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Atmospheric Blocking Drives Recent Albedo Change Across the Western Greenland Ice Sheet Percolation Zone

Gabriel Lewis, E. C. Osterberg, R. L. Hawley, Hans‐Peter Marshall, Tate Meehan, K. Graeter, F. McCarthy, T. B. Overly, Zayta Thundercloud, D. G. Ferris, B. G. Koffman, Jack E. Dibb

2021Geophysical Research Letters16 citationsDOI

Abstract

Abstract Greenland Ice Sheet (GrIS) albedo has decreased over recent decades, contributing to enhanced surface melt and mass loss. However, it remains unclear whether GrIS darkening is due to snow grain size increases, higher concentrations of light‐absorbing impurities (LAIs), or a combination. Here, we assess albedo controls in the western GrIS percolation zone using in situ albedo, LAI, and grain size measurements. We find a significant correlation between albedo and snow grain size ( p < 0.01), but not with LAIs. Modeling corroborates that LAI concentrations are too low to significantly reduce albedo, but larger grain sizes could reduce albedo by at least ∼3%. Strong atmospheric blocking increases grain sizes and reduces albedo through increased surface temperature, fewer storms, and higher incoming shortwave radiation. These findings clarify the mechanisms by which anomalously strong blocking contributed to recent GrIS albedo decline and mass loss, highlighting the importance of improving projections of future blocking.

Topics & Concepts

Albedo (alchemy)Greenland ice sheetSnowAtmospheric sciencesEnvironmental scienceGrain sizeClimatologyGeologyIce sheetGeomorphologyArt historyPerformance artArtCryospheric studies and observationsGeology and Paleoclimatology ResearchArctic and Antarctic ice dynamics
Atmospheric Blocking Drives Recent Albedo Change Across the Western Greenland Ice Sheet Percolation Zone | Litcius