On the upper ocean response of Bay of Bengal to very severe cyclones Phailin and Hudhud

IF 1.7 3区 地球科学 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES
Anju Issac Elizabeth, J. B. Effy, P. A. Francis
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引用次数: 1

Abstract

ABSTRACT The upper ocean response of Bay of Bengal to two extremely severe post-monsoon tropical cyclones, Phailin and Hudhud, which occurred in the same time of the season (4–12 October 2013 and 6–12 October 2014 respectively) with very similar tracks and life cycles are presented in this study. It is observed that, even though the tropical cyclone Phailin was much stronger than tropical cyclone Hudhud, the cooling of the underlying ocean was more rapid and intense during the passage of tropical cyclone Hudhud. Heat budget analysis of the upper ocean based on realistic simulations using Regional Ocean Modeling System suggests that, while the vertical processes, horizontal advection and the reduction in the net heat flux have contributed to the cooling of the upper ocean in both the cases, the intensity of vertical processes were relatively weaker in the case of tropical cyclone Phailin. Further analysis shows that the surface layers of Bay of Bengal were relatively more stable in October 2013 due to excess rainfall in the preceding summer monsoon compared to October 2014, which was succeeded by a poor monsoon.
孟加拉湾上层海洋对超强气旋菲林和哈德哈德的反应
本文研究了孟加拉湾上层海洋对发生在同一季节(分别为2013年10月4日至12日和2014年10月6日至12日)、轨迹和生命周期非常相似的两个极强季风后热带气旋“菲林”和“哈德哈德”的响应。观察到,尽管热带气旋“菲林”比热带气旋“哈德哈德”强得多,但在热带气旋“哈德哈德”通过期间,下层海洋的冷却速度更快、强度更大。基于区域海洋模拟系统实际模拟的上层海洋热收支分析表明,虽然垂直过程、水平平流和净热通量的减少都有助于上层海洋的冷却,但在热带气旋“菲琳”的情况下,垂直过程的强度相对较弱。进一步分析表明,与2014年10月相比,2013年10月孟加拉湾表层相对稳定,原因是前期夏季风降水偏多,随后季风偏弱。
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
CiteScore
7.50
自引率
9.70%
发文量
8
审稿时长
>12 weeks
期刊介绍: The Journal of Operational Oceanography will publish papers which examine the role of oceanography in contributing to the fields of: Numerical Weather Prediction; Development of Climatologies; Implications of Ocean Change; Ocean and Climate Forecasting; Ocean Observing Technologies; Eutrophication; Climate Assessment; Shoreline Change; Marine and Sea State Prediction; Model Development and Validation; Coastal Flooding; Reducing Public Health Risks; Short-Range Ocean Forecasting; Forces on Structures; Ocean Policy; Protecting and Restoring Ecosystem health; Controlling and Mitigating Natural Hazards; Safe and Efficient Marine Operations
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