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As climate changes, how do Earth's frozen areas affect our planet and impact society?

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2023

Persson O; Cox C; Gallagher M; Shupe M; Hutchings J; Watkins D; Perovich D (2023) Arctic Cyclone Cloud and Boundary-Layer Features Producing Thermodynamic and Dynamic Impacts on Arctic Sea Ice During MOSAiC DOI: 10.5194/egusphere-egu23-17554

Cummins DP; Guemas V; Cox CJ; Gallagher MR; Shupe MD (2023) Surface turbulent fluxes from the MOSAiC campaign predicted by machine learning DOI: 10.22541/essoar.169109590.03058929/v1

Adler B; Wilczak JM; Bianco L; Bariteau L; Cox C; Boer GD; Djalalova IV; Gallagher MR; Intrieri J; Meyers T (2023) Passive remote sensing of the atmospheric boundary layer in Colorado's East River Valley during the seasonal change from snow-free to snow-covered ground DOI: 10.22541/essoar.167397441.12698034/v1

Druckenmiller, M.L., R. Thoman, and T.A. Moon (2023) The 2022 Arctic Report Card Witness the Arctic

Moon TA; Thoman R; Druckenmiller ML (2023) THE ARCTIC Bulletin of the American Meteorological Society 104 (9) S271-S321, DOI: 10.1175/10.1175/BAMS-D-23-0079.1

Dice MJ; Cassano JJ; Jozef GC; Seefeldt M (2023) Variations in boundary layer stability across Antarctica: a comparison between coastal and interior sites Weather and Climate Dynamics 4 (4) 1045-1069, DOI: 10.5194/wcd-4-1045-2023

Feldman DR; Aiken AC; Boos WR; Carroll RWH; Chandrasekar V; Collis S; Creamean JM; de Boer G; Deems J; Demott PJ (2023) The Surface Atmosphere Integrated Field Laboratory (SAIL) Campaign Bulletin of the American Meteorological Society 104 (12) E2192-E2222, DOI: 10.1175/BAMS-D-22-0049.1