An Extreme Tropical Cyclone Silence in the Western North Pacific in July 2020

IF 1.6 4区地球科学 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES

Atmosphere-Ocean Pub Date : 2022-01-01 DOI:10.1080/07055900.2022.2060179

Rui Jin, Hui Yu, Ming Ying, Zhiwei Wu

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引用次数: 4

Abstract

ABSTRACT The western North Pacific (WNP) tropical cyclone (TC) number in July 2020 hit a record low since 1949, with no TC formation throughout July. It is shown that this record-breaking TC event can be largely attributed to the extremely strong lower-level anticyclone and subsidence over the TC-genesis-prone region (GPR), concurrent with an intensified western Pacific subtropical high (WPSH) there. This configuration is closely linked to both the air–sea interaction in the tropical Indo-western Pacific and the vigorous wave activities over the mid-high latitude Eurasia. The warming western Indian Ocean and the resultant active convection excited an anomalous lower-level anticyclone and descending atmospheric Kelvin wave over the GPR, together with a strengthened WPSH. Accompanied with this monthly background field, long-lasting Madden-Julian Oscillation was confined west of 90°E, which intensified the proposed anticyclonic vorticity and decreased the moisture condition in the South China Sea and tropical WNP. Meanwhile, two active wave fluxes prevailed across the jet streams over the mid-high latitude Eurasia with a quasi-barotropic cyclonic abnormity dominating from Northeast China to Japan. The resultant positive potential vorticity on its south excited the anomalous local ascending around 35°N, which favoured the upper-level convergence in the tropical WNP and reinforced the local subsidence through modulating the meridional circulation. This extratropical impact further aggravated the suppressed circulation condition for TC formation and increased the chance that the extreme tropical cyclone silence would happen.

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2020年7月北太平洋西部的一次极端热带气旋静默

2020年7月西北太平洋热带气旋(WNP)数量创1949年以来新低，整个7月没有形成热带气旋。结果表明，这次破纪录的TC事件主要是由于TC发生易发区(GPR)上超强的低层反气旋和下沉，同时西太平洋副热带高压(WPSH)增强。这一格局与热带印度洋-西太平洋的海气相互作用和欧亚大陆中高纬度地区强烈的波浪活动密切相关。西印度洋变暖和由此产生的活跃对流在GPR上空激发了一个低空异常反气旋和下降的大气开尔文波，同时西太平洋高压增强。伴随这一月度背景场，持续时间较长的麦登-朱利安涛动被限制在90°E以西，增强了所提出的反气旋涡度，降低了南海和热带西西北地区的水汽条件。与此同时，中高纬欧亚大陆急流上空存在两条活动性波通量，东北至日本一带为准正压气旋异常。其南侧的正位涡激发了35°N附近局地异常上升，有利于热带地区的高层辐合，并通过调节经向环流加强局地下沉。这种温带影响进一步加剧了TC形成的抑制环流条件，增加了极端热带气旋沉默发生的机会。

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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来源期刊

Atmosphere-Ocean 地学-海洋学

CiteScore

2.50

自引率

16.70%

发文量

审稿时长

>12 weeks

期刊介绍： Atmosphere-Ocean is the principal scientific journal of the Canadian Meteorological and Oceanographic Society (CMOS). It contains results of original research, survey articles, notes and comments on published papers in all fields of the atmospheric, oceanographic and hydrological sciences. Arctic, coastal and mid- to high-latitude regions are areas of particular interest. Applied or fundamental research contributions in English or French on the following topics are welcomed: climate and climatology; observation technology, remote sensing; forecasting, modelling, numerical methods; physics, dynamics, chemistry, biogeochemistry; boundary layers, pollution, aerosols; circulation, cloud physics, hydrology, air-sea interactions; waves, ice, energy exchange and related environmental topics.