Collections allows the user to search in subsets of the existing catalogue. The collections are primarily data management projects that have been incorporated in the ADC catalogue. The collections currently served through ADC include (datasets may belong to multiple data collections):
ADC is the full collection of this service CC is the CryoClim collection
In order to search a specific data collection select that collection. If no data collection is selected all collections are searched.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:34Z
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Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:33Z
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Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:33Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:33Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:33Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:34Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:34Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:34Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:34Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:34Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:34Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:34Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:34Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:34Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
Institutions: CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM/ Universite de Toulouse/ Meteo-France/CNRS, CNRM, Universite de Toulouse, Meteo-France,CNRS, Toulouse, France, Norwegian Meteorological Institute / Arctic Data Centre
Last metadata update: 2022-01-04T17:40:34Z
Show more...
Abstract:
Data extracted from numerical simulations over the sites identified as YOPP supersites for the YOPP super-site Model Inter-comparison Project. Arpege is a Spectral global model T1198 with a stretching factor c=2.2. The high resolution area with 7.5km is over France for ARPEGE-NWP used for YOPP-NH (SOP1 and SOP2) and for the specific ARPEGE-SH the high resolution area is over Antarctica: with 7.5km. 105 vertical levels with a first level at 10m and 31 levels below 3000m. The time step is 360s with a semi-Lagrangian scheme. Two different model setup have been produced. These are presented as stream 1 and stream 2. The stream 2 data has a new version of the ARPEGE system coupled with the 1D sea-ice model GELATO.
