中国农业气象 ›› 2026, Vol. 47 ›› Issue (4): 483-494.doi: 10.3969/j.issn.1000-6362.2026.04.001

• 农业气候资源与气候变化栏目 •    下一篇

东亚夏季副热带西风急流−东北低压耦合的大气环流特征解析及其对区域夏季降水的影响

石传妙,焦乘乘,解文进,李璠,王湘平,赵杰   

  1. 1.平塘县气象局,平塘 558300;2.黔南州气象局,都匀 558000
  • 收稿日期:2025-05-05 出版日期:2026-04-20 发布日期:2026-04-18
  • 作者简介:石传妙,E-mail:897181202@qq.com
  • 基金资助:
    黔南州州县联合基金个人项目(2024ZXGR015)

Atmospheric Circulation Characteristics of the Coupling between the East Asian Summer Subtropical Westerly Jet and the Northeast Low Pressure and Impact on Regional Summer Precipitation

SHI Chuan-miao, JIAO Cheng-cheng, XIE Wen-jin, LI Fan, WANG Xiang-ping, Zhao Jie   

  1. 1.Pingtang Meteorological Bureau, Pingtang 558300, China; 2.Qiannan Prefecture Meteorological Bureau, Duyun 558000
  • Received:2025-05-05 Online:2026-04-20 Published:2026-04-18

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摘要: 利用1979−2021年美国国家环境预报中心/能源部(NCEP/DOE)和全球降水气候计划(GPCP)提供的全球大气再分析资料,结合东亚夏季副热带西风急流指数(EAJI)和东北低压指数(NEALI),分析两者在年尺度不同配置下的特征及大气异常条件,进一步理解东亚季风中不同环流系统的协同作用对东亚气候变化和中国夏季降水的影响。结果表明:东北低压强度和东亚西风急流位移变化并非独立存在。当二者处于同正(同负)位相年,欧亚大陆中高纬度对流层中层表现为显著的异常波列结构,850hPa上乌拉尔山地区位势高度有显著正(负)异常现象,贝加尔湖以东表现为显著负(正)异常,500hPa上位势高度异常在乌拉尔山−贝加尔湖−日本一带呈正−负−正(负−正−负)分布特征,急流位置偏北(南),导致副热带高压略北(南)移,造成中国长江及其以南地区夏季降水量异常偏少(多),南部沿海和东北地区偏多(少)。当两者处于反位相年时,大气环流和降水量异常的空间分布总体上表现为与同位相年类似的特征,但东亚区域气候异常的强度明显减弱。

关键词: 东北低压, 副热带西风急流, 耦合配置, 夏季降水量

Abstract:

Using global atmospheric reanalysis data from the National Centers for Environmental Prediction/Department of Energy (NCEP/DOE) and the Global Precipitation Climatology Project (GPCP) for the period 1979–2021. By integrating the East Asian Summer Subtropical Westerly Jet Index (EAJI) and the Northeast Low Pressure index (NEALI), this study analyzed the characteristics of their distinct configurations on the interannual scale as well as the associated atmospheric anomalous conditions,further explored the synergistic effects of different circulation systems of the east Asian monsoon on climate change in east Asia and summer precipitation in China. The results showed that the variability in the intensity of Northeast Low Pressure and the displacement of the East Asian Westerly Jet were not independent. When both systems were in phase (either positive or negative), significant anomalous wave patterns appeared in the middle troposphere over the mid–to–high latitudes of Eurasia. Geopotential height anomalies were observed at 850hPa, with positive (negative) anomalies near the Ural mountains and negative (positive) anomalies east of Baikal lake. At 500hPa, geopotential height anomalies showed a positive–negative–positive (negative–positive–negative) pattern from the Ural mountains to Baikal lake and Japan. The jet shifted northward (southward), causing a slight northward (southward) movement of the subtropical high, leading to below–average (above–average) summer precipitation in southern China and along the Yangtze river, with above–average (below–average) precipitation in coastal southern China and northeast China. When the two systems were in an out–of–phase configuration, the spatial distribution of atmospheric circulation and precipitation anomalies was similar to that of the in–phase years, but the intensity of the climate anomalies over east Asia was significantly weaker.

Key words: Northern east Asian low, East Asian summer subtropical westerly jet, Coupling configuration, Summer precipitation

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