Changes in the Arctic Ocean: Knowledge gaps and Impact of future satellite missions for the Arctic Ocean.
Paper 8: Changes in the Arctic Ocean: Knowledge gaps and Impact of future satellite missions for the Arctic Ocean (Relevant to all ASCs). To be submitted to Journal of Remote Sensing by S. Lucas, J. A. Johannessen, M. Cancet, L. H. Pettersson, I. Esau, J. Rheinlaender, F. Ardhuin, B. Chapron, A. Korosov, F. Collard, S. Herlédan, E. Olason and C. Donlon.
CIMR over sea ice
Wind-wave attenuation under sea ice in the Arctic: a review of remote sensing capabilities
Paper 3: Wind-wave attenuation under sea ice in the Arctic: a review of remote sensing capabilities (Relevant to ASC-2)submitted to Journal of Geophys. Res.-Ocean by Fabrice Collard, Louis Marie, Frederic Nouguier, Marcel Kleinherenbrink, Frithjof Ehlers, and Fabrice Ardhuin.
Modelling the Arctic wave-affected marginal ice zone, comparison with ICESat-2 observations
Paper 4: Modelling the Arctic wave-affected marginal ice zone, comparison with ICESat-2 observations (Relevant to ASC-2). Submitted to Philosophical Transactions A by G. Boutin, T. Williams, C. Horvat and L. Brodeau.
Driving mechanisms of an extreme winter sea-ice breakup event in the Beaufort Sea
Paper 5: Driving mechanisms of an extreme winter sea-ice breakup event in the Beaufort Sea (Relevance to ASC-3). Submitted to Geophys. Res. Letter by Jonathan W. Rheinlænder, Richard Davy, Einar Olason, Pierre Rampal, Clemens Spensberger, Timothy D. Williams, Anton Korosov, Thomas Spengler.
The Arctic amplification and its impact: Attribution through remote-sensing data
Paper 6: The Arctic amplification and its impact: Attribution through remote-sensing data (Relevance ASC-1). To be submitted to tbd by Igor Esau, Johnny A. Johannesen, Lasse H. Pettersson, Aleksander Chernokulsky, Oleg Sizov et al., To be submitted to tbd in 2022.
Impact of sea-ice friction on tidal modelling in the Arctic Ocean
Paper 7: Impact of sea-ice friction on tidal modelling in the Arctic Ocean (Relevance ASC-1) To be submitted to tbd by M. Cancet et al., 2022.