Geospatial Assessment of Groundwater Quality Using Entropy-Based Groundwater Quality Index and Chemometric Analysis in Mandi City, Lesser Himalayas
摘要
Groundwater is a critical resource that supports human health, agricultural productivity, maintaining ecosystems and economic development, particularly in fragile mountainous regions like the lesser Himalayas. This study integrates an Entropy-based Water Quality Index (EWQI) with Geographic Information Systems (GIS) and chemometric analysis to comprehensively appraise groundwater quality in rapidly urbanizing Mandi City, Himachal Pradesh, situated in the Lesser Himalayas. Forty groundwater samples were systematically analysed to assess key physicochemical properties. The physicochemical analysis showed the cations concentration declined in the sequence Mg2+ > Ca2+ > Na+ > K+, while the major anions were distributed as Cl– >