Amit Kumar Sharma scite author profile

In the past two decades, freshwater bodies and their water quality have deteriorated rapidly due to several natural and anthropogenic causes, as well as rapid urbanization and industrialization. Using environmental assessment tools, eight sampling stations were used to assess the water quality of the upper Ganga and its major headstreams between January 2019 and December 2021 and to assess the impact of human-led activities on the environment and the suitability of the catchment basin to perpetuate aquatic ecological diversity. During the current study period, water quality indices such as the Water Quality Index (WQI), Nemerow Pollution Index (NPI), and the Overall index of pollution (OIP) were employed to assess water quality. Twelve physicochemical parameters were examined using appropriate techniques and then compared to international standards. A small increase was observed in some physicochemical parameters, such as pH, Turbidity, Dissolved Oxygen, and Biological Oxygen Demand, at sampling stations 7 and 8. In the upper Ganga basin, all three indices (WQI, NPI, and OIP) accurately recorded numerous natural and human events at the selected sample sites. The water quality demonstrated that aquatic species were abundant. The water quality at some sample stations was also

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Anthropogenic influence on water quality and phytoplankton diversity of upper Ganga basin: A case study of Ganga River and its major tributaries

Malik

Sharma

et al. 2021

World Water Policy

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Water quality plays a vital and key role in estimating the diversity and abundance of phytoplankton in freshwater ecosystem. The water quality of freshwater body is rapidly deteriorating by various anthropogenic activities and diverse emancipations from the population growth, urbanization, and industrialization. The aim of present research work was to estimate the anthropogenic influence on water quality and phytoplankton diversity of upper Ganga basin. The water quality and plankton diversity of a Ganga River and its major tributaries was studied between September 2018 and September 2020 in eight sampling stations. Some physico‐chemical parameters like turbidity, dissolved oxygen, and biological oxygen demand showed a slight increase in sampling stations 7 and 8. Multi‐correlation was calculated between physico‐chemical parameters and phytoplankton density. Totally 31 genera of phytoplankton were recorded and represented by five groups, Bacillariophyceae (14 genera), Chlorophyceae (11 genera) Myxophyceae (4 genera), Euglenophyceae (1 genera), and Xanthophyceae (1 genera). Dissolved oxygen showed a direct influence on the distribution of plankton and also showed a positive correlation with phytoplankton diversity. Finally, it can be concluded that human activities including River bed mining, construction of Dam, and barrages had negatively impacted the water quality and phytoplankton diversity. Still, these kinds of activities to be checked regularly and can be controlled.

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Water quality and its impact on phytoplankton diversity: A case study of tehri reservoir, Garhwal Himalayas

Sharma¹,

Kamboj²,

Sharma³

et al. 2020

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