https://w3id.org/np/RAS0ZgDRWQbCddUv_CleyXr8iARBjRL4wDYLdZT0Vrx-A
.trig | .trig.txt | .jelly | .jelly.txt | .jsonld | .jsonld.txt | .nq | .nq.txt | .xml | .xml.txt
@prefix this: <https://w3id.org/np/RAS0ZgDRWQbCddUv_CleyXr8iARBjRL4wDYLdZT0Vrx-A> .
@prefix sub: <https://w3id.org/np/RAS0ZgDRWQbCddUv_CleyXr8iARBjRL4wDYLdZT0Vrx-A/> .
@prefix np: <http://www.nanopub.org/nschema#> .
@prefix dct: <http://purl.org/dc/terms/> .
@prefix pav: <http://purl.org/pav/> .
@prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
@prefix owl: <http://www.w3.org/2002/07/owl#> .
@prefix rdfg: <http://www.w3.org/2004/03/trix/rdfg-1/> .
@prefix dce: <http://purl.org/dc/elements/1.1/> .
@prefix xsd: <http://www.w3.org/2001/XMLSchema#> .
@prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> .
@prefix prov: <http://www.w3.org/ns/prov#> .
@prefix npx: <http://purl.org/nanopub/x/> .
sub:Head {
this: a np:Nanopublication;
np:hasAssertion sub:assertion;
np:hasProvenance sub:provenance;
np:hasPublicationInfo sub:pubinfo .
}
sub:assertion {
<http://eurovoc.europa.eu/2919> a <http://schema.org/DefinedTerm>;
<http://schema.org/description> "";
<http://schema.org/name> "Environmental research" .
<http://eurovoc.europa.eu/3941> a <http://schema.org/DefinedTerm>;
<http://schema.org/description> "";
<http://schema.org/name> "Life sciences" .
<http://eurovoc.europa.eu/3946> a <http://schema.org/DefinedTerm>;
<http://schema.org/description> "";
<http://schema.org/name> "Physical sciences" .
<http://eurovoc.europa.eu/3952> a <http://schema.org/DefinedTerm>;
<http://schema.org/description> "";
<http://schema.org/name> "Earth sciences" .
<http://w3id.org/ro-id/rohub/model#subject/-1192778502> a <https://w3id.org/contentdesc#Expression>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "grid cell topography" .
<http://w3id.org/ro-id/rohub/model#subject/-1638434889> a <https://w3id.org/contentdesc#Expression>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "reference pressure" .
<http://w3id.org/ro-id/rohub/model#subject/-1723832340> a <https://w3id.org/contentdesc#Domain>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "astronomy" .
<http://w3id.org/ro-id/rohub/model#subject/-586095033> a <https://w3id.org/contentdesc#Domain>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "physics" .
<http://w3id.org/ro-id/rohub/model#subject/100011496> a <https://w3id.org/contentdesc#Concept>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "velocity" .
<http://w3id.org/ro-id/rohub/model#subject/100011497> a <https://w3id.org/contentdesc#Concept>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "temperature" .
<http://w3id.org/ro-id/rohub/model#subject/100039583> a <https://w3id.org/contentdesc#Concept>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "pressure" .
<http://w3id.org/ro-id/rohub/model#subject/100178005> a <https://w3id.org/contentdesc#Concept>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "atmosphere" .
<http://w3id.org/ro-id/rohub/model#subject/100180631> a <https://w3id.org/contentdesc#Concept>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "humidity" .
<http://w3id.org/ro-id/rohub/model#subject/100207752> a <https://w3id.org/contentdesc#Concept>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "latent heat" .
<http://w3id.org/ro-id/rohub/model#subject/100368677> a <https://w3id.org/contentdesc#Concept>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "short wave" .
<http://w3id.org/ro-id/rohub/model#subject/100686565> a <https://w3id.org/contentdesc#Concept>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "prison cell" .
<http://w3id.org/ro-id/rohub/model#subject/106485375> a <https://w3id.org/contentdesc#Concept>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "flux" .
<http://w3id.org/ro-id/rohub/model#subject/110926444> a <https://w3id.org/contentdesc#Concept>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "land" .
<http://w3id.org/ro-id/rohub/model#subject/159541> a <https://w3id.org/contentdesc#Concept>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "simulation" .
<http://w3id.org/ro-id/rohub/model#subject/194611666> a <https://w3id.org/contentdesc#Expression>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "pressure surface" .
<http://w3id.org/ro-id/rohub/model#subject/249599025> a <https://w3id.org/contentdesc#Expression>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "grid cell area" .
<http://w3id.org/ro-id/rohub/model#subject/953464148> a <https://w3id.org/contentdesc#Expression>;
<http://www.w3.org/2004/02/skos/core#prefLabel> "ocean mask" .
<https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/#enrichment_service-account-enrichment>
a <http://xmlns.com/foaf/0.1/Agent>;
<http://schema.org/name> "service-account-enrichment" .
<https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/> a <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> <http://eurovoc.europa.eu/2919>, <http://eurovoc.europa.eu/3941>,
<http://eurovoc.europa.eu/3946>, <http://eurovoc.europa.eu/3952>;
<http://schema.org/author> <mailto:chuncheng.guo@rohub.com>;
<http://schema.org/contentSize> "11342"^^xsd:integer;
<http://schema.org/contentUrl> "https://api.rohub.org/api/ros/68fbbd93-8997-48c3-8b90-94073972e340/crate/download/";
<http://schema.org/creator> <mailto:georgehadib@gmail.com>;
<http://schema.org/dateCreated> "2022-03-22 02:52:04.343686+00:00";
<http://schema.org/dateModified> "2025-03-05 12:48:07.686809+00:00";
<http://schema.org/datePublished> "2022-03-22 02:52:04.343686+00:00";
<http://schema.org/description> """This dataset contains 800 years' simulation of the Marine Isotope Stage 3 climate transition, using the NorESM1-F model. Experiment protocol is described in Jansen et al., 2020, A new era of abrupt climate change - perspectives from the past. Data description: case = NBF1850_f19_tn11_test_mis3b_fwf3b_fram; 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 ; Scientific Publication: Jansen et al., 2020,Past perspectives on the present era of abrupt Arctic climate change, LINK: http://doi.org/10.1038/s41558-020-0860-7""";
<http://schema.org/encodingFormat> "application/ld+json";
<http://schema.org/hasPart> <https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/folders/723cfff9-8cbf-483c-82a0-bef5b7a6f4a3>,
<https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/folders/9a41d312-6ed3-43c2-8d1e-a13db7fd1d93>,
<https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/folders/bd791eba-c0af-40bd-b75f-1c65d15a3417>,
<https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/folders/d8a77627-7010-49c0-88ba-b7dd0b21090c>;
<http://schema.org/identifier> "https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340";
<http://schema.org/license> <https://choosealicense.com/no-permission/>;
<http://schema.org/name> "NorESM1-F simulation of the Marine Isotope Stage 3 stadial-to-interstadial transition";
<http://w3id.org/ro-id/rohub/model#creation_mode> "MANUAL";
<https://www.w3.org/ns/iana/link-relations/relation#cite-as> "Chuncheng Guo. \"NorESM1-F simulation of the Marine Isotope Stage 3 stadial-to-interstadial transition.\" ROHub. Mar 22 ,2022. https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340." .
<https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/folders/723cfff9-8cbf-483c-82a0-bef5b7a6f4a3>
a <http://purl.org/wf4ever/wf4ever#Folder>, <http://schema.org/Dataset>;
<http://schema.org/name> "raw data" .
<https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/folders/9a41d312-6ed3-43c2-8d1e-a13db7fd1d93>
a <http://purl.org/wf4ever/wf4ever#Folder>, <http://schema.org/Dataset>;
<http://schema.org/name> "biblio" .
<https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/folders/bd791eba-c0af-40bd-b75f-1c65d15a3417>
a <http://purl.org/wf4ever/wf4ever#Folder>, <http://schema.org/Dataset>;
<http://schema.org/hasPart> <https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/resources/1f1c30fd-56ad-4dbd-b456-2f66f525b74b>;
<http://schema.org/name> "data" .
<https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/folders/d8a77627-7010-49c0-88ba-b7dd0b21090c>
a <http://purl.org/wf4ever/wf4ever#Folder>, <http://schema.org/Dataset>;
<http://schema.org/name> "metadata" .
<https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/resources/1f1c30fd-56ad-4dbd-b456-2f66f525b74b>
a <http://purl.org/wf4ever/wf4ever#Dataset>, <http://purl.org/wf4ever/wf4ever#Resource>,
<http://schema.org/MediaObject>;
<http://schema.org/author> <mailto:georgehadib@gmail.com>;
<http://schema.org/contentUrl> "https://archive.sigma2.no/pages/public/datasetDetail.jsf?id=10.11582/2020.00006";
<http://schema.org/creator> <mailto:georgehadib@gmail.com>;
<http://schema.org/dateCreated> "2022-03-22 02:52:15.583800+00:00";
<http://schema.org/dateModified> "2022-03-22 02:52:20.390738+00:00";
<http://schema.org/description> """This dataset contains 800 years' simulation of the Marine Isotope Stage 3 climate transition, using the NorESM1-F model. Experiment protocol is described in Jansen et al., 2020, A new era of abrupt climate change - perspectives from the past. Data description: case = NBF1850_f19_tn11_test_mis3b_fwf3b_fram; 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 ; Scientific Publication: Jansen et al., 2020,Past perspectives on the present era of abrupt Arctic climate change, <a href=\"http://doi.org/10.1038/s41558-020-0860-7\" class=\"linkified\" target=\"_blank\">LINK</a>""";
<http://schema.org/license> <https://choosealicense.com/no-permission/>;
<http://schema.org/name> "NorESM1-F simulation of the Marine Isotope Stage 3 stadial-to-interstadial transition";
<http://schema.org/sdDatePublished> "2022-03-22 02:52:15.583800+00:00" .
<https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/ro-crate-metadata.json>
a <http://schema.org/CreativeWork>;
dct:conformsTo <https://w3id.org/ro/crate/1.1>;
<http://schema.org/about> <https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/> .
<mailto:chuncheng.guo@rohub.com> a <http://xmlns.com/foaf/0.1/Agent>;
<http://schema.org/email> "chuncheng.guo@rohub.com";
<http://schema.org/name> "Chuncheng Guo" .
<mailto:georgehadib@gmail.com> a <http://xmlns.com/foaf/0.1/Agent>;
<http://schema.org/name> "Geo H." .
}
sub:provenance {
sub:assertion prov:wasDerivedFrom <https://api.rohub.org/api/ros/68fbbd93-8997-48c3-8b90-94073972e340/crate/download/ro-crate-metadata.json> .
}
sub:pubinfo {
this: a npx:RoCrateNanopub;
dct:created "2026-03-03T16:13:07.681+01:00"^^xsd:dateTime;
dct:creator <https://w3id.org/kpxl/gen/terms/RoCrateBot>;
npx:introduces <https://w3id.org/ro-id/68fbbd93-8997-48c3-8b90-94073972e340/>;
rdfs:label "NorESM1-F simulation of the Marine Isotope Stage 3 stadial-to-interstadial transition" .
sub:sig npx:hasAlgorithm "RSA";
npx:hasPublicKey "MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAxszSDYX5tuCSkP7UiCtftYPFNQVTjgNu0I5fwdML2DLRDlp0xzmsQXRk8oHuvwGvG1aMjj6cpUqO+0rz2Sg/wvHOgUpkRH8VJXvmlkhafMLCMtUtk5JIx7e+fkzCby+fnmD7kMkGLrT+OaExWwEDmNlCAt0TPKcHSdwsjso2isXjtAsGevyCMke8ufnFYpjs746JES1eNzVnHnn2Kp/lqcm60GM+J8dLgRZp7fX0anW098xhKym6+xXFzqeju0vYRIHBPerv+r7skWxwk+a7Sd8msqVeYEv6NTqnyWvyWb6Yh8cvj04N6qm/T6C5FUPLQhzSaQgMVMU6yLqjPuu9DwIDAQAB";
npx:hasSignature "uQGrGVl34xDWlPzIFO0dHcQNRVXd+zd7rUwshZpGJXo6bK5HImY/VOvTOt6Qy3bF690mPTv5T2EJ+ndMWWFEf2JdL+bt+bTkCKa9w9G2vdWrpgpcuB+GhHSUGKUs7wvGM4jGiQlGkDv23CEod53vv4PbYt3ZC2tI5Uwoq5+2sp909kREqfi9RQt+BxY2ygcolPODuutwYEoQq3KCeod00DMl5em/n2ES0a7GT/tlipxalHF/qbEYL962xTX3mXVZMv83jt3xJPy6VUKfA4WxchxCGF1vuD88QPWqlTiJ1W9K/RpgGvm+A301y6SJhTmIN4TZ5bdawtyPRXjMBEldUQ==";
npx:hasSignatureTarget this:;
npx:signedBy <https://w3id.org/kpxl/gen/terms/RoCrateBot> .
}