Characteristics of Remotely Sensed Urban Pollution Island (UPI) & its Linkage with Surface Urban Heat Island (SUHI) over Eastern India

IF 1.6 4区环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES

Aerosol Science and Engineering Pub Date : 2023-03-02 DOI:10.1007/s41810-023-00176-7

Archisman Barat, P. Parth Sarthi

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Abstract

The urbanisation and its detrimental impact on climate is a well-documented phenomenon in today’s world, but research documenting the Urban Pollution Island (UPI) especially over South Asia is seldom found. With the advancement of the satellite datasets, the quantification of UPI has become possible only in recent years. When measured using satellite data, the UPI is the spatial anomaly of Aerosol Optical Depth (AOD) over an urban area with reference to a nearby non-urban zone. UPI may influence energy budget, precipitation patterns and human health over the city. In the present research, it has been attempted to analyse the climatology and characteristics of UPI and its association with the Surface Urban Heat Island (SUHI) over six cities (Patna, Gaya, Ranchi, Jamshedpur, Bardhaman and Siliguri) from eastern India, which is a highly populated region and infamous for climatic concerns. Alongside, a Surface PM2.5 data is also investigated further, to find heat and pollution island links. The UPI–SUHI interactions have been evaluated and found to be very distinct for each city. It is found that high urban AOD value can be noticed irrespective of the UPI magnitude over Patna. Bardhaman has exhibited very high AOD (> 3.0) even in very low UPI conditions. Jamshedpur’s urban loadings found to be contributing somewhere to UPI formations. UPII has also shown a clear sign of a seasonal cycle across the cities. In Patna, increase in PM2.5 may be linked to SUHII in medium loading cases and very high PM2.5 loadings (> 200 μg/m³) result in low average SUHII. It may be summarised that Patna, Gaya and Bardhaman are exhibiting high surface PM2.5 loads over urban zones, whilst Ranchi, Siliguri and Jamshedpur have much cleaner urban air. The Mann–Kendall test and Pettitt’s test also detected significant increasing trend and change point in recent times for UPI intensity. The well-developed UPI system shows an exigency of more in-depth studies to mitigate the detrimental effects of UPI–SUHI in upcoming times.

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印度东部城市污染岛遥感特征及其与地表城市热岛的联系

在当今世界，城市化及其对气候的有害影响是一个有充分记录的现象，但关于城市污染岛(UPI)的研究，特别是在南亚，却很少发现。随着卫星数据集的发展，UPI的量化是近年来才成为可能的。当使用卫星数据测量时，UPI是城市地区气溶胶光学深度(AOD)相对于附近非城市地区的空间异常。UPI可能会影响城市的能量收支、降水模式和人类健康。在本研究中，本文试图分析印度东部6个城市(巴特那、加亚、兰契、贾姆谢德布尔、巴尔达曼和西里古里)的UPI的气气学和特征及其与地表城市热岛(SUHI)的关系，这是一个人口稠密的地区，因气候问题而臭名昭著。此外，Surface PM2.5数据也被进一步调查，以发现热和污染岛之间的联系。对UPI-SUHI的相互作用进行了评估，发现每个城市的相互作用非常不同。发现无论UPI大小，巴特那都可以注意到高的城市AOD值。Bardhaman即使在非常低的UPI条件下也表现出非常高的AOD (> 3.0)。贾姆谢德布尔的城市负荷被发现对UPI的形成有所贡献。UPII也显示出城市间季节性周期的明显迹象。在巴特那，PM2.5的增加可能与中等负荷情况下的SUHII有关，而非常高的PM2.5负荷(> 200 μg/m3)导致平均SUHII较低。可以总结的是，巴特那、加亚和巴德曼的城区地表PM2.5负荷较高，而兰契、西里古里和贾姆谢德布尔的城市空气要清洁得多。Mann-Kendall检验和Pettitt’s检验也发现UPI强度在近期有显著的增加趋势和变化点。完善的UPI系统表明，迫切需要进行更深入的研究，以减轻UPI - suhi在未来的时代的有害影响。

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来源期刊

Aerosol Science and Engineering Environmental Science-Pollution

CiteScore

3.00

自引率

7.10%

发文量

期刊介绍： ASE is an international journal that publishes high-quality papers, communications, and discussion that advance aerosol science and engineering. Acceptable article forms include original research papers, review articles, letters, commentaries, news and views, research highlights, editorials, correspondence, and new-direction columns. ASE emphasizes the application of aerosol technology to both environmental and technical issues, and it provides a platform not only for basic research but also for industrial interests. We encourage scientists and researchers to submit papers that will advance our knowledge of aerosols and highlight new approaches for aerosol studies and new technologies for pollution control. ASE promotes cutting-edge studies of aerosol science and state-of-art instrumentation, but it is not limited to academic topics and instead aims to bridge the gap between basic science and industrial applications. ASE accepts papers covering a broad range of aerosol-related topics, including aerosol physical and chemical properties, composition, formation, transport and deposition, numerical simulation of air pollution incidents, chemical processes in the atmosphere, aerosol control technologies and industrial applications. In addition, ASE welcomes papers involving new and advanced methods and technologies that focus on aerosol pollution, sampling and analysis, including the invention and development of instrumentation, nanoparticle formation, nano technology, indoor and outdoor air quality monitoring, air pollution control, and air pollution remediation and feasibility assessments.