Nearly 85 percent of the Indian population consumes groundwater and this groundwater can get polluted because of a number of contaminants - with fluoride being an important one.
Fluoride contamination of groundwater can occur due to geogenic causes as well as a range of anthropogenic factors such as industrial and agricultural activities and use of phosphate fertilisers that contaminate ground water sources. Geogenic contamination includes the leaching and dissolution of fluoride-bearing minerals depending on ion exchange, rock-water interaction, weathering processes, evaporation, precipitation of calcite, and type of rock present.
Although fluoride is necessary for the growth and strength of bones and teeth, its high concentrations are linked with serious health hazards. Exposure to high levels of fluoride in drinking water can lead to arthritis, infertility, hypertension, neurotoxicological effects, skeletal cancer, damage to the tissues such as testis, liver, kidneys, and lungs, skeletal fluorosis, and hard tissue deformities.
Around 120 million people in India are at the risk of fluorosis due to groundwater consumption and the northwestern states of Rajasthan, Gujarat, Punjab, Haryana, Delhi and southern states of Andhra Pradesh, Telangana, Karnataka, and Tamil Nadu have groundwater fluoride concentrations to be many folds higher than the maximum permissible limit (>1.5 mg/L).
A paper titled 'Fluoride contamination in drinking water and associated health risk assessment in the Malwa Belt of Punjab, India' authored by Vikas Duggal and Samriti Sharma published in the journal Environmental Advances informs that decline in groundwater quality is of significant concern in Punjab and what is worrying is that residents use groundwater for drinking and other domestic purposes without prior treatment.
While few studies have investigated the fluoride concentrations in groundwater of the Jalandhar, Bathinda, and Ropar districts of Punjab, no studies exists that evaluate the health risks posed by high levels of fluoride in groundwater in the Malwa Belt of Punjab. The paper discusses the findings of a study that aims at:
Seven districts namely Bathinda, Mansa, Faridkot, Barnala, Moga, Muktsar and Fazilka of the Malwa Belt were selected for the present study, which form a part of the Indo Gangetic alluvial plain and is made up of sand, gravel, pebbles, kankar, and clay. The soil type in the region is calcareous and the soil in the region shows high alkalinity and salinity. The area also includes sand dunes that spread over about 10 to 15 percent of Malwa and cover parts of the Faridkot, Muktsar, Bathinda, Mansa, and Fazilka districts forming a thin layer over the alluvium.
The climate of the region is subtropical steppe, semi-arid, and hot and the region has four seasons, i. e. the monsoon season (Jul-Sept), post-monsoon (Sept-Nov), winter (Nov-Mar), and summer (Apr-June). Groundwater occurs in the deeper aquifers in semi-confined to confined conditions and also in unconfined form in the shallow aquifers.
Agriculture is the main occupation of Punjab State and consumption of phosphate fertilisers in the region is ten times higher than the national average. Major industries in the Malwa Belt of Punjab include chemical factories, cement factories, Guru Gobind Singh Refinery, national fertilizer limited, textiles, basic metal, and metal products, electronic industry, and thermal power plants. Samples were taken from electric motors, tube wells, and hand pumps in the region.
Another study published in the paper titled 'High levels of fluoride in groundwater from Northern parts of Indo-Gangetic plains reveals detrimental fluorosis health risks' authored by Nizam, S., Virk H.S, Sen, I.S. published in the journal Environmental Advances assesses the concentration and spatial distribution of fluoride and its associated risks among populations from Patiala district in Punjab.
Patiala district is among the worst affected fluoride endemic region that documents 65 percent of the total fluorosis cases of Punjab due to groundwater fluoride intake. Samples for the study were collected from shallow and deep aquifers from different localities in the Patiala district of Punjab, India.
The situation requires urgent attention from policymakers and government agencies, proper water management and cost effective fluoride remedial measures and exploration of alternative sources of drinking water such as surface water, municipal reverse osmosis water, and bottled water to meet the immediate needs of the population and prevent health risks among the people, argue the papers.