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Green Space Cooling to Mitigate the Surface Urban Heat Island Effect in India's Metropolises

Rupesh Kumar Gupta *

1 Department of Continuing Education and Extension, Faculty of Social Sciences, University of Delhi, Delhi India

Corresponding author Email: gisrs2004@gmail.com

DOI: http://dx.doi.org/10.12944/CWE.19.2.13

Difference Vegetation Index (NDVI) to study vegetation's spatial distribution. However, MODIS thermal bands were employed to analyse Land Surface Temperature (LST) and city thermal properties. The findings show that 15.97% of Lucknow's total area is classified as a High potential SUHI zone, compared to 29.41%, classified as a Low potential SUHI zone. Jaipur has two possible SUHI zones: a high potential zone (12.69%) and a low potential zone (30.45%). In contrast, Ahmedabad exhibits an 18.37 per cent High potential SUHI Zone and a 27.62 per cent low potential SUHI Zone. Delhi exhibits a 14.98 per cent High potential SUHI Zone but is significantly higher at 39.97 per cent Low potential SUHI Zone. Analysis of LST distribution reveals correlations with vegetation cover, with areas abundant in greenery experiencing lower temperatures. This study emphasizes how crucial green infrastructure is to urban planning to improve thermal comfort in fast-urbanizing areas and reduce the negative consequences of urban heat islands.

Cooling; GIS; NDVI; SUHI; Urban Greenspace (UGS)

Copy the following to cite this article:

Gupta R. K. Green Space Cooling to Mitigate the Surface Urban Heat Island Effect in India's Metropolises. Curr World Environ 2024;19(2). DOI:http://dx.doi.org/10.12944/CWE.19.2.13

Copy the following to cite this URL:

Gupta R. K. Green Space Cooling to Mitigate the Surface Urban Heat Island Effect in India's Metropolises. Curr World Environ 2024;19(2).

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