IIT Mandi Study Warns Of Cancer-Causing Toxic Metals In Himachal Pradesh's Baddi-Barotiwala Groundwater
Researchers from the Indian Institute of Technology (IIT) Mandi and IIT Jammu have analysed the distribution of cancer-causing pollutants in the groundwater of Himachal Pradesh’s Baddi-Barotiwala (BB) industrial area.
In India, groundwater is heavily used for agriculture and domestic consumption. However, rapid urbanisation, industrialization, and population growth have led to increased groundwater use and severely impacted its quality. Northern India has faced severe water quality issues. Similar issues can be found in Himachal Pradesh’s BB industrial area, where industrialization has contaminated groundwater with toxic metals, exceeding permissible limits. The reliance on untreated groundwater has caused numerous health problems, including significant reports of cancer and renal disease between 2013 and 2018.
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Dr. Deepak Swami, Associate Professor, School of Civil & Environmental Engineering, IIT Mandi, along with his research scholar Mr. Utsav Rajput, in collaboration with Dr. Nitin Joshi, Assistant Professor, Dept. of Civil Engineering, IIT Jammu, have published a research paper in the prestigious journal Science of the Total Environment that investigates the chemical hydrology of groundwater in the region, identifying dominant ion sources and measuring the geospatial variation of toxic metal concentrations.
How The Team Examined The Potential Contamination Sources
By determining potential contamination sources, the study evaluated non-carcinogenic and carcinogenic health risks from oral intake of contaminated groundwater using the United States Environmental Protection Agency’s (USEPA) human health risk assessment model for both adults and children. The researchers identified key metals of concern and prepared geospatial maps showing metal contamination and health risks across village boundaries.
Speaking about the research, Dr. Swami said, “Groundwater poses high health risks through oral intake, necessitating urgent remediation. Monitoring industrial effluents for zinc, lead, nickel, and chromium is essential to preventing health hazards. Policies must be framed to balance industrial development with public health for sustainable growth.”
The study also found that the region’s groundwater is rock-dominated, mainly of the calcium carbonate type. Uniform uranium levels were detected in all samples, with most metals traced to industrial sources, while uranium and molybdenum were naturally occurring. The human health risk assessment revealed high non-carcinogenic risks for both adults and children, primarily due to natural uranium, with additional risks from industrial sources of zinc, lead, cobalt, and barium. Carcinogenic risks were high for adults, mainly from industrial nickel and chromium.
About the research, Dr. Joshi said, “Our research group conducted a field study to map the pollution status in the industrial region of Baddi-Barotwala. The objective was to analyse the chemical composition of the groundwater, which is considered readily potable by the nearby communities. The analysis revealed that, if left unattended, the lower Himalayan region is on a similar trajectory to southwestern Punjab.”
Geospatial maps were created to show metal contamination and health risks, helping residents understand the situation and identify pollution sources. These maps can guide future policies and remediation efforts.
Considering that over 80% of health issues in developing countries are linked to waterborne diseases, resulting in 1.5 million deaths annually from poor water quality and hygiene, the importance of this study cannot be overstated.
