Our Research

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

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2021

Egerer U; Ehrlich A; Gottschalk M; Griesche H; Neggers RAJ; Siebert H; Wendisch M (2021) Case study of a humidity layer above Arctic stratocumulus and potential turbulent coupling with the cloud top Atmospheric Chemistry and Physics 21 (8) 6347-6364, doi: 10.5194/acp-21-6347-2021

Windnagel, A., Meier, W., Stewart, S., Fetterer, F., & Stafford, T (2021) NOAA/NSIDC Climate Data Record of Passive Microwave Sea Ice Concentration Version 4 Analysis

Horvath S; Stroeve J; Rajagopalan B; Jahn A (2021) Arctic sea ice melt onset favored by an atmospheric pressure pattern reminiscent of the North American-Eurasian Arctic pattern Climate Dynamics doi: 10.1007/s00382-021-05776-y

Siebert H; Szodry K-E; Egerer U; Wehner B; Henning S; Chevalier K; Lückerath J; Welz O; Weinhold K; Lauermann F (2021) Observations of Aerosol, Cloud, Turbulence, and Radiation Properties at the Top of the Marine Boundary Layer over the Eastern North Atlantic Ocean: The ACORES Campaign Bulletin of the American Meteorological Society 102 (1) E123-E147, doi: 10.1175/bams-d-19-0191.1

Brodzik, M. J., D. G. Long, and M. A. Hardman (2021) SMAP Radiometer Twice-Daily rSIR-Enhanced EASE-Grid 2.0 Brightness Temperatures, Version 2.0 NASA National Snow and Ice Data Center DAAC doi: 10.5067/YAMX52BXFL10

Mark Seefeldt (2021) Precipitation Observations for the Northwest Ross Ice Shelf - 2017-12 to 2019-11 U.S. Antarctic Program Data Center doi: 10.15784/601441

Inoue J; Sato K; Rinke A; Cassano JJ; Fettweis X; Heinemann G; Matthes H; Orr A; Phillips T; Seefeldt M (2021) Clouds and Radiation Processes in Regional Climate Models Evaluated Using Observations Over the Ice-free Arctic Ocean Journal of Geophysical Research: Atmospheres 126 (1) doi: 10.1029/2020JD033904