Increased Extreme Precipitation in May over Southwestern Xinjiang in Relation to Eurasian Snow Cover in Recent Years

IF 4.8 2区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES
Ping Chen, Junqiang Yao, Weiyi Mao, Liyun Ma, Jing Chen, Tuoliewubieke Dilinuer, Shujuan Li
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Abstract

Abstract In this study, the interdecadal variations of extreme precipitation in May over southwestern Xinjiang (SWX) and related mechanisms were investigated. The extreme precipitation in May over SWX exhibited a decadal shift in the 1990s (negative phase during 1970–86 and positive phase during 2003–18). The decadal shift corresponded to strengthened moist airflow from the Indian Ocean and an anomalous cyclone over SWX during 2003–18. It is found that the interdecadal change of the wave trains in Eurasia might account for the differences in atmospheric circulation between the above two periods. Further analyses reveal that spring snow cover over Eurasia is closely linked to extreme precipitation over SWX during 2003–18. Increased snow cover in western Europe (WE) from February to March is accompanied by more snowmelt. This resulted in less local snow cover and lower albedo, leading to warm temperatures over WE in May. The changes in temperatures increase the local 1000–500-hPa thickness over WE. These factors provide favorable conditions for the enhancement of the Eurasian wave trains, which significantly influence extreme precipitation over SWX. On the other hand, corresponding to decreased albedo caused by the reduction of snow cover in northern Eurasia (NE) in May, anomalous surface warming occurs over NE. The anomalous warming results in positive geopotential height anomalies that intensify the meridional geopotential height gradient over Eurasia and cause an acceleration of the westerly jet in May. Anomalous upper-level divergence in SWX induced by the enhanced westerly jet provides a favorable dynamical condition for increased extreme precipitation.
近年来新疆西南部 5 月极端降水增加与欧亚积雪的关系
摘要 本研究探讨了新疆西南部 5 月极端降水量的年代际变化及其相关机制。新疆西南部 5 月极端降水量在 20 世纪 90 年代出现了年代变化(1970-1986 年为负值,2003-18 年为正值)。这一十年转变与来自印度洋的湿润气流增强以及 2003-18 年期间西南气旋异常相对应。研究发现,欧亚大陆波列的年代际变化可能是造成上述两个时期大气环流差异的原因。进一步的分析表明,2003-18 年间欧亚大陆的春季积雪与西南气旋的极端降水密切相关。2 月至 3 月期间,西欧(WE)的积雪量增加,同时融雪量增加。这导致当地积雪减少,反照率降低,从而导致西欧西部 5 月份气温升高。温度的变化增加了西欧(WE)上空 1000-500 hPa 的局部厚度。这些因素为欧亚波列的增强提供了有利条件,而欧亚波列对西南气旋的极端降水有显著影响。另一方面,由于欧亚大陆北部(东北部)5 月份积雪减少导致反照率降低,东北部上空出现地表异常变暖。异常变暖导致正的位势高度异常,从而加剧了欧亚大陆上空的经向位势高度梯度,并导致 5 月份西风喷流加速。西风喷流增强所引起的西南气旋异常高层辐散为极端降水的增加提供了有利的动力条件。
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来源期刊
Journal of Climate
Journal of Climate 地学-气象与大气科学
CiteScore
9.30
自引率
14.30%
发文量
490
审稿时长
7.5 months
期刊介绍: The Journal of Climate (JCLI) (ISSN: 0894-8755; eISSN: 1520-0442) publishes research that advances basic understanding of the dynamics and physics of the climate system on large spatial scales, including variability of the atmosphere, oceans, land surface, and cryosphere; past, present, and projected future changes in the climate system; and climate simulation and prediction.
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