山西北部极端降水指数和大气环流特征分析

Pub Date : 2024-04-01 DOI:10.1016/j.rcar.2024.03.007
Xia Cai , Yan Song , Lin Cai , Xin Su , GuiHua Liang , YanMing Xu
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引用次数: 0

摘要

本文利用山西省北部28个国家级气象站1972-2020年的日降水量资料,以及美国NCEP/NCAR月平均再分析资料和ERA5月平均再分析资料。研究采用经验正交函数(EOF)分解、Mann-Kendall突变等技术,探讨了山西北部极端降水指数的时空分布及其与大气环流的相关性。研究结果表明:连续指数中的绝对指数、相对指数、强度指数和持续干旱期指数(CDD)从西南向东北依次出现。中部地区空间分布特征减弱,持续湿润期(CWD)由中部向东、西部减弱。Rx1日、Rx5日和CWD三个指数分别在1978年、1975年和1983年出现突变,其他极端降水指数均在2010年前后出现由低值期向高值期的突变。在夏季极端降水指数的高值年,欧亚大陆中高纬度地区的高度场出现了明显的负异常。山西北部受贝加尔湖地区宽阔的低压槽控制。经东、西、南三路输送的水汽在山西北部地区汇聚,并与北方冷空气相遇。对流层 500 hPa 存在强烈的上升运动异常,高层发散和低层辐合的动态条件导致山西北部地区夏季极端降水增多。相反,在夏季极端降水指数的低值年份,山西北部受贝加尔湖以北强高压脊的影响。500 hPa 存在向下运动异常,山西北部地区缺乏水汽。冷暖空气不能交汇,水汽条件和动力条件都较差,不利于山西北部极端降水的产生。
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Analysis on characteristics of extreme precipitation indices and atmospheric circulation in Northern Shanxi

This article utilizes daily precipitation data from 28 national meteorological stations in northern Shanxi Province spanning from 1972 to 2020, and the US NCEP/NCAR monthly average reanalysis and ERA5 monthly average reanalysis data. The study employs techniques such as empirical orthogonal function (EOF) decomposition, Mann-Kendall mutation and other methods to investigate the spatiotemporal distribution of extreme precipitation index in northern Shanxi and their correlation with atmospheric circulation. The research results show that: the absolute index, relative index, intensity index and sustained dry period index (CDD) in the continuous index appear from southwest to northeast. The spatial distribution characteristics of the central region decrease, while the continuous wet period (CWD) decreases from the central to the east and west. The three indices Rx1day, Rx5day, and CWD mutated in 1978, 1975, and 1983 respectively, and other extreme precipitation indices all appeared in a sudden change from a low-value period to a high-value period occurred around 2010. In the high-value years of the summer extreme precipitation index, there is a significant negative anomaly in the height field in the mid-high latitude regions of Eurasia. Northern Shanxi is controlled by a broad low-pressure trough in the Lake Baikal area. Water vapor transported via the east, west, and south routes converges in the northern Shanxi region and encounters cold air from the north. There is a strong upward motion anomaly at 500 hPa in the troposphere, and the dynamic conditions of upper-level divergence and lower-level convergence lead to more summer extreme precipitation in the northern Shanxi region. Conversely, in the low-value years of the summer extreme precipitation index, northern Shanxi is affected by a strong high-pressure ridge north of Lake Baikal. There is a downward motion anomaly at 500 hPa, and the northern Shanxi region lacks water vapor. The cold and warm air cannot converge, and both the water vapor conditions and dynamic conditions are poor, which is not conducive to the production of extreme precipitation in northern Shanxi.

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