Mechanism of secondary eyewall formation in tropical cyclones revealed by sensitivity experiments on the mesoscale descending inflow

IF 1.7 4区地球科学 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES Sola Pub Date : 2024-02-13 DOI:10.2151/sola.2024-009

Kyohei Kasami, Masaki Satoh

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Abstract

An eyewall replacement cycle is often seen in tropical cyclones, when a secondary eyewall forms outside the inner eyewall, and the inner eyewall disappears. Although this cycle significantly affects the intensity of tropical cyclones, the mechanisms of secondary eyewall formation (SEF) are diverse, and most are complementary. Some studies have suggested that dry air inflow and diabatic cooling may have an important role in SEF via the mesoscale descending inflow (MDI). Here, we use numerical experiments to investigate the role of the middle tropospheric dry inflow in SEF. Idealized experiments were conducted using the plane version of the Nonhydrostatic Icosahedral Atmospheric Model. The control experiment produced SEF with a dry air inflow in the middle troposphere and associated MDI. In sensitivity experiments, in which the water vapor in the middle troposphere was increased in the outer areas of the tropical cyclone, the onset of SEF was delayed. These results reveal the two distinct processes of SEF: the angular momentum transport by MDI and the unbalanced dynamics in the boundary layer.

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中尺度下降气流敏感性实验揭示的热带气旋次生眼墙形成机制

热带气旋中经常出现眼球替换周期，即在内部眼球外形成次级眼球，内部眼球消失。虽然这一周期会对热带气旋的强度产生重大影响，但二次眼球形成的机制多种多样，而且大多数是相辅相成的。一些研究认为，干燥空气流入和二重冷却可能通过中尺度下降气流（MDI）在二次眼墙形成过程中发挥重要作用。在此，我们利用数值实验来研究对流层中层干燥气流在 SEF 中的作用。使用非静水压二十面体大气模型的平面版本进行了理想化实验。对照实验产生了对流层中层干燥空气流入的 SEF 和相关的 MDI。在敏感性实验中，热带气旋外围地区对流层中部的水汽增加，SEF 的发生被推迟。这些结果揭示了 SEF 的两个不同过程：MDI 的角动量传输和边界层的不平衡动力学。

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来源期刊

Sola 地学-气象与大气科学

CiteScore

3.50

自引率

21.10%

发文量

审稿时长

>12 weeks

期刊介绍： SOLA (Scientific Online Letters on the Atmosphere) is a peer-reviewed, Open Access, online-only journal. It publishes scientific discoveries and advances in understanding in meteorology, climatology, the atmospheric sciences and related interdisciplinary areas. SOLA focuses on presenting new and scientifically rigorous observations, experiments, data analyses, numerical modeling, data assimilation, and technical developments as quickly as possible. It achieves this via rapid peer review and publication of research letters, published as Regular Articles. Published and supported by the Meteorological Society of Japan, the journal follows strong research and publication ethics principles. Most manuscripts receive a first decision within one month and a decision upon resubmission within a further month. Accepted articles are then quickly published on the journal’s website, where they are easily accessible to our broad audience.