Litcius/Paper detail

Kriging-interpolated mapping and predictive modeling of groundwater F− and NO3− contamination with chemometric and health risk assessments in Ghana's Birimian Province

Mahamuda Abu, Johnbosco C. Egbueri, Johnson C. Agbasi

2025Environmental Geochemistry and Health33 citationsDOIOpen Access PDF

Abstract

Increasing global reports of fluoride (F − ) and nitrate (NO 3 − ) contamination in groundwater highlight the urgency of identifying pollution hotspots to safeguard public health. This study investigates groundwater quality in two agricultural regions of Ghana’s Birimian province, filling a vital research gap. This study utilized a diverse set of tools, including physicochemical analyses, violin plot visualizations, the Pollution Index of Groundwater (PIG), the Water Pollution Index (WPI), health risk assessments, Pearson’s correlation analysis, and artificial neural network modeling. These approaches evaluated the key factors affecting groundwater quality, identified contamination sources and hotspots, and assessed associated human health risks. Results revealed predominantly alkaline groundwater (pH 7–9), with F − ranging from 0.0 to 1.5 mg/L and NO 3 − exceeding 500 mg/L in some areas. The PIG and WPI rated 81.94–94.44% of samples suitable for consumption, with mean scores of 0.54 and 0.51, respectively, highlighting NO 3 − , pH, and K + as primary quality influencers. Violin plots showed multimodal distributions in TDS, NO 3 − , Ca 2+ , and Mg 2+ , suggesting complex hydrogeochemical dynamics. Health risk assessments indicated oral exposure risks ranging from low to very high, with NO 3 − posing a sixfold greater threat than F − . Spatial analysis tied F − contamination in central and southern areas to geological formations, while higher NO 3 − in the northern part aligned with agricultural activities. Correlation analysis and neural network modeling confirmed the geogenic origin of F − whereas the mixed sources of NO 3 − strongly tied to anthropogenic inputs. These insights urge targeted remediation and offer a scalable framework for global groundwater challenges.

Topics & Concepts

KrigingGroundwaterEnvironmental scienceContaminationWater resource managementGroundwater contaminationHealth riskEnvironmental healthHydrology (agriculture)GeographyStatisticsMathematicsGeologyMedicineAquiferEcologyGeotechnical engineeringBiologyGroundwater and Isotope GeochemistryWater Quality and Pollution Assessment
Kriging-interpolated mapping and predictive modeling of groundwater F− and NO3− contamination with chemometric and health risk assessments in Ghana's Birimian Province | Litcius