1959-2021 年期间北太平洋西部热带气旋外流高度的上升趋势

IF 2.8 3区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES
Yuan Sun, Zhihao Feng, Wei Zhong, Panmao Zhai, Yanluan Lin, Shuo Lyu
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引用次数: 0

摘要

尽管热带气旋外流对热带气旋强度有很大影响,但人们对全球变暖对热带气旋外流的影响知之甚少。本研究基于国际气候管理最佳路径档案(IBTrACS)数据集和ERA5再分析数据,表明过去几十年(1959-2021年)北太平洋西部热带气旋外流高度显著上升(48.20±22.18米-10年-1),且较强热带气旋的上升趋势更明显(强台风的上升趋势为61.09±40.92米-10年-1)。这种外流高度的上升趋势解释了热气旋外流温度下降趋势与大气对流层温度上升趋势之间的矛盾。此外,还研究了TC外流高度上升趋势对TC强度的可能贡献。结果表明,外流高度的上升会导致外流温度的下降,从而使海面温度与TC外流温度之间的差值增大,最终有利于TC强度的增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Uptrend of the Western North Pacific Tropical Cyclone Outflow Height during 1959–2021

Relatively little is known about the impact of global warming on the tropical cyclone (TC) outflow, despite its large contribution to TC intensity. In this study, based on the International Best Track Archive for Climate Stewardship (IBTrACS) dataset and ERA5 reanalysis data, we show that the TC outflow height has risen significantly (48.20 ± 22.18 m decades−1) in the past decades (1959–2021) over the western North Pacific, and the rising trend tends to be sharper for stronger TCs (the uptrend of severe typhoon is 61.09 ± 40.92 m decades−1). This rising trend of the outflow height explains the contradiction between the decrease trend of the TC outflow temperature and the increase trend of the atmospheric troposphere temperature. Moreover, possible contribution of the TC outflow height uptrend to TC intensity has also been investigated. The results show that the rise of outflow height leads to the decrease of outflow temperature, and thus an increased difference between underlying sea surface temperature (SST) and TC outflow temperature, which eventually favors the increase of TC intensity.

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来源期刊
Journal of Meteorological Research
Journal of Meteorological Research METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
6.20
自引率
6.20%
发文量
54
期刊介绍: Journal of Meteorological Research (previously known as Acta Meteorologica Sinica) publishes the latest achievements and developments in the field of atmospheric sciences. Coverage is broad, including topics such as pure and applied meteorology; climatology and climate change; marine meteorology; atmospheric physics and chemistry; cloud physics and weather modification; numerical weather prediction; data assimilation; atmospheric sounding and remote sensing; atmospheric environment and air pollution; radar and satellite meteorology; agricultural and forest meteorology and more.
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