Climatic Variations in Relation to Large-scale Air-sea Interaction

Chigaku Zasshi (jounal of Geography) Pub Date : 1900-01-01 DOI:10.5026/JGEOGRAPHY.117.1063

R. Kawamura

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引用次数: 9

Abstract

In the tropics, the El Nino-Southern Oscillation (ENSO) occupies a major part of the interannual air-sea interactive system. The ENSO plays a vital role in triggering the occurrence of extraordinary anomalous climates and weather not only in the tropics but also in the extratropical regions. In the South Asian monsoon region, the ENSO can influence the interannual variability of the monsoon system through at least two different impacts. During the decay phase of ENSO (from winter to summer) its delayed impact operates through large-scale air-sea interaction in the tropical Indian Ocean and land-surface hydrological processes over the Asian Continent, eventually bringing about change in summer monsoon activity in June and July. During the ENSO growth phase (from summer to winter), in contrast, its direct impact is considered to account for monsoon interannual variability especially in August and September. East Asian monsoon variability is also significantly affected by ENSO-related tropical forcing. Especially in early winter, ENSO-related anomalous convection can give rise to a change in the East Asian winter monsoon system through stationary Rossby wave propagation along the South Asian waveguide, but the remote response depends on the geographical configuration of the anomalous tropical convection. In summer, the ENSO's delayed impact is associated with excitation of an extratropical teleconnection, which causes anomalous weather in northeastern Asia. Midlatitude air-sea interactions and their potential impact on large-scale atmospheric circulations are also discussed. The coexistence of the East Asian winter monsoon flow and western boundary current makes air-sea heat exchanges in the Kuroshio extension very active. Due to enhanced baroclinicity and surface heat fluxes from the ocean, a number of extratropical cyclones tend to develop explosively in the vicinity of Japan. The activity of these extratropical cyclones contributes to the downstream development of upper-level teleconnections.

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与大尺度海气相互作用有关的气候变化

在热带地区，厄尔尼诺-南方涛动(ENSO)在年际海气相互作用系统中占有重要地位。ENSO不仅在热带地区，而且在温带地区，在引发异常气候和天气的发生方面起着至关重要的作用。在南亚季风区，ENSO可以通过至少两种不同的影响影响季风系统的年际变化。在ENSO衰减阶段(冬季至夏季)，其延迟影响通过热带印度洋的大尺度海气相互作用和亚洲大陆的陆-地水文过程进行，最终导致6、7月夏季风活动的变化。相反，在ENSO生长阶段(从夏季到冬季)，其直接影响被认为是季风年际变化的原因，特别是在8月和9月。东亚季风变率也受到enso相关热带强迫的显著影响。特别是在初冬，enso相关的异常对流可以通过沿南亚波导的稳态罗斯比波传播引起东亚冬季风系统的变化，但远程响应取决于热带异常对流的地理配置。在夏季，ENSO的延迟影响与一个温带遥相关的激发有关，这导致了东北亚的异常天气。文中还讨论了中纬度海气相互作用及其对大尺度大气环流的潜在影响。东亚冬季季风流和西部边界流的共存使得黑潮伸展区海气热交换非常活跃。由于来自海洋的斜压性和地表热通量增强，一些温带气旋倾向于在日本附近爆炸性发展。这些温带气旋的活动有助于高空遥相关的下游发展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Chigaku Zasshi (jounal of Geography)

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