Preconditioning of Summer Melt Ponds From Winter Sea Ice Surface Temperature

Linda Thielke; Niels Fuchs; Gunnar Spreen; Bruno Tremblay; Gerit Birnbaum; Marcus Huntemann; Nils Hutter; Polona Itkin; Arttu Jutila; Melinda A. Webster

doi:10.1029/2022GL101493

Geophysical Research Letters (Feb 2023)

Preconditioning of Summer Melt Ponds From Winter Sea Ice Surface Temperature

Linda Thielke,
Niels Fuchs,
Gunnar Spreen,
Bruno Tremblay,
Gerit Birnbaum,
Marcus Huntemann,
Nils Hutter,
Polona Itkin,
Arttu Jutila,
Melinda A. Webster

Affiliations

Linda Thielke: Institute of Environmental Physics University of Bremen Bremen Germany
Niels Fuchs: Center for Earth System Sustainability Institute of Oceanography University of Hamburg Hamburg Germany
Gunnar Spreen: Institute of Environmental Physics University of Bremen Bremen Germany
Bruno Tremblay: Department of Atmospheric and Oceanic Sciences McGill University Montréal QC Canada
Gerit Birnbaum: Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research Bremerhaven Germany
Marcus Huntemann: Institute of Environmental Physics University of Bremen Bremen Germany
Nils Hutter: Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research Bremerhaven Germany
Polona Itkin: UiT The Arctic University of Norway Tromsø Norway
Arttu Jutila: Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research Bremerhaven Germany
Melinda A. Webster: University of Alaska Fairbanks Fairbanks AK USA

DOI: https://doi.org/10.1029/2022GL101493
Journal volume & issue: Vol. 50, no. 4
pp. n/a – n/a

Abstract

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Abstract Comparing helicopter‐borne surface temperature maps in winter and optical orthomosaics in summer from the year‐long Multidisciplinary drifting Observatory for the Study of Arctic Climate expedition, we find a strong geometric correlation between warm anomalies in winter and melt pond location the following summer. Warm anomalies are associated with thinner snow and ice, that is, surface depression and refrozen leads, that allow for water accumulation during melt. Warm surface temperature anomalies in January were 0.3–2.5 K warmer on sea ice that later formed melt ponds. A one‐dimensional steady‐state thermodynamic model shows that the observed surface temperature differences are in line with the observed ice thickness and snow depth. We demonstrate the potential of seasonal prediction of summer melt pond location and coverage from winter surface temperature observations. A threshold‐based classification achieves a correct classification for 41% of the melt ponds.

Published in Geophysical Research Letters

ISSN: 0094-8276 (Print); 1944-8007 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/19448007

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