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Ice‐Wedge Evidence of Holocene Winter Warming in the Canadian Arctic

K. M. Holland, Trevor J. Porter, Duane Froese, Steven V. Kokelj, Casey Buchanan

2020Geophysical Research Letters30 citationsDOIOpen Access PDF

Abstract

Abstract Arctic summer temperatures mostly cooled over the last ~7 kyr, owing to decreasing summer insolation. However, knowledge of the winter season is limited in the Arctic paleoclimate literature. Here we develop a composite record of δ 18 O from ice wedges—a winter precipitation archive—to reconstruct changes in winter climate in the northwestern Canadian Arctic since ~7.4 kyr b2k. Our record shows a long‐term δ 18 O enrichment (+(0.14 ± 0.10)‰ kyr −1 ), suggesting winter temperatures increased since the mid‐Holocene, a finding that is corroborated by reconstructions from the Siberian Arctic. Winter warming over the last ~7 kyr is consistent with increasing winter insolation and greenhouse gas forcing. This study provides some of the first insights on the sensitivity of winter temperatures in the Canadian Arctic to past, and potentially future, climate forcings, and contributes to a more seasonally holistic understanding of the Arctic system.

Topics & Concepts

ArcticHoloceneClimatologyPaleoclimatologyArctic dipole anomalyArctic sea ice declineArctic ice packInsolationClimate changePrecipitationEnvironmental scienceArctic ecologyArctic geoengineeringOceanographySea icePhysical geographyGeologyGeographyDrift iceMeteorologyGeology and Paleoclimatology ResearchArchaeology and ancient environmental studiesClimate change and permafrost
Ice‐Wedge Evidence of Holocene Winter Warming in the Canadian Arctic | Litcius