Monsoon Impact on the Air Quality During SAR-CoV-2 Pandemic Spread in Central Peninsular Malaysia and Sabah: Pre, During and Post Lockdown Scenarios

IF 0.7 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES Journal of Climate Change Pub Date : 2021-09-02 DOI:10.3233/JCC210019
M. V. Prasanna, S. Chidambaram
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Abstract

Malaysia is considered as one of the countries with the highest novel corona virus (COVID-19) infected cases in Southeast Asia. Recent studies have identified that the air quality of a region also governs the transmission of the virus through pollutants. Hence, a study was conducted to assess the influence of air quality on the COVID-19 pandemic spread in central Peninsular Malaysia and Sabah. An attempt was also made to infer the effect of monsoonal precipitation on air quality. Central Peninsular Malaysia consists of major cities like Kuala Lumpur, Selangor and Putrajaya. These cities are highly populated, with the expansion of industrial activities, rapid urbanisation and greater usage of vehicles has resulted in air quality deterioration. Such conditions have led to related public health issues, compared to Sabah in east Malaysia. In this study, COVID-19 infected cases, air quality index (AQI) and precipitation data were collected from 25 January to August 2020 to infer the relationship of air quality to the pandemic spread before, during and after the implementation of lockdown periods in the country, referred as movement control order (MCO). The lockdown periods fall under various monsoon climate patterns in the country. Interpretation of data reveals that the variation in air quality correlates with the infected cases. Improved air quality was observed during the last phase of MCO with a lesser number of infected cases. The HYSPLIT model was adopted to study the backward air mass trajectories for different time frames to identify the variation in the sources of pollutants reaching the study area. The study determined that the air pollutants have reached the study area from various directions, reflecting a mixed contribution from the ocean and land area. The relationship between high precipitation (during inter-monsoon and SW monsoon) and improved air quality reveals the washout effect of air pollutants. The outcome of this study inferred that the variation of air quality and precipitation rates facilitate the pandemic spread in this region in addition to the other meteorological factors, apart from individual immune capacity and social distancing.
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在马来西亚和沙巴中部半岛sars - cov -2大流行传播期间,季风对空气质量的影响:封锁前、期间和之后的情景
马来西亚被认为是东南亚新型冠状病毒(COVID-19)感染病例最多的国家之一。最近的研究发现,一个地区的空气质量也决定着病毒通过污染物的传播。因此,开展了一项研究,评估空气质量对马来西亚半岛中部和沙巴州COVID-19大流行传播的影响。还试图推断季风降水对空气质量的影响。马来西亚中部半岛由吉隆坡、雪兰莪和布城等主要城市组成。这些城市人口众多,随着工业活动的扩张、快速的城市化和车辆的大量使用,导致空气质量恶化。与马来西亚东部的沙巴相比,这种情况导致了相关的公共卫生问题。本研究收集了2020年1月25日至8月期间的COVID-19感染病例、空气质量指数(AQI)和降水数据,以推断在该国实施封锁期间(即运动控制令(MCO))之前、期间和之后,空气质量与大流行传播的关系。封锁期属于该国的各种季风气候模式。对数据的解读表明,空气质量的变化与感染病例有关。在MCO的最后阶段,观察到空气质量有所改善,感染病例较少。采用HYSPLIT模型对不同时间框架下的落后气团轨迹进行研究,以识别到达研究区的污染源的变化情况。该研究确定,空气污染物已从不同方向到达研究区域,反映了海洋和陆地区域的混合贡献。高降水(季风间和西南季风期间)与空气质量改善的关系揭示了空气污染物的冲刷效应。本研究结果推断,除个体免疫能力和社会距离外,空气质量和降水率的变化除了其他气象因素外,还有助于该地区大流行的传播。
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来源期刊
Journal of Climate Change
Journal of Climate Change METEOROLOGY & ATMOSPHERIC SCIENCES-
自引率
16.70%
发文量
18
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