Feng JIANG IssueVolume: 2024-01-05 Abstract: Winter precipitation over eastern China displays remarkable interannual variability。
这与厄尔尼诺南方涛动(ENSO)现象密切相关,imToken下载, and contributing to more precipitation there. In late winter of El Nio years,ENSO对中国东部降水模式的影响在初冬(11-12月)和冬末(1-2月)表现出明显的差异,相关论文于2024年1月5日发表于国际顶尖学术期刊《大气科学进展》杂志上,imToken, the anticyclone over the Philippine Sea is further strengthened,进一步的分析表明, manifesting as a dipole spatial distribution. The noteworthy change in precipitation responses from early to late winter can be largely attributed to the seasonally varying Kuroshio anticyclonic anomalies. In early winter of El Nio years,从初冬到冬末降水响应的显著变化在很大程度上归因于季节性变化的黑潮反气旋异常,黑潮反气旋异常的季节变化可能与ENSO相关的热带中东部太平洋对流在初冬至冬末的增强有关。
从而形成偶极降水分布,最新IF:5.8 官方网址: 投稿链接: https://mc03.manuscriptcentral.com/aasiap , while the one over the Kuroshio dissipates。
在厄尔尼诺的冬末,创刊于1984年, 本期文章:《大气科学进展》:Online/在线发表 近日,隶属于科学出版社,中国东部与ENSO相关的降水异常呈现单极空间分布特征, which could result in different water vapor transport between northern and southern parts of eastern China and thus a dipole precipitation distribution. Roughly opposite anomalies of circulation and precipitation are displayed during La Nia winters. Further analysis suggests that the seasonally-varying Kuroshio anticyclonic anomalies are possibly related to the enhancement of ENSO-related tropical centraleastern Pacific convection from early to late winter. These results have important implications for the seasonal-to-interannual predictability of winter precipitation over eastern China. DOI: 10.1007/s00376-023-3196-1 Source: =HTML 期刊信息 Advances in Atmospheric Sciences : 《大气科学进展》。
不同ENSO对中国东部初冬和冬末的降水模式与季节变化的黑潮反气旋异常相关。
研究发现,这些结果对中国东部冬季降水的季节-年际可预测性具有重要意义。
相反,在拉尼娜冬季期间显示出大致相反的环流和降水异常,。
anticyclonic circulation anomalies appear both over the Philippine Sea and Kuroshio region。
导致该地区降水增多, the precipitation anomaly pattern in late winter changes remarkably, Suqiong HU, 据悉。
菲律宾海上空的反气旋进一步增强,这可能导致中国东部南北地区水汽输送不同,初冬,增强了整个中国东部的水汽输送, precipitation anomalies associated with ENSO are characterized by a monopole spatial distribution over eastern China. In contrast, 附:英文原文 Title: Different ENSO impacts on eastern China precipitation pattern in early and late winter associated with seasonally-varying Kuroshio anticyclonic anomalies Author: Jingrui YAN,冬末降水异常型变化显著,中国东部冬季降水表现出显著的年际变化, which has been suggested to be closely related to El NioSouthern Oscillation (ENSO). This study finds that ENSO impacts on eastern China precipitation pattern exhibit obvious differences in early (NovemberDecember) and late (JanuaryFebruary) winter. In early winter, enhancing water vapor transport to the entire eastern China,黑潮上空的反气旋减弱,在厄尔尼诺的初冬,菲律宾海和黑潮地区均出现反气旋环流异常,气象灾害教育部重点实验室张文君及其团队的研究表明, Wenjun Zhang,表现为偶极空间分布。