Hysteresis of European summer precipitation under a symmetric CO2 ramp-up and ramp-down pathway

IF 5.8 2区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Environmental Research Letters Pub Date : 2024-06-17 DOI:10.1088/1748-9326/ad52ad

Nari Im, Daehyun Kim, Soon-Il An, Seungmok Paik, Soong-Ki Kim, Jongsoo Shin, Seung-Ki Min, Jong-Seong Kug and Hyoeun Oh

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Abstract

This study investigates the mechanism of the hysteresis of European summer mean precipitation in a CO2 removal (CDR) simulation. The European summer mean precipitation exhibits robust hysteresis in response to the CO2 forcing; after decreasing substantially (∼40%) during the ramp-up period, it shows delayed recovery during the ramp-down period. We found that the precipitation hysteresis over Europe is tied to the hysteresis in the Atlantic Meridional Overturning Circulation (AMOC). During the ramp-down period, an anomalous high surface pressure circulation prevails over Europe. The anomalous high pressure system is a baroclinic response of the atmosphere to strong North Atlantic cooling associated with a weakened AMOC. This anomalous circulation suppresses summertime convective activity over the entire Europe by decreasing near-surface moist enthalpy in Central and Northern Europe while increasing lower free-tropospheric temperature in Southern Europe. Our findings underscore the need to understand complex interactions in the Earth system for reliable future projections of regional precipitation change under CDR scenarios.

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对称二氧化碳上升和下降路径下欧洲夏季降水的滞后现象

本研究探讨了在二氧化碳去除（CDR）模拟中欧洲夏季平均降水量的滞后机制。欧洲夏季平均降水量对二氧化碳强迫的响应表现出强烈的滞后性；在上升期大幅减少（∼40%）后，在下降期出现延迟恢复。我们发现，欧洲降水滞后与大西洋经向翻转环流（AMOC）的滞后有关。在降水逐渐减少期间，欧洲上空会出现异常的表面高压环流。反常高压系统是大气层对北大西洋因 AMOC 减弱而出现的强降温的气压响应。这种异常环流降低了中欧和北欧的近地面湿热焓，同时提高了南欧的低自由对流层温度，从而抑制了整个欧洲的夏季对流活动。我们的研究结果突出表明，需要了解地球系统中复杂的相互作用，才能对未来 CDR 情景下的区域降水变化做出可靠的预测。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Environmental Research Letters 环境科学-环境科学

CiteScore

11.90

自引率

4.50%

发文量

763

审稿时长

4.3 months

期刊介绍： Environmental Research Letters (ERL) is a high-impact, open-access journal intended to be the meeting place of the research and policy communities concerned with environmental change and management. The journal''s coverage reflects the increasingly interdisciplinary nature of environmental science, recognizing the wide-ranging contributions to the development of methods, tools and evaluation strategies relevant to the field. Submissions from across all components of the Earth system, i.e. land, atmosphere, cryosphere, biosphere and hydrosphere, and exchanges between these components are welcome.