Spatial distribution, sources, and integrated ecological–human health risk assessment of potentially toxic elements (PTEs) in agricultural soils of northwestern india
摘要
Potentially toxic element (PTE) contamination in agricultural soils poses serious ecological and human health concerns. This study assessed the spatial distribution, sources, and integrated risks of eight PTEs (As, Cr, Pb, Cu, Ni, Zn, Co, and Cd) in surface soils from Jammu, Udhampur, Samba, and Kathua districts (including the Bani subdivision), northwestern India. A total of 2698 soil samples were analyzed using XRF and ICP-MS. Human health risks were evaluated for adults and children using non-carcinogenic (HI) and carcinogenic (ILCR) indices following USEPA guidelines. Results show strong spatial heterogeneity, with children exhibiting higher vulnerability than adults. For children, HI values for arsenic (As) exceeded the safety threshold (HI > 1) at hotspot locations, and ILCR values for As and chromium (Cr) locally exceeded 1 × 10−4, indicating potentially unacceptable carcinogenic risk. Contamination and ecological risks assessed using the geo-accumulation index (Igeo) and potential ecological risk index (PERI) identified As as the most enriched element, particularly in the Bani region. Igeo values for As ranged from BDL to 5.2 (mean = 1.83), while PERI ranged from 7.08 to 586.32 (mean = 81.5), indicating localized high-risk hotspots. PCA suggests mixed controls, with anthropogenic inputs influencing multi-metal variability and localized geogenic factors affecting arsenic distribution. Overall, the findings highlight priority hotspot zones requiring targeted monitoring and mitigation to reduce long-term exposure and ecological stress.