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?:abstract
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The novel coronavirus pandemic (COVID-19) has brought countries around the world to a standstill in the early part of 2020 Several nations and territories around the world insisted their population stay indoors for practicing social distance in order to avoid infecting the disease Consequently, industrial activities, businesses, and all modes of traveling have halted On the other hand, the pollution level decreased ‘temporarily’in our living environment As fewer pollutants are supplied in to the hydrosphere, and human recreational activities are stopped completely during the lockdown period, we hypothesize that the hydrological residence time (HRT) has increased in the semi-enclosed or closed lake bodies, which can in turn increase the primary productivity To validate our hypothesis, and to understand the effect of lockdown on primary productivity in aquatic systems, we quantitatively estimated the chlorophyll-a (Chl-a) concentrations in different lake bodies using established Chl-a retrieval algorithm The Chl-a monitored using Landsat-8 and Sentinel-2 sensor in the lake bodies of Wuhan, China, showed an elevated concentration of Chl-a In contrast, no significant changes in Chl-a are observed for Vembanad Lake in India Further analysis of different geo-environments is necessary to validate the hypothesis
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