CMIP6 模式预测的冬季北大西洋喷流结构的季节内变化

IF 8.5 1区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES
Marina García-Burgos, Blanca Ayarzagüena, David Barriopedro, Tim Woollings, Ricardo García-Herrera
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引用次数: 0

摘要

北大西洋涡动喷流(EDJ)在气候变化条件下的预计冬季变化已得到广泛分析。以前的研究报告称,EDJ 会被挤压和拉长。然而,其他变化存在很大的不确定性,特别是与强度和纬度有关的变化。在此,通过对 EDJ 的多参数描述,对 CMIP6 多模式集合中的 EDJ 预测进行了仔细研究。多模式平均值预测了整个冬季 EDJ 纬度的非稳态响应,其特点是初冬向极地移动,冬末向赤道移动。这些季节内移动(而不是真正的缩小)解释了之前确定的 EDJ 挤压,并与不同驱动因素的未来变化有关:初冬的 200 hPa 经向温度梯度和大西洋暖洞,以及冬末的平流层涡旋。模式偏差也会影响 EDJ 预测,导致初冬的极地移动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Intraseasonal shift in the wintertime North Atlantic jet structure projected by CMIP6 models

Intraseasonal shift in the wintertime North Atlantic jet structure projected by CMIP6 models
The projected winter changes of the North Atlantic eddy-driven jet (EDJ) under climate change conditions have been extensively analysed. Previous studies have reported a squeezed and elongated EDJ. However, other changes present large uncertainties, specifically those related to the intensity and latitude. Here, the projections of the EDJ in a multimodel ensemble of CMIP6 are scrutinised by using a multiparametric description of the EDJ. The multimodel mean projects non-stationary responses of the EDJ latitude through the winter, characterised by a poleward shift in early winter and equator migration in late winter. These intraseasonal shifts (rather than a genuine narrowing) explain the previously established squeezing of the EDJ and are linked to the future changes in different drivers: the 200 hPa meridional temperature gradient and Atlantic warming hole in early winter, and the stratospheric vortex in late winter. Model biases also influence EDJ projections, contributing to the poleward shift in early winter.
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来源期刊
npj Climate and Atmospheric Science
npj Climate and Atmospheric Science Earth and Planetary Sciences-Atmospheric Science
CiteScore
8.80
自引率
3.30%
发文量
87
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.
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