遥相关
气候学
降水
大气环流
环境科学
沃克循环
海面温度
纬向和经向
大气环流模式
大气科学
太平洋十年振荡
拉尼娜现象
气候变化
海洋学
地质学
厄尔尼诺南方涛动
地理
气象学
作者
Yuko Okumura,Pedro DiNezio,Clara Deser
摘要
Abstract Wintertime precipitation over the southern U.S. is known to decrease with interannual cooling of the equatorial Pacific associated with La Niña, which often persists 2 years or longer. Composite analysis based on a suite of observational and reanalysis data sets covering the period 1901–2012 reveals distinct evolution of atmospheric teleconnections and U.S. precipitation anomalies during multiyear La Niña events. In particular, atmospheric circulation anomalies strengthen and become more zonally elongated over the North Pacific in the second winter compared to the first winter. U.S. precipitation deficits also remain large, while the region of reduced precipitation shifts northeastward in the second winter. This occurs despite a significant weakening of the equatorial Pacific cooling in the second winter and suggests that the large‐scale atmospheric circulation is more sensitive to tropical sea surface temperature anomalies of broader meridional extent. Given the extended climatic impacts, accurate prediction of La Niña duration is crucial.
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