pressure; time:time; date:current date (YYYYMMDD); datesec:current seconds of current date; lat:latitude; lon:longitude; slat:staggered latitude; slon:staggered longitude; w_stag:staggered latitude weights; 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; gw:gauss weights; ndcur:current day (from base day); nscur:current seconds of current day; 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; nsteph:current timestep; CLDHGH:Vertically-integrated high cloud; CLDLOW:Vertically-integrated low cloud; CLDMED:Vertically-integrated mid-level cloud; CLDTOT:Vertically-integrated total cloud; CLOUD:Cloud fraction; 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; FSDS:Downwelling solar flux at surface; FSDSC:Clearsky downwelling solar flux at surface; FSDTOA:Downwelling solar flux at top of atmosphere; 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; ICEFRAC:Fraction of sfc area covered by sea-ice; LANDFRAC:Fraction of sfc area covered by land; LHFLX:Surface latent heat flux; LWCF:Longwave cloud forcing; OCNFRAC:Fraction of sfc area covered by ocean; OMEGA:Vertical velocity (pressure); OMEGA500:Vertical velocity at 500 mbar pressure surface; OMEGA850:Vertical velocity at 850 mbar pressure surface; PBLH:PBL height; PRECC:Convective precipitation rate (liq + ice); PRECL:Large-scale (stable) precipitation rate (liq + ice); PRECT:Total (convective and large-scale) precipitation rate (liq + ice); PS:Surface pressure; PSL:Sea level pressure; Q:Specific humidity; QFLX:Surface water flux; QREFHT:Reference height humidity; RELHUM:Relative humidity; RHREFHT:Reference height relative humidity; SHFLX:Surface sensible heat flux; SNOWHICE:Water equivalent snow depth; SNOWHLND:Water equivalent snow depth; SOLIN:Solar insolation; SOLLD:Solar downward near infrared diffuse to surface; SOLSD:Solar downward visible diffuse to surface; SRFRAD:Net radiative flux at surface; SWCF:Shortwave cloud forcing; T:Temperature; T1000:Temperature at 1000 mbar pressure surface; T200:Temperature at 200 mbar pressure surface; T500:Temperature at 500 mbar pressure surface; T700:Temperature at 700 mbar pressure surface; T850:Temperature at 850 mbar pressure surface; TAUX:Zonal surface stress; TAUY:Meridional surface stress; TGCLDLWP:Total grid-box cloud liquid water path; TMQ:Total (vertically integrated) precipitatable water; TREFHT:Reference height temperature; 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; U200:Zonal wind at 200 mbar pressure surface; U850:Zonal wind at 850 mbar pressure surface; V:Meridional wind; V200:Meridional wind at 200 mbar pressure surface; V850:Meridional wind at 850 mbar pressure surface; Z050:Geopotential Z at 50 mbar pressure surface; Z100:Geopotential Z at 100 mbar pressure surface; Z200:Geopotential Z at 200 mbar pressure surface; Z3:Geopotential Height (above sea level); Z300:Geopotential Z at 300 mbar pressure surface; Z500:Geopotential Z at 500 mbar pressure surface; Z700:Geopotential Z at 700 mbar pressure surface; Source = MICOM; Variables = time:time; sigma:Potential density; depth:z level; sigmx:Mixed layer density; ubaro:Barotropic velocity x-component; vbaro:Barotropic velocity y-component; sealv:Sea level; fice:Ice concentration; swa:Short-wave heat flux; nsf:Non-solar heat flux; hmltfz:Heat flux due to melting/freezing; hflx:Heat flux received by ocean; lip:Liquid precipitation; sop:Solid precipitation; eva:Evaporation; fmltfz:Fresh water flux due to melting/freezing; rnf:Liquid runoff; rfi:Frozen runoff; sflx:Salt flux received by ocean; bflx:Brine flux; ztx:Wind stress x-component; mty:Wind stress y-component; taux:Momentum flux received by ocean x-component; tauy:Momentum flux received by ocean y-component; ustar:Friction velocity; abswnd:Absolute wind speed; sfl:Salt flux; mld:Mixed layer depth; maxmld:Maximum mixed layer depth; brnpd:Brine plume depth; sst:Ocean surface temperature; sss:Ocean surface salinity; mxlu:Mixed layer velocity x-component; mxlv:Mixed layer velocity y-component; 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; FSNO:fraction of ground covered by snow; SNOWDP:snow height; SOILWATER_10CM:soil liquid water + ice in top 10cm of soil; 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; tarea:area of T grid cells; ANGLE:angle grid makes with latitude line on U grid; hi:grid cell mean ice thickness; hs:grid cell mean snow thickness; fs:grid cell mean snow fraction; aice:ice area (aggregate); uvel:ice velocity (x); vvel:ice velocity (y); transix:ice mass transport (x) on East side; transiy:ice mass transport (y) on North side; congel:congelation ice growth; frazil:frazil ice growth; meltt:top ice melt; meltb:basal ice melt; meltl:lateral ice melt; fresh_ai:freshwtr flx ice to ocn; fsalt_ai:salt flux ice to ocean;"
    }, {
      "@value" : "Science publication: Published: DOI: 10.5194/cp-14-1463-2018, URL: LINK: http: www.clim-past.net/14/1463/2018/ Citation: Plach et al. Eemian Greenland SMB strongly sensitive to model choice, Climate of the Past, 2018 (primary)"
    }, {
      "@value" : "This dataset contains a thousand years' simulation of the Eemian climate at 125 ka BP, using the NorESM1-F version of NorESM."
    } ],
    "https://w3id.org/contentdesc#Domain" : [ {
      "@value" : "astronomy"
    }, {
      "@value" : "physics"
    } ],
    "https://w3id.org/contentdesc#Organization" : [ {
      "@value" : "Interior"
    } ],
    "https://www.w3.org/ns/iana/link-relations/relation#cite-as" : [ {
      "@value" : "Chuncheng Guo. \"NorESM1-F Eemian 125ka simulation.\" ROHub. Mar 22 ,2022. https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218."
    } ]
  }, {
    "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/#enrichment_service-account-enrichment",
    "@type" : [ "http://xmlns.com/foaf/0.1/Agent" ],
    "http://schema.org/name" : [ {
      "@value" : "service-account-enrichment"
    } ]
  }, {
    "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/folders/580744d4-fee1-4cf0-b55b-5be0d4327a2f",
    "@type" : [ "http://purl.org/wf4ever/wf4ever#Folder", "http://schema.org/Dataset" ],
    "http://schema.org/name" : [ {
      "@value" : "raw data"
    } ]
  }, {
    "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/folders/7c804d50-d630-4a12-8e03-8c250cdedb97",
    "@type" : [ "http://purl.org/wf4ever/wf4ever#Folder", "http://schema.org/Dataset" ],
    "http://schema.org/name" : [ {
      "@value" : "metadata"
    } ]
  }, {
    "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/folders/c3a2b2be-6a4b-47a4-8e0d-07c091a691ad",
    "@type" : [ "http://purl.org/wf4ever/wf4ever#Folder", "http://schema.org/Dataset" ],
    "http://schema.org/hasPart" : [ {
      "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/resources/ab72a2e6-c60d-4ede-9961-28829ed96fd9"
    } ],
    "http://schema.org/name" : [ {
      "@value" : "data"
    } ]
  }, {
    "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/folders/f56bde4c-2d4e-47f4-b333-f00dc8eba0b0",
    "@type" : [ "http://purl.org/wf4ever/wf4ever#Folder", "http://schema.org/Dataset" ],
    "http://schema.org/hasPart" : [ {
      "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/resources/84c05035-0ffa-4192-8904-97fc89c39fe8"
    } ],
    "http://schema.org/name" : [ {
      "@value" : "biblio"
    } ]
  }, {
    "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/resources/84c05035-0ffa-4192-8904-97fc89c39fe8",
    "@type" : [ "http://purl.org/dc/terms/BibliographicResource", "http://purl.org/wf4ever/wf4ever#Resource", "http://schema.org/MediaObject" ],
    "http://schema.org/author" : [ {
      "@id" : "mailto:georgehadib@gmail.com"
    } ],
    "http://schema.org/contentUrl" : [ {
      "@value" : "https://doi.org/10.5194/cp-14-1463-2018"
    } ],
    "http://schema.org/creator" : [ {
      "@id" : "mailto:georgehadib@gmail.com"
    } ],
    "http://schema.org/dateCreated" : [ {
      "@value" : "2022-03-22 03:08:29.802407+00:00"
    } ],
    "http://schema.org/dateModified" : [ {
      "@value" : "2022-03-22 03:08:30.112658+00:00"
    } ],
    "http://schema.org/license" : [ {
      "@id" : "https://choosealicense.com/no-permission/"
    } ],
    "http://schema.org/name" : [ {
      "@value" : "https://doi.org/10.5194/cp-14-1463-2018"
    } ],
    "http://schema.org/sdDatePublished" : [ {
      "@value" : "2022-03-22 03:08:29.802407+00:00"
    } ]
  }, {
    "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/resources/ab72a2e6-c60d-4ede-9961-28829ed96fd9",
    "@type" : [ "http://purl.org/wf4ever/wf4ever#Dataset", "http://purl.org/wf4ever/wf4ever#Resource", "http://schema.org/MediaObject" ],
    "http://purl.org/dc/terms/bibliographicCitation" : [ {
      "@value" : "Guo, C. (2018).NorESM1-F Eemian 125ka simulation [Data set]. Norstore. https://doi.org/10.11582/2018.00033"
    } ],
    "http://purl.org/dc/terms/rightsHolder" : [ {
      "@value" : "Chuncheng Guo"
    } ],
    "http://purl.org/dc/terms/type" : [ {
      "@value" : "Simulation"
    } ],
    "http://schema.org/author" : [ {
      "@id" : "mailto:georgehadib@gmail.com"
    } ],
    "http://schema.org/contentUrl" : [ {
      "@value" : "https://archive.sigma2.no/pages/public/datasetDetail.jsf?id=10.11582/2018.00033"
    } ],
    "http://schema.org/creator" : [ {
      "@id" : "mailto:georgehadib@gmail.com"
    } ],
    "http://schema.org/dateCreated" : [ {
      "@value" : "2018-10-22 00:00:00"
    } ],
    "http://schema.org/dateModified" : [ {
      "@value" : "2022-03-22 03:08:34.128256+00:00"
    } ],
    "http://schema.org/description" : [ {
      "@value" : "This dataset contains a thousand years' simulation of the Eemian climate at 125 ka BP, using the NorESM1-F version of NorESM.\n Data description: case = NBF1850OC_f19_tn11_01_125ka ; Source = CAM ; Variables =\t\tlev:hybrid level at midpoints (1000*(A+B)) ;\thyam:hybrid A coefficient at layer midpoints ;\thybm:hybrid B coefficient at layer midpoints ;\tilev:hybrid level at interfaces (1000*(A+B)) ;\thyai:hybrid A coefficient at layer interfaces ;\thybi:hybrid B coefficient at layer interfaces ;\tP0:reference pressure ;\ttime:time ;\tdate:current date (YYYYMMDD) ;\tdatesec:current seconds of current date ;\tlat:latitude ;\tlon:longitude ;\tslat:staggered latitude ;\tslon:staggered longitude ;\tw_stag:staggered latitude weights ;\ttime_bnds:time interval endpoints ;\tntrm:spectral truncation parameter M ;\tntrn:spectral truncation parameter N ;\tntrk:spectral truncation parameter K ;\tndbase:base day ;\tnsbase:seconds of base day ;\tnbdate:base date (YYYYMMDD) ;\tnbsec:seconds of base date ;\tmdt:timestep ;\tnlon:number of longitudes ;\twnummax:cutoff Fourier wavenumber ;\tgw:gauss weights ;\tndcur:current day (from base day) ;\tnscur:current seconds of current day ;\tco2vmr:co2 volume mixing ratio ;\tch4vmr:ch4 volume mixing ratio ;\tn2ovmr:n2o volume mixing ratio ;\tf11vmr:f11 volume mixing ratio ;\tf12vmr:f12 volume mixing ratio ;\tsol_tsi:total solar irradiance ;\tnsteph:current timestep ;\tCLDHGH:Vertically-integrated high cloud ;\tCLDLOW:Vertically-integrated low cloud ;\tCLDMED:Vertically-integrated mid-level cloud ;\tCLDTOT:Vertically-integrated total cloud ;\tCLOUD:Cloud fraction ;\tFLDS:Downwelling longwave flux at surface ;\tFLDSC:Clearsky downwelling longwave flux at surface ;\tFLNS:Net longwave flux at surface ;\tFLNSC:Clearsky net longwave flux at surface ;\tFLNT:Net longwave flux at top of model ;\tFLNTC:Clearsky net longwave flux at top of model ;\tFLUT:Upwelling longwave flux at top of model ;\tFLUTC:Clearsky upwelling longwave flux at top of model ;\tFSDS:Downwelling solar flux at surface ;\tFSDSC:Clearsky downwelling solar flux at surface ;\tFSDTOA:Downwelling solar flux at top of atmosphere ;\tFSNS:Net solar flux at surface ;\tFSNSC:Clearsky net solar flux at surface ;\tFSNT:Net solar flux at top of model ;\tFSNTC:Clearsky net solar flux at top of model ;\tFSNTOA:Net solar flux at top of atmosphere ;\tFSNTOAC:Clearsky net solar flux at top of atmosphere ;\tFSUTOA:Upwelling solar flux at top of atmosphere ;\tICEFRAC:Fraction of sfc area covered by sea-ice ;\tLANDFRAC:Fraction of sfc area covered by land ;\tLHFLX:Surface latent heat flux ;\tLWCF:Longwave cloud forcing ;\tOCNFRAC:Fraction of sfc area covered by ocean ;\tOMEGA:Vertical velocity (pressure) ;\tOMEGA500:Vertical velocity at 500 mbar pressure surface ;\tOMEGA850:Vertical velocity at 850 mbar pressure surface ;\tPBLH:PBL height ;\tPRECC:Convective precipitation rate (liq + ice) ;\tPRECL:Large-scale (stable) precipitation rate (liq + ice) ;\tPRECT:Total (convective and large-scale) precipitation rate (liq + ice) ;\tPS:Surface pressure ;\tPSL:Sea level pressure ;\tQ:Specific humidity ;\tQFLX:Surface water flux ;\tQREFHT:Reference height humidity ;\tRELHUM:Relative humidity ;\tRHREFHT:Reference height relative humidity ;\tSHFLX:Surface sensible heat flux ;\tSNOWHICE:Water equivalent snow depth ;\tSNOWHLND:Water equivalent snow depth ;\tSOLIN:Solar insolation ;\tSOLLD:Solar downward near infrared diffuse to surface ;\tSOLSD:Solar downward visible diffuse to surface ;\tSRFRAD:Net radiative flux at surface ;\tSWCF:Shortwave cloud forcing ;\tT:Temperature ;\tT1000:Temperature at 1000 mbar pressure surface ;\tT200:Temperature at 200 mbar pressure surface ;\tT500:Temperature at 500 mbar pressure surface ;\tT700:Temperature at 700 mbar pressure surface ;\tT850:Temperature at 850 mbar pressure surface ;\tTAUX:Zonal surface stress ;\tTAUY:Meridional surface stress ;\tTGCLDLWP:Total grid-box cloud liquid water path ;\tTMQ:Total (vertically integrated) precipitatable water ;\tTREFHT:Reference height temperature ;\tTS:Surface temperature (radiative) ;\tTSMN:Minimum surface temperature over output period ;\tTSMX:Maximum surface temperature over output period ;\tU:Zonal wind ;\tU10:10m wind speed ;\tU200:Zonal wind at 200 mbar pressure surface ;\tU850:Zonal wind at 850 mbar pressure surface ;\tV:Meridional wind ;\tV200:Meridional wind at 200 mbar pressure surface ;\tV850:Meridional wind at 850 mbar pressure surface ;\tZ050:Geopotential Z at 50 mbar pressure surface ;\tZ100:Geopotential Z at 100 mbar pressure surface ;\tZ200:Geopotential Z at 200 mbar pressure surface ;\tZ3:Geopotential Height (above sea level) ;\tZ300:Geopotential Z at 300 mbar pressure surface ;\tZ500:Geopotential Z at 500 mbar pressure surface ;\tZ700:Geopotential Z at 700 mbar pressure surface ;\tSource = MICOM ; Variables =\t\ttime:time ;\tsigma:Potential density ;\tdepth:z level ;\tsigmx:Mixed layer density ;\tubaro:Barotropic velocity x-component ;\tvbaro:Barotropic velocity y-component ;\tsealv:Sea level ;\tfice:Ice concentration ;\tswa:Short-wave heat flux ;\tnsf:Non-solar heat flux ;\thmltfz:Heat flux due to melting/freezing ;\thflx:Heat flux received by ocean ;\tlip:Liquid precipitation ;\tsop:Solid precipitation ;\teva:Evaporation ;\tfmltfz:Fresh water flux due to melting/freezing ;\trnf:Liquid runoff ;\trfi:Frozen runoff ;\tsflx:Salt flux received by ocean ;\tbflx:Brine flux ;\tztx:Wind stress x-component ;\tmty:Wind stress y-component ;\ttaux:Momentum flux received by ocean x-component ;\ttauy:Momentum flux received by ocean y-component ;\tustar:Friction velocity ;\tabswnd:Absolute wind speed ;\tsfl:Salt flux ;\tmld:Mixed layer depth ;\tmaxmld:Maximum mixed layer depth ;\tbrnpd:Brine plume depth ;\tsst:Ocean surface temperature ;\tsss:Ocean surface salinity ;\tmxlu:Mixed layer velocity x-component ;\tmxlv:Mixed layer velocity y-component ;\tSource = CLM ; Variables =\t\tlevgrnd:coordinate soil levels ;\tlevlak:coordinate lake levels ;\tedgen:northern edge of surface grid ;\tedgee:eastern edge of surface grid ;\tedges:southern edge of surface grid ;\tedgew:western edge of surface grid ;\ttime:time ;\tmcdate:current date (YYYYMMDD) ;\tmcsec:current seconds of current date ;\tmdcur:current day (from base day) ;\tmscur:current seconds of current day ;\tnstep:time step ;\ttime_bounds:history time interval endpoints ;\tlon:coordinate longitude ;\tlat:coordinate latitude ;\tlonatm:atm coordinate longitude ;\tlatatm:atm coordinate latitude ;\tlonrof:runoff coordinate longitude ;\tlatrof:runoff coordinate latitude ;\tlongxy:longitude ;\tlatixy:latitude ;\tarea:grid cell areas ;\tareaupsc:normalized grid cell areas related to upscaling ;\ttopo:grid cell topography ;\ttopodnsc:normalized grid cell topography related to downscaling ;\tlandfrac:land fraction ;\tlandmask:land/ocean mask (0.=ocean and 1.=land) ;\tpftmask:pft real/fake mask (0.=fake and 1.=real) ;\tindxupsc:upscaling atm global grid index ;\tlongxyatm:atm longitude ;\tlatixyatm:atm latitude ;\tareaatm:atm grid cell areas ;\tZSOI:soil depth ;\tDZSOI:soil thickness ;\tWATSAT:saturated soil water content (porosity) ;\tSUCSAT:saturated soil matric potential ;\tBSW:slope of soil water retention curve ;\tHKSAT:saturated hydraulic conductivity ;\tFSNO:fraction of ground covered by snow ;\tSNOWDP:snow height ;\tSOILWATER_10CM:soil liquid water + ice in top 10cm of soil ;\tSource = CICE ; Variables =\t\ttime:model time ;\ttime_bounds:boundaries for time-averaging interval ;\tTLON:T grid center longitude ;\tTLAT:T grid center latitude ;\tULON:U grid center longitude ;\tULAT:U grid center latitude ;\ttarea:area of T grid cells ;\tANGLE:angle grid makes with latitude line on U grid ;\thi:grid cell mean ice thickness ;\ths:grid cell mean snow thickness ;\tfs:grid cell mean snow fraction ;\taice:ice area  (aggregate) ;\tuvel:ice velocity (x) ;\tvvel:ice velocity (y) ;\ttransix:ice mass transport (x) on East side ;\ttransiy:ice mass transport (y) on North side ;\tcongel:congelation ice growth ;\tfrazil:frazil ice growth ;\tmeltt:top ice melt ;\tmeltb:basal ice melt ;\tmeltl:lateral ice melt ;\tfresh_ai:freshwtr flx ice to ocn ;\tfsalt_ai:salt flux ice to ocean ;\n Science publication: Published : DOI: 10.5194/cp-14-1463-2018, URL: <a href=\"http://www.clim-past.net/14/1463/2018/\" class=\"linkified\" target=\"_blank\">LINK</a>, Citation: Plach et al., Eemian Greenland SMB strongly sensitive to model choice, Climate of the Past, 2018 (primary)"
    } ],
    "http://schema.org/license" : [ {
      "@id" : "https://choosealicense.com/no-permission/"
    } ],
    "http://schema.org/name" : [ {
      "@value" : "NorESM1-F Eemian 125ka simulation"
    } ],
    "http://schema.org/sdDatePublished" : [ {
      "@value" : "2018-10-22 00:00:00"
    } ],
    "https://schema.org/maintainer" : [ {
      "@value" : "Chuncheng Guo"
    } ]
  }, {
    "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/ro-crate-metadata.json",
    "@type" : [ "http://schema.org/CreativeWork" ],
    "http://purl.org/dc/terms/conformsTo" : [ {
      "@id" : "https://w3id.org/ro/crate/1.1"
    } ],
    "http://schema.org/about" : [ {
      "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/"
    } ]
  }, {
    "@id" : "mailto:chuncheng.guo@rohub.com",
    "@type" : [ "http://xmlns.com/foaf/0.1/Agent" ],
    "http://schema.org/email" : [ {
      "@value" : "chuncheng.guo@rohub.com"
    } ],
    "http://schema.org/name" : [ {
      "@value" : "Chuncheng Guo"
    } ]
  }, {
    "@id" : "mailto:georgehadib@gmail.com",
    "@type" : [ "http://xmlns.com/foaf/0.1/Agent" ],
    "http://schema.org/name" : [ {
      "@value" : "Geo H."
    } ]
  } ],
  "@id" : "https://w3id.org/np/RAqJeIhz4WMMCVq8FpoN2bIxcf81dqs_Wj_RAj9eok6GU/assertion"
}, {
  "@graph" : [ {
    "@id" : "https://w3id.org/np/RAqJeIhz4WMMCVq8FpoN2bIxcf81dqs_Wj_RAj9eok6GU/assertion",
    "http://www.w3.org/ns/prov#wasDerivedFrom" : [ {
      "@id" : "https://api.rohub.org/api/ros/2bcdebae-c7e8-4e97-9e38-8555365a3218/crate/download/ro-crate-metadata.json"
    } ]
  } ],
  "@id" : "https://w3id.org/np/RAqJeIhz4WMMCVq8FpoN2bIxcf81dqs_Wj_RAj9eok6GU/provenance"
}, {
  "@graph" : [ {
    "@id" : "https://w3id.org/np/RAqJeIhz4WMMCVq8FpoN2bIxcf81dqs_Wj_RAj9eok6GU",
    "@type" : [ "http://purl.org/nanopub/x/RoCrateNanopub" ],
    "http://purl.org/dc/terms/created" : [ {
      "@type" : "http://www.w3.org/2001/XMLSchema#dateTime",
      "@value" : "2026-03-03T16:12:22.376+01:00"
    } ],
    "http://purl.org/dc/terms/creator" : [ {
      "@id" : "https://w3id.org/kpxl/gen/terms/RoCrateBot"
    } ],
    "http://purl.org/nanopub/x/introduces" : [ {
      "@id" : "https://w3id.org/ro-id/2bcdebae-c7e8-4e97-9e38-8555365a3218/"
    } ],
    "http://www.w3.org/2000/01/rdf-schema#label" : [ {
      "@value" : "NorESM1-F Eemian 125ka simulation"
    } ]
  }, {
    "@id" : "https://w3id.org/np/RAqJeIhz4WMMCVq8FpoN2bIxcf81dqs_Wj_RAj9eok6GU/sig",
    "http://purl.org/nanopub/x/hasAlgorithm" : [ {
      "@value" : "RSA"
    } ],
    "http://purl.org/nanopub/x/hasPublicKey" : [ {
      "@value" : "MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAxszSDYX5tuCSkP7UiCtftYPFNQVTjgNu0I5fwdML2DLRDlp0xzmsQXRk8oHuvwGvG1aMjj6cpUqO+0rz2Sg/wvHOgUpkRH8VJXvmlkhafMLCMtUtk5JIx7e+fkzCby+fnmD7kMkGLrT+OaExWwEDmNlCAt0TPKcHSdwsjso2isXjtAsGevyCMke8ufnFYpjs746JES1eNzVnHnn2Kp/lqcm60GM+J8dLgRZp7fX0anW098xhKym6+xXFzqeju0vYRIHBPerv+r7skWxwk+a7Sd8msqVeYEv6NTqnyWvyWb6Yh8cvj04N6qm/T6C5FUPLQhzSaQgMVMU6yLqjPuu9DwIDAQAB"
    } ],
    "http://purl.org/nanopub/x/hasSignature" : [ {
      "@value" : "lEgoK4Sza9CnfPbNDsY3Cwnzu/KDh0LJLdL8MxVyV0yVvCm5/Y5n3fD/7C8vhpDaQ2qA3ffFmqtT7SByE7T2wpq52TM7daIiekTByIqfXsaMao+dMMtQjfCZsehf4aGY8EpUZJxlJd733tQhKoLhu7IsThBISWgL1Oz7hDVX5qlhXBeCulQVSJm6WMZ/rKDhoRHZdNX1IgEThhKZLDEDKpk0J9D3q+0on33eFUOttZQ1tLikJHQXDzoGOGfOskTK9I2O/11+ewwz3+qwnmt9CIEfSG0lpwgl/2gYAHrP9iLf1fSkK5qx09cVSsSKSXbmIef6HczM4O8wMc8HdeUQmw=="
    } ],
    "http://purl.org/nanopub/x/hasSignatureTarget" : [ {
      "@id" : "https://w3id.org/np/RAqJeIhz4WMMCVq8FpoN2bIxcf81dqs_Wj_RAj9eok6GU"
    } ],
    "http://purl.org/nanopub/x/signedBy" : [ {
      "@id" : "https://w3id.org/kpxl/gen/terms/RoCrateBot"
    } ]
  } ],
  "@id" : "https://w3id.org/np/RAqJeIhz4WMMCVq8FpoN2bIxcf81dqs_Wj_RAj9eok6GU/pubinfo"
} ]