Citation:

j.gloplacha.2019.03.011

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Abstract:

We provide the results of 11 Late Cretaceous climate simulations (Tab. 1 in Niezgodzki et al. [2019, doi:10.1016/j.gloplacha.2019.03.011]) produced with COSMOS in a coupled atmosphere-ocean configuration. Five of these experiments use a 3 x pre-industrial (PI) CO2 level (840 ppm) while 6 of them were run with 4xPI CO2 (1120 ppm). The experiments with the same CO2 levels differ by gateway configurations between the Arctic Ocean and North proto-Atlantic basin. In spin-up experiments we employ Maastrichtian (~70 Ma) paleogeography of Markwick and Valdes [2004, doi:10.1016/j.palaeo.2004.06.015]. More information about model scenarios and model set-up can be found in Niezgodzki et al. [2019, doi:10.1016/j.gloplacha.2019.03.011]. Here we publish simulated winter (DJF) surface temperatures (tsurf) and salinity (SAO), averaged March-April (Ma-Ap) sea surface temperature (THO) and SAO and monthly sea-ice compactness (SICOMO) of each experiment. Additionally, for two gateway configurations we show DJF and summer (JJA) 10m meridional (v10) and zonal (u10) wind speeds as well as JJA shortwave net surface radiation (srads), net clear sky surface radiation (srafs), longwave net surface radiation (trads) and clear sky surface radiation (trafs).

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator
1	File content	Content		Niezgodzki, Igor
2	File name	File name		Niezgodzki, Igor
3	File format	File format		Niezgodzki, Igor
4	File size	File size	kByte	Niezgodzki, Igor
5	Uniform resource locator/link to file	URL file		Niezgodzki, Igor

License:

Creative Commons Attribution 4.0 International (CC-BY-4.0)

Size:

175 data points

Data

Download dataset as tab-delimited text — use the following character encoding:

1 Content	2 File name	3 File format	4 File size [kByte]	5 URL file
Climate simulation C, 1120 ppm CO2 level, DJF	C-1120_DJF.nc	netCDF	1020.418	C-1120_DJF.nc
Climate simulation C, 1120 ppm CO2 level, JJA	C-1120_JJA.nc	netCDF	1526.824	C-1120_JJA.nc
Climate simulation C, 1120 ppm CO2 level, Ma-Ap	C-1120_Ma-Ap.nc	netCDF	20256.414	C-1120_Ma-Ap.nc
Climate simulation C, 1120 ppm CO2 level, sea-ice	C-1120_sea-ice.nc	netCDF	3043.066	C-1120_sea-ice.nc
Climate simulation C, 840 ppm CO2 level, DJF	C-840_DJF.nc	netCDF	513.773	C-840_DJF.nc
Climate simulation C, 840 ppm CO2 level, Ma-Ap	C-840_Ma-Ap.nc	netCDF	20256.414	C-840_Ma-Ap.nc
Climate simulation C, 840 ppm CO2 level, sea-ice	C-840_sea-ice.nc	netCDF	3043.066	C-840_sea-ice.nc
Climate simulation EU-0, 1120 ppm CO2 level, DJF	EU-0_4x_DJF.nc	netCDF	512.516	EU-0_4x_DJF.nc
Climate simulation EU-0, 1120 ppm CO2 level, Ma-Ap	EU-0_4x_Ma-Ap.nc	netCDF	20256.406	EU-0_4x_Ma-Ap.nc
Climate simulation EU-0, 1120 ppm CO2 level, sea-ice	EU-0_4x_sea-ice.nc	netCDF	3043.066	EU-0_4x_sea-ice.nc
Climate simulation GNS-47, 840 ppm CO2 level, DJF	GNS-47_3x_DJF.nc	netCDF	513.754	GNS-47_3x_DJF.nc
Climate simulation GNS-47, 840 ppm CO2 level, Ma-Ap	GNS-47_3x_Ma-Ap.nc	netCDF	20256.430	GNS-47_3x_Ma-Ap.nc
Climate simulation GNS-47, 840 ppm CO2 level, sea-ice	GNS-47_3x_sea-ice.nc	netCDF	3043.066	GNS-47_3x_sea-ice.nc
Climate simulation GNS-47, 1120 ppm CO2 level, DJF	GNS-47_4x_DJF.nc	netCDF	1020.418	GNS-47_4x_DJF.nc
Climate simulation GNS-47, 1120 ppm CO2 level, JJA	GNS-47_4x_JJA.nc	netCDF	1526.824	GNS-47_4x_JJA.nc
Climate simulation GNS-47, 1120 ppm CO2 level, Ma-Ap	GNS-47_4x_Ma-Ap.nc	netCDF	20256.418	GNS-47_4x_Ma-Ap.nc
Climate simulation GNS-47, 1120 ppm CO2 level, sea-ice	GNS-47_4x_sea-ice.nc	netCDF	3043.066	GNS-47_4x_sea-ice.nc
Climate simulation GNS-600, 840 ppm CO2 level, DJF	GNS-600_3x_DJF.nc	netCDF	513.719	GNS-600_3x_DJF.nc
Climate simulation GNS-600, 840 ppm CO2 level, Ma-Ap	GNS-600_3x_Ma-Ap.nc	netCDF	20256.418	GNS-600_3x_Ma-Ap.nc
Climate simulation GNS-600, 840 ppm CO2 level, sea-ice	GNS-600_3x_sea-ice.nc	netCDF	3043.164	GNS-600_3x_sea-ice.nc
Climate simulation GNS-600, 1120 ppm CO2 level, DJF	GNS-600_4x_DJF.nc	netCDF	512.523	GNS-600_4x_DJF.nc
Climate simulation GNS-600, 1120 ppm CO2 level, Ma-Ap	GNS-600_4x_Ma-Ap.nc	netCDF	512.348	GNS-600_4x_Ma-Ap.nc
Climate simulation GNS-600, 1120 ppm CO2 level, sea-ice	GNS-600_4x_sea-ice.nc	netCDF	9118.758	GNS-600_4x_sea-ice.nc
Climate simulation HUD-0, 840 ppm CO2 level, DJF	HUD-0_3x_DJF.nc	netCDF	513.754	HUD-0_3x_DJF.nc
Climate simulation HUD-0, 840 ppm CO2 level, Ma-Ap	HUD-0_3x_Ma-Ap.nc	netCDF	20256.418	HUD-0_3x_Ma-Ap.nc
Climate simulation HUD-0, 840 ppm CO2 level, sea-ice	HUD-0_3x_sea-ice.nc	netCDF	3043.066	HUD-0_3x_sea-ice.nc
Climate simulation HUD-0, 1120 ppm CO2 level, DJF	HUD-0_4x_DJF.nc	netCDF	512.516	HUD-0_4x_DJF.nc
Climate simulation HUD-0, 1120 ppm CO2 level, Ma-Ap	HUD-0_4x_Ma-Ap.nc	netCDF	20256.410	HUD-0_4x_Ma-Ap.nc
Climate simulation HUD-0, 1120 ppm CO2 level, sea-ice	HUD-0_4x_sea-ice.nc	netCDF	3043.066	HUD-0_4x_sea-ice.nc
Climate simulation WIS-0, 840 ppm CO2 level, DJF	WIS-0_3x_DJF.nc	netCDF	513.715	WIS-0_3x_DJF.nc
Climate simulation WIS-0, 840 ppm CO2 level, Ma-Ap	WIS-0_3x_Ma-Ap.nc	netCDF	20256.414	WIS-0_3x_Ma-Ap.nc
Climate simulation WIS-0, 840 ppm CO2 level, sea-ice	WIS-0_3x_sea-ice.nc	netCDF	3043.066	WIS-0_3x_sea-ice.nc
Climate simulation WIS-0, 1120 ppm CO2 level, DJF	WIS-0_4x_DJF.nc	netCDF	512.512	WIS-0_4x_DJF.nc
Climate simulation WIS-0, 1120 ppm CO2 level, Ma-Ap	WIS-0_4x_Ma-Ap.nc	netCDF	20256.410	WIS-0_4x_Ma-Ap.nc
Climate simulation WIS-0, 1120 ppm CO2 level, sea-ice	WIS-0_4x_sea-ice.nc	netCDF	3043.066	WIS-0_4x_sea-ice.nc