Climatology Definition of the Myanmar Southwest Monsoon (MSwM): Change Point Index (CPI)

IF 2.1 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Advances in Meteorology Pub Date : 2023-01-25 DOI:10.1155/2023/2346975
Kyaw Than Oo
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引用次数: 2

Abstract

Myanmar’s climate is heavily influenced by its geographic location and relief. Located between the Indian summer monsoon (ISM) and the East Asian summer monsoon (EASM), Myanmar’s climate is distinguished by the alternation of seasons known as the monsoon. The north-south direction of peaks and valleys creates a pattern of alternate zones of heavy and scanty precipitation during both the northeast and southwest monsoons. The majority of the rainfall has come from Myanmar’s southwest monsoon (MSwM), which is Myanmar’s rainy season (summer in global terms, June–September). This study explained both threshold-based and nonthreshold-based objective definitions of the onset and withdrawal of large-scale MSwM. The seasonal transitions in MSwM circulation and precipitation are convincingly represented by the new index, which is based on change point detection of the atmospheric moisture flow converging in the MSwM region (10–28 N, 92–102 E). A transition in vertically integrated moisture transport (VIMT), the reversal of surface winds, and an increase in precipitation may also be considered when defining MSwM onset objectively. We also define a change point of the MSwM (CPI) index for MSwM onset and withdrawal dates. The climatological mean onset of MSwM is day 135 (May 14), withdrawal is day 278 (October 4), and the total season length is 144 days. We are investigating spatial patterns of rainfall progression at and after the start of the monsoon, rather than transitions within a single region of the MSwM. The local southwest monsoon duration is well correlated with the CPI duration on interannual timescales, particularly in the peak rainfall regions, with a delay (advance) in large-scale onset or withdrawal associated with a delay (advance) of onset or withdrawal by local index. Hence, the next phase of this research is to study the maintenance and break of the monsoon to understand the underlying physical processes governing the monsoon circulation. The results of this study provide a possibility to reconstruct Myanmar’s monsoon climate dynamics, and the findings of this study can help unravel many remaining questions regarding the greater Asian monsoon system’s variability.
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缅甸西南季风的气候学定义:变化点指数(CPI)
缅甸的气候在很大程度上受到其地理位置和地形的影响。缅甸位于印度夏季风(ISM)和东亚夏季风(EASM)之间,气候以季风季节交替而闻名。在东北和西南季风期间,山峰和山谷的南北方向形成了一种交替的强降水和少降水区模式。大部分降雨来自缅甸西南季风(MSwM),这是缅甸的雨季(全球夏季,6月至9月)。本研究解释了大规模MSwM发作和消退的基于阈值和非阈值的客观定义。新指数令人信服地代表了MSwM环流和降水的季节性转变,该指数基于对汇聚在MSwM区域的大气湿气流的变化点检测(10-28 N、 92–102 E) 。在客观定义MSwM发作时,还可以考虑垂直综合湿气输送(VIMT)的转变、表面风的逆转和降水量的增加。我们还定义了MSwM(CPI)指数的变化点,用于MSwM的发病日期和停药日期。MSwM的气候平均发病时间为第135天(5月14日),停药时间为第278天(10月4日),总季节长度为144 天。我们正在调查季风开始时和之后降雨进程的空间模式,而不是MSwM单个区域内的转变。在年际尺度上,当地西南季风持续时间与CPI持续时间密切相关,特别是在降雨量峰值地区,大规模爆发或消退的延迟(推进)与当地指数的爆发或消退延迟(提前)相关。因此,本研究的下一阶段是研究季风的维持和中断,以了解控制季风环流的潜在物理过程。这项研究的结果为重建缅甸的季风气候动力学提供了可能性,这项研究结果有助于解开关于更大的亚洲季风系统可变性的许多遗留问题。
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来源期刊
Advances in Meteorology
Advances in Meteorology 地学天文-气象与大气科学
CiteScore
5.30
自引率
3.40%
发文量
80
审稿时长
>12 weeks
期刊介绍: Advances in Meteorology is a peer-reviewed, Open Access journal that publishes original research articles as well as review articles in all areas of meteorology and climatology. Topics covered include, but are not limited to, forecasting techniques and applications, meteorological modeling, data analysis, atmospheric chemistry and physics, climate change, satellite meteorology, marine meteorology, and forest meteorology.
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