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As climate changes, how do Earth's frozen areas affect our planet and impact society?
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Johnson T; Tsamados M; Muller J-P; Stroeve J (2022) Mapping Arctic Sea-Ice Surface Roughness with Multi-Angle Imaging SpectroRadiometer Remote Sensing 14 (24) 6249-6249, doi: 10.3390/rs14246249
Kloenne U; Nauels A; Pearson P; DeConto RM; Findlay HS; Hugelius G; Robinson A; Rogelj J; Schuur EAG; Stroeve J (2022) Only halving emissions by 2030 can minimize risks of crossing cryosphere thresholds Nature Climate Change doi: 10.1038/s41558-022-01566-4
Hinzman L; Druckenmiller M; Petrov A; Fugmann G; Scarpa F (2022) Fourth International Conference for Arctic Research Planning
Landy JC; Dawson GJ; Tsamados M; Bushuk M; Stroeve JC; Howell SEL; Krumpen T; Babb DG; Komarov AS; Heorton HDBS (2022) A year-round satellite sea-ice thickness record from CryoSat-2 Nature 609 (7927) 517-522, doi: 10.1038/s41586-022-05058-5
Serreze MC; Voveris J; Barrett AP; Fox S; Blanken PD; Crawford A (2022) Characteristics of extreme daily precipitation events over the Canadian Arctic International Journal of Climatology doi: 10.1002/joc.7907
Rosenblum E; Stroeve J; Gille ST; Lique C; Fajber R; Tremblay LB; Galley R; Loureiro T; Barber DG; Lukovich JV (2022) Freshwater Input and Vertical Mixing in the Canada Basin’s Seasonal Halocline: 1975 versus 2006–12 Journal of Physical Oceanography 52 (7) 1383-1396, doi: 10.1175/jpo-d-21-0116.1
Stroeve J; Nandan V; Willatt R; Dadic R; Rostosky P; Gallagher M; Mallett R; Barrett A; Hendricks S; Tonboe R (2022) Rain on snow (ROS) understudied in sea ice remote sensing: a multi-sensor analysis of ROS during MOSAiC (Multidisciplinary drifting Observatory for the Study of Arctic Climate) The Cryosphere 16 (10) 4223-4250, doi: 10.5194/tc-16-4223-2022
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