The sea ice drifter trajectories from the 2022 deployment East of Greenland, performed by Biuw et.
Biuw, M., & Rabault, J. (2022). Sea ice drift from the March 2022 deployment East of Greenland. [Data set]. Norwegian Meteorological Institute. https://doi.org/10.21343/DXMA-S012
The sea ice drifter trajectories and wave measurements from the 'seal cruise' 2022, 'SURVEYS TO ASSESS HARP AND HOODED SEAL PUP PRODUCTION IN THE GREENLAND SEA PACK-ICE'.
Rabault, J. (2022). Sea ice drift and wave measurements from the 'seal cruise', 2022 [Data set]. Norwegian Meteorological Institute. https://doi.org/10.21343/AGY6-5B05
The Hive Wireless sensor network project designed and assembled automatic weather stations that are currently installed at Kongsvegen glacier in Svalbard and records near surface meteorological variables: air temperature, relative humidity, air pressure
Filhol, S., Lefeuvre, P. M., & Gallet, J.-C. (2022). Wireless Sensor Network for meteorological observations on Midtre Løvenbreen glacier. Norwegian Meteorological Institute. https://doi.org/10.21343/5ht4-bj50
The Hive Wireless sensor network project designed and assembled automatic weather stations that are currently installed at Kongsvegen glacier in Svalbard and records near surface meteorological variables: air temperature, relative humidity, air pressure
Filhol, S., Lefeuvre, P. M., & Gallet, J.-C. (2022). Wireless Sensor Network for meteorological observations on Kongsvegen glacier. Norwegian Meteorological Institute. https://doi.org/10.21343/1r1z-ae07
Automatic weather station (AWS) on Etonbreen glacier, an outlet from the Austfonna ice cap in North-East Svalbard. The AWS is located at approx 360 m a.s.l. near the long term equilibrium line altitude.
Schuler, T. V., Hult, J., & Filhol, S. (2022). Automatic weather station on Etonbreen/ Austfonna glacier. Norwegian Meteorological Institute. https://doi.org/10.21343/9hez-nz67
High resolution aerosol optical depth from Sverdrup Station in Ny Ålesund (instruments: PFR, lunar PFR), AWIPEVStation in Ny-Ålesund (instruments: SP1A, Cimel), Polish Polar Station
Althausen, D., Zielinski, T., Pakszys, P., Kouremeti, N., Kazadzis, S., Hansen, G. H., Ritter, C., Mateos, D., & Sobolewski, P. (2022). Aggregated high resolution aerosol optical depth from stations and ships in the Svalbard area in the context of the REHEARSOL project [Data set]. Norwegian Meteorological Institute. https://doi.org/10.21343/1GAJ-4645
Current profiles and hydrographic data collected by the Norwegian Polar Institute during the KV Svalbard cruise in 2008 in the Fram Strait.
Edmond Hansen, Paul Dodd, Data collected during the KV Svalbard cruise in 2008, (2011) published by Norwegian Meteorological Institute. https://doi.org/10.21343/btym-vh89
Current profiles and hydrographic data collected by the Norwegian Polar Institute during the KV Svalbard cruise in 2007 in the Fram Strait.
Edmond Hansen, Paul Dodd, Data collected during the KV Svalbard cruise in 2007, (2011) published by Norwegian Meteorological Institute. https://doi.org/10.21343/7jqb-5930
The sea ice drifter trajectories from the Arven Etter Nansen Physical Cruise 2018. These trajectories were obtained by instruments deployed on the ice. For more information about the deployment, see: Fer, Ilker, et al. Physical Process Cruise 2018.
Jean Rabault, Sea ice drifter trajectories from the Arven Etter Nansen Physical Process Cruise 2018, (2021) published by Norwegian Meteorological Institute. https://doi.org/10.21343/9p70-4q69
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