热带对流放电-补给循环的大气-海洋耦合能量收支

IF 3 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Brandon Wolding, Adam Rydbeck, Juliana Dias, Fiaz Ahmed, Maria Gehne, George Kiladis, Emily M. Riley Dellaripa, Xingchao Chen, Isabel L. McCoy
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引用次数: 0

摘要

利用大气湿静态能(MSE)和上层海洋热含量(OHC)相结合的能量收支分析了影响热带印度洋和西太平洋对流日变率的过程。大气和海洋输送过程、地表通量和辐射产生的反馈驱动对流在被抑制和增强的对流平衡状态(分别称为浅对流放电-补给循环和深对流放电-补给循环)周围的周期性放大和衰减。浅对流D-R循环的特点是浅积云和层积云交替增强,通常有大量卷云存在。深对流D-R循环的特征是:浅积云、密集云、窄深降水、宽深降水、分离砧云、高层云和高积云混合,以及浅积云云类型依次增加。从浅D-R循环向深D-R循环的转变受到正“柱过程”反馈的支持,而中尺度对流系统(mcs)释放对流不稳定性和热含量有助于从深D-R循环向浅D-R循环的转变。影响MSE过程的变异性在量级上与影响热含量过程的变异性相当,但比影响热含量过程的变异性更为平衡。大气-海洋耦合静态能(MSE+OHC)量的变化主要由大气和海洋输送过程引起,但主要表现为热含量的变化。MCSs在快速释放对流层低层对流不稳定性和热含量方面具有独特的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Atmosphere-Ocean Coupled Energy Budgets of Tropical Convective Discharge-Recharge Cycles
Abstract An energy budget combining atmospheric moist static energy (MSE) and upper ocean heat content (OHC) is used to examine the processes impacting day-to-day convective variability in the tropical Indian and western Pacific oceans. Feedbacks arising from atmospheric and oceanic transport processes, surface fluxes, and radiation drive the cyclical amplification and decay of convection around suppressed and enhanced convective equilibrium states, referred to as shallow and deep convective discharge-recharge (D-R) cycles respectively. The shallow convective D-R cycle is characterized by alternating enhancements of shallow cumulus and stratocumulus, often in the presence of extensive cirrus clouds. The deep convective D-R cycle is characterized by sequential increases in shallow cumulus, congestus, narrow deep precipitation, wide deep precipitation, a mix of detached anvil and alto-stratus and alto-cumulus, and once again shallow cumulus cloud types. Transitions from the shallow to deep D-R cycle are favored by a positive “column process” feedback, while discharge of convective instability and OHC by mesoscale convective systems (MCSs) contributes to transitions from the deep to shallow D-R cycle. Variability in the processes impacting MSE is comparable in magnitude to, but considerably more balanced than, variability in the processes impacting OHC. Variations in the quantity of atmosphere-ocean coupled static energy (MSE+OHC) result primarily from atmospheric and oceanic transport processes, but are mainly realized as changes in OHC. MCSs are unique in their ability to rapidly discharge both lower tropospheric convective instability and OHC.
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来源期刊
Journal of the Atmospheric Sciences
Journal of the Atmospheric Sciences 地学-气象与大气科学
CiteScore
0.20
自引率
22.60%
发文量
196
审稿时长
3-6 weeks
期刊介绍: The Journal of the Atmospheric Sciences (JAS) publishes basic research related to the physics, dynamics, and chemistry of the atmosphere of Earth and other planets, with emphasis on the quantitative and deductive aspects of the subject. The links provide detailed information for readers, authors, reviewers, and those who wish to submit a manuscript for consideration.
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