4.7 Article

The Contribution of Vegetation-Climate Feedback and Resultant Sea Ice Loss to Amplified Arctic Warming During the Mid-Holocene

期刊

GEOPHYSICAL RESEARCH LETTERS
卷 49, 期 18, 页码 -

出版社

AMER GEOPHYSICAL UNION
DOI: 10.1029/2022GL098816

关键词

mid-Holocene; Arctic warming; vegetation-climate feedback; sea ice

资金

  1. Swedish Research Council (Vetenskapsraodet) [2013-06476, 2017-04232]
  2. National Natural Science Foundation of China (NSFC) [42101149]
  3. China Postdoctoral Science Foundation [2022M711441]
  4. FORMAS mobility [2020-02267]
  5. Swedish Research Council [2018-05913]
  6. Swedish Research Council [2013-06476] Funding Source: Swedish Research Council
  7. Formas [2020-02267] Funding Source: Formas

向作者/读者索取更多资源

Understanding the influence of vegetation on temperature changes in the Arctic region is important for understanding the climate system, paleoclimate reconstructions, and future climate change. The study shows that increased vegetation in the Arctic amplifies warming and contributes to sea ice loss, highlighting the significant role of vegetation-climate feedback.
Understanding influence of vegetation on past temperature changes in the Arctic region would help isolate uncertainty and build understanding of its broader climate system, with implications for paleoclimate reconstructions and future climate change. Using an Earth system model EC-Earth, we conduct a series of simulations to investigate the impact of vegetation-climate feedback on the Arctic climate during the mid-Holocene. Results show Arctic greening induced by the warming resulting from stronger orbital forcing, further amplifies the Arctic warming. The increased vegetation contributes 0.33 degrees C of Arctic warming and 0.35 x 10(6) km(2) of Arctic sea ice loss. Increased Arctic vegetation leads to reduced land surface albedo and increased evapotranspiration, both of which cause local warming in spring and summer. The resultant sea ice loss causes warming in the following seasons, with atmospheric circulation anomalies further amplifying the warming. Our results highlight the significant contribution of vegetation-climate feedback to Arctic climate under natural conditions.

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