Hydrochemical characterization of groundwater quality using chemometric analysis and water quality indices in the foothills of Himalayas

Groundwater pollution of the watershed is mainly influenced by the multifaceted interactions of natural and anthropogenic process. To analyse the spatial–temporal variation and pollution source identification and apportionment, the dataset was subjected to a globally acknowledged coherent technique...

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Bibliographic Details
Published in:Environment, development and sustainability development and sustainability, 2023-12, Vol.25 (12), p.14229-14260
Main Authors: Nayak, Anjali, Matta, Gagan, Uniyal, D. P.
Format: Article
Language:English
Subjects:
Anions
Anthropogenic factors
Calcium ions
Cations
Chemometrics
Cluster analysis
Contamination
Datasets
Diagrams
Dissolution
Earth and Environmental Science
Ecology
Economic Geology
Economic Growth
Environment
Environmental Economics
Environmental Management
Evaporation
Foothills
Groundwater
Groundwater pollution
Groundwater quality
Human influences
Ion exchange
Leaching
Magnesium
Pollution
Pollution index
Pollution sources
Principal components analysis
Spatial analysis
Statistical analysis
Sulfur dioxide
Sustainable Development
Temporal variations
Water
Water analysis
Water quality
Water sampling
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Summary:Groundwater pollution of the watershed is mainly influenced by the multifaceted interactions of natural and anthropogenic process. To analyse the spatial–temporal variation and pollution source identification and apportionment, the dataset was subjected to a globally acknowledged coherent technique using water quality indices and chemometric techniques (principal component analysis (PCA) and cluster analysis. The bulk of the samples tested were below the BIS’s permissible levels. Groundwater samples from the pre- and post-monsoon seasons mostly contained the anions HCO − 3  > Cl −  > SO 2− 4  > NO − 3 , while the primary cations were Ca 2+  > Mg 2+  > Na +  > K + . Groundwater was alkaline and hard at most of the sites. According to hydro-geochemical facies and relationships, Piper diagrams, and principal component analysis, weathering, dissolution, leaching, ion exchange, and evaporation were the key mechanisms influencing groundwater quality. The hydrochemical facies classified the groundwater samples into the Ca-Mg-HCO 3 type. For all the sampling locations, PIG was determined to be 0.43, 0.52, 0.47, 0.48, 1.00, and 0.70; respectively. The majority of the test locations fell into the low to medium contamination zone, as determined by the groundwater pollution index (PIG) and contamination index. Three principal components, which together account for 93.8% of the total variance, were identified via PCA. The study’s findings confirm the value of these statistical techniques in interpreting and understanding large datasets and offering reliable information to reduce the time and expense of programmes for monitoring and evaluating water quality.
ISSN:1387-585X
1573-2975
1573-2975
DOI:10.1007/s10668-022-02661-4