Statistical assessment of spatio-temporal impact of Covid-19 lockdown on air pollution using different modelling approaches in India, 2019-2020

IF 2.3 0 GEOGRAPHY
Debjoy Thakur, Dr. Ishapathik Das
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引用次数: 0

Abstract

One of the main contributors to air pollution is particulate matter (PMxy), which causes several Covid-19 related diseases such as respiratory problems and cardiovascular disorders. Therefore, the spatial and temporal trend analysis of particulate matter and the mass concentration of all aerosol particles <= 2.5 mu m in diameter (PM2.5) have become critical to control the risk factors of co-morbidity of a patient. Lockdown plays a significant role in reducing Covid-19 cases as well as air pollution, including particulate matter concentration. This study aims to analyse the effect of the lockdown on controlling air pollution in metropolitan cities in India through various statistical modelling approaches. Most research articles in the literature assume a linear relationship between responses and covariates and take independent and identically distributed error terms in the model, which may not be appropriate for analysing such air pollution data. In this study, a pattern analysis of PM2.5 daily emissions in different main activity zones during 2019 and 2020 was performed. The seasonal effect was also taken into account when measuring the lockdown effect. The PM2.5 values at the unobserved location were predicted using three popular spatial interpolation techniques: (i) inverse distance weight (IDW), (ii) ordinary kriging (OK), and (iii) random forest regression kriging (RFK), and their root mean square error (RMSE) was compared. Subsequently, the spatio-temporal intervention of lock down on air pollution was estimated using the difference-in-difference (DID) estimator. In winter, the transport zones, namely Anand Vihar and ITO airport, were the most affected regions. The northwestern part of Delhi is the most sensitive zone in terms of air pollution. Due to the lockdown, the weekly PM2.5 emission decreased by 62.15%, the mass concentration of all aerosol particles <= 10 mu m in diameter (PM10) decreased by 53.14%, and the air quality index (AQI) improved by 22.40%. A proposal is made to adopt corrective measures to maintain the air pollution index, taking into account the spatial and temporal variability in the responses.
2019-2020年印度新冠肺炎疫情封锁对空气污染时空影响的不同建模方法统计评估
空气污染的主要原因之一是颗粒物(PMxy),它会导致多种与新冠肺炎相关的疾病,如呼吸系统问题和心血管疾病。因此,颗粒物的空间和时间趋势分析以及直径<=2.5μm的所有气溶胶颗粒(PM2.5)的质量浓度对于控制患者合并发病的风险因素至关重要。封锁在减少新冠肺炎病例以及空气污染(包括颗粒物浓度)方面发挥着重要作用。本研究旨在通过各种统计建模方法分析封锁对印度大都市空气污染控制的影响。文献中的大多数研究文章假设响应和协变量之间存在线性关系,并在模型中采用独立且同分布的误差项,这可能不适合分析此类空气污染数据。在这项研究中,对2019年和2020年不同主要活动区的PM2.5日排放量进行了模式分析。在衡量封锁效应时,还考虑了季节性影响。使用三种流行的空间插值技术预测未观测位置的PM2.5值:(i)逆距离权重(IDW)、(ii)普通克里格(OK)和(iii)随机森林回归克里格(RFK),并比较它们的均方根误差(RMSE)。随后,使用差分(DID)估计器估计了封锁对空气污染的时空干预。冬季,交通区,即Anand Vihar和ITO机场,是受影响最严重的地区。德里西北部是空气污染最敏感的地区。由于封锁,每周PM2.5排放量下降了62.15%,所有直径<=10μm的气溶胶颗粒物(PM10)的质量浓度下降了53.14%,空气质量指数(AQI)改善了22.40%。考虑到响应的空间和时间变化,建议采取纠正措施来保持空气污染指数。
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
Regional Statistics
Regional Statistics GEOGRAPHY-
CiteScore
5.30
自引率
52.20%
发文量
28
期刊介绍: The periodical welcomes studies, research and conference reports, book reviews, discussion articles reflecting on our former articles. The periodical welcomes articles from the following areas: regional statistics, regional science, social geography, regional planning, sociology, geographical information science Goals of the journal: high-level studies in the field of regional analyses, to encourage the exchange of views and discussion among researchers in the area of regional researches.
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