作为加拿大东北部秋季海冰损失电容器的 IPWP

IF 8.5 1区地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES

npj Climate and Atmospheric Science Pub Date : 2024-10-25 DOI:10.1038/s41612-024-00798-9

Lejiang Yu, Shiyuan Zhong, Timo Vihma, Shuoyi Ding, Cuijuan Sui, Bo Sun

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引用次数: 0

摘要

印度洋-太平洋暖池（IPWP）变暖的主要原因是温室气体排放的增加，但其对北极海冰的影响仍不清楚。我们的研究发现，在加拿大东北部的北方秋季（10 月至 12 月），IPWP 指数与海冰浓度之间存在明显的负相关。我们的研究结果表明，在该地区观测到的海冰损失中，IPWP变暖在统计学上占 45%。我们提出了 "IPWP 的北极电容器效应 "这一新颖概念，阐述了温室气体排放与北极海冰损失之间的遥远联系。具体来说，随着温室气体使 IPWP 的温度升高，温度梯度和热带对流增加，行星波列开始启动。这种波列与过境涡反馈一起穿越北极，从而影响北极涡旋的强度及其对北极海冰的相关影响。我们的研究结果突出了热带海洋在全球气候变化大背景下的关键作用，强调了考虑热带海洋对极地气候影响的必要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

The IPWP as a capacitor for autumn sea ice loss in Northeastern Canada

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The IPWP as a capacitor for autumn sea ice loss in Northeastern Canada

The Indo-Pacific Warm Pool (IPWP) has been warming due largely to increasing greenhouse gas emissions, but its impact on Arctic sea ice remains unclear. Our study finds a significant negative correlation between the IPWP index and sea ice concentration in northeastern Canada during boreal autumn (October-December). Our results suggest that IPWP warming statistically accounts for 45% of sea ice loss observed in this region. We introduce the “Arctic capacitor effect of the IPWP”, a novel concept that expounds upon the distant connection between greenhouse gas emissions and Arctic sea ice loss. Specifically, as greenhouse gases elevate temperatures in the IPWP, increasing temperature gradient and tropical convection, a planetary wavetrain is initiated. This wavetrain, along with transit eddy feedback, traverses towards the Arctic and thereby influences the strength of the Arctic vortex and its associated effects on Arctic sea ice. Our findings highlight the crucial role of tropical oceans in the broader context of global climate change, emphasizing the necessity of accounting for their impact on polar climate.

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来源期刊

npj Climate and Atmospheric Science Earth and Planetary Sciences-Atmospheric Science

CiteScore

8.80

自引率

3.30%

发文量

审稿时长

21 weeks

期刊介绍： npj Climate and Atmospheric Science is an open-access journal encompassing the relevant physical, chemical, and biological aspects of atmospheric and climate science. The journal places particular emphasis on regional studies that unveil new insights into specific localities, including examinations of local atmospheric composition, such as aerosols. The range of topics covered by the journal includes climate dynamics, climate variability, weather and climate prediction, climate change, ocean dynamics, weather extremes, air pollution, atmospheric chemistry (including aerosols), the hydrological cycle, and atmosphere–ocean and atmosphere–land interactions. The journal welcomes studies employing a diverse array of methods, including numerical and statistical modeling, the development and application of in situ observational techniques, remote sensing, and the development or evaluation of new reanalyses.