Groundwater quality monitoring for assessment of pollution levels and potability using WPI and WQI methods from a part of Guntur district, Andhra Pradesh, India

Groundwater quality monitoring for assessment of pollution levels and potability using WPI and WQI methods from a part of Guntur district, Andhra Pradesh, India

Assessment of pollutants and groundwater quality has attracted much attention worldwide as it is directly linked to human health. In view of this, groundwater samples were collected from a part of Guntur district, Andhra Pradesh, India, to assess groundwater pollution levels and groundwater quality,...

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Bibliographic Details
Published in:Environment, development and sustainability Vol. 25; no. 12; pp. 14785 - 14815
Main Authors: Ravindra, B., Subba Rao, N., Dhanamjaya Rao, E. N.
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-12-2023
Springer Nature B.V
Subjects:
Agrochemicals
Anthropogenic factors
Calcium
Calcium carbonate
Calcium ions
Carbon dioxide
Chemical composition
Cluster analysis
Concretions
Contamination
Desalination
Dissolution
Drinking water
Earth and Environmental Science
Ecology
Economic Geology
Economic Growth
Environment
Environmental assessment
Environmental Economics
Environmental Management
Evaporation
Feldspars
Food contamination
Groundwater
Groundwater chemistry
Groundwater pollution
Healthy food
Human influences
Ion exchange
Magnesium
Plagioclase
Pollution
Pollution index
Pollution levels
Prevention programs
Quality assessment
Rain water
Return flow
Saline water
Septic tanks
Sewage disposal
Sewage sludge
Sodium
Soil contamination
Sustainable Development
Threshold limits
Water analysis
Water harvesting
Water pollution
Water quality
Water sampling
Water supply
India
Cluster analysis
Groundwater
Water pollution index
Water quality index
Anthropogenic sources
Potability
Brackish water
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Summary:Assessment of pollutants and groundwater quality has attracted much attention worldwide as it is directly linked to human health. In view of this, groundwater samples were collected from a part of Guntur district, Andhra Pradesh, India, to assess groundwater pollution levels and groundwater quality, using Water Pollution Index (WPI) and Water Quality Index (WQI), respectively. Groundwater chemical composition results indicated that groundwater quality was characterized by alkaline and very hard categories with Na +  > Mg 2+  > Ca 2+  > K + : HCO 3 -  > Cl -  > SO 4 2 -  > NO 3 -  > F - facies. TDS, TH, Ca 2+ , Mg 2+ , Na + , K + , HCO 3 - , Cl - , NO 3 - , and F - were above the recommended threshold limits in 100%, 100%, 35%, 100%, 100%, 100%, 100%, 95%, 85%, and 75% of groundwater samples, respectively, for drinking purposes. The geochemical diagram showed base exchange water type (Na + –HCO 3 - ) in 50% of groundwater samples resulting from weathering and dissolution of plagioclase feldspars under the influence of soil CO 2 and ion exchange process. The remaining groundwater samples showed saline water type (Na + –Cl - ) due to the influence of evaporation, sewage sludge, septic tank leaks, irrigation-return flows, agrochemicals, etc. Ionic relationships of Ca 2+ /Na + vs HCO 3 - /Na + , Ca 2+ /Na + vs Mg 2+ /Na + , higher Na + than Ca 2+ , and occurrence of CaCO 3 concretions further supported geogenic processes that alter groundwater chemistry. The positive linear trend of TDS vs Cl -  + NO 3 - /HCO 3 - and the relationship of TDS with TH showed anthropogenic input as the main factor, causing groundwater contamination. The WPI indicated two categories of water quality: moderately polluted water (WPI: 0.75–1.00) and highly polluted water (WPI: > 1.00) in 60% and 40% of groundwater samples, which were 81.49% and 18.51% of the study area, respectively. Hierarchical cluster analysis identified three clusters: Cluster I (pH, F - , Ca 2+ , K + , NO 3 - , Na + , and SO 4 2− ), Cluster II (TH, Mg 2+ , Cl - , and HCO 3 - ), and Cluster III (TDS) support WPI. Following WQI, 75% and 25% of groundwater samples fell under poor groundwater quality type (WQI: 100–200) and very poor groundwater quality type (> 200), respectively, especially due to the increased concentrations of Mg 2+ , Na + , K + , HCO 3 2− , Cl - , NO 3 - , and F - ions, thereby increasing salinity (TDS) and hardness (TH) in groundwater. Spatially, they covered 85.84% and 14.06% of the study area. The quality of this groundwater is not suitable for drinking purposes. Therefore, the present study suggests preventive measures (safe drinking water supply, desalinization, defluoridation, denitrification, calcium food, and rainwater harvesting) to protect human health.
ISSN:1387-585X
1573-2975
DOI:10.1007/s10668-022-02689-6