三种类型的北夏季季节内振荡对长江流域夏季降水的影响

IF 2.3 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Atmospheric and Oceanic Science Letters Pub Date : 2023-09-01 DOI:10.1016/j.aosl.2023.100394
Xiangyang Cui , Baoyan Zhu , Bo Sun
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引用次数: 0

摘要

已有研究表明,活跃于印度洋的北半球夏季季内涛动(BSISO)可以影响长江流域的降水。本文研究了三种类型的BSISO模式对YRV降水的影响,发现其差异显著。水汽收支分析表明,各BSISO模态降水异常的过程主要是水汽辐合,而水汽平流不显著。在典型模态中,由于西北太平洋上空有一个与bsso相关的气旋(从副热带西部向西北太平洋移动的反气旋),并伴随着向东北传播的对流增强(抑制),在- 2候(- 1至3)降水异常为负(正)。相比之下,在东扩模式下,印度洋对流增强(抑制)的遥相关效应诱发了西北太平洋与bsso相关的反气旋(气旋)环流,在- 2 ~ 0(1 ~ 3)候降水异常为正(负)。与前两次BSISO模态不同的是,在北向偶极子模态中,在- 2 ~ 0(1 ~ 3)候降水异常为负(正)异常,这是由于BSISO相关的气旋(反气旋)环流由于对流的增强(抑制)传播而从南海向西北太平洋移动所致。
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Influence of three types of boreal summer intraseasonal oscillation on summer precipitation over the Yangtze River Valley

Previous studies have demonstrated that boreal summer intraseasonal oscillation (BSISO) active in the Indian Ocean can affect precipitation over the Yangtze River Valley (YRV). In this study, the impacts of three types of BSISO modes on precipitation over the YRV were investigated and found to vary significantly. First, moisture budget analysis indicated that the process responsible for the precipitation anomalies in all BSISO modes is moisture convergence, while moisture advection is insignificant. In the canonical mode, precipitation anomalies are negative (positive) at pentad −2 (−1 to 3) owing to a BSISO-related cyclone over the northwestern Pacific (anticyclone moving from the subtropical western to northwestern Pacific) accompanied by enhanced (suppressed) convection propagating northeastward. Comparatively, in the eastward expansion mode, precipitation anomalies are positive (negative) at pentad −2 to 0 (1 to 3) via a BSISO-related anticyclonic (cyclonic) circulation over the northwestern Pacific induced by the teleconnection effect of enhanced (suppressed) convection over the Indian Ocean. Different from the previous two BSISO modes, in the northward dipole mode, precipitation anomalies are negative (positive) at pentad −2 to 0 (1 to 3) owing to a BSISO-related cyclonic (anticyclonic) circulation, which moves from the South China Sea to the northwestern Pacific because of the propagation of enhanced (suppressed) convection.

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来源期刊
Atmospheric and Oceanic Science Letters
Atmospheric and Oceanic Science Letters METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
4.20
自引率
8.70%
发文量
925
审稿时长
12 weeks
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