Abstract
Anthropogenic factors are contaminating crystalline aquifers more rapidly than natural sources and affecting human health in many states in India. Since a large population depends on untreated groundwater, identifying the sources of this contamination and assessing the related human health risk are essential to ensure a good-quality water supply. Nitrate is one of the most widespread means of groundwater contamination in many parts of India. Coimbatore and Tirupur districts are the most rapidly growing industrial urban areas in southern India. This paper deals with nitrate contamination and possible health risks for children and adults in the Coimbatore and Tirupur districts based on 93 groundwater samples. To achieve this goal, classical hydrochemical and deterministic hazard identification methods coupled with spatial mapping technologies were applied. A wide variation in nitrate concentration, between 1 and 415 mg/L, was observed, with 37% of the samples exceeding the WHO permissible limit of 50 mg/L. The distinct concentrations of nitrate and other ions observed spatially can be attributed to the diverse geochemical and land use settings in the study area. The bivariate plots of NO3 with other ions suggested that the principal origin of nitrate in this study is related to the excess application of fertilizers and sewages. The spatial variation of NO3, in comparison with the land use map, confirmed these results. The values of hazard quotient (HQ) via ingestion exceeded the critical value, one in 40% in males, 42% in females, and 45% in children. However, HQ values via oral pathways are within one and pose no exposure risk. Thus, the hazard index corresponds to HQingestion only. The health risk was in the increasing order of male>female>children, and shows that body weight is the most critical factor that is influencing the health impact to children as compared to adults. The spatial variation of hazard index values showed that groundwater quality is highly polluted with NO3 in the north and northeastern parts of the study area, mainly due to intensive agricultural practices, and poses critical health concerns. Considering the increasing population and higher dependencies on groundwater, immediate and sufficient measures are proposed.
Highlights
Groundwater is a vital source of water which supports human health, agriculture, and industrial development and plays a critical role in the sustainability and functioning of ecosystems due to a lack of clean surface water (Ali and Ali 2018; Steube et al 2009)
Electrical conductivity (EC) indicates the total amount of dissolved salts in the water; in physical terms, it is the capacity of water to convey electric current
Groundwater quality as related to nitrate contamination has been studied in the Coimbatore and Tirupur districts using classical methods such as bivariate plots and Durov diagrams
Summary
Groundwater is a vital source of water which supports human health, agriculture, and industrial development and plays a critical role in the sustainability and functioning of ecosystems due to a lack of clean surface water (Ali and Ali 2018; Steube et al 2009). The industrial revolution and the rise in anthropogenic activities over the past decades have increased the need for groundwater more than ever before (Kaviarasan et al 2016). The uncontrolled growth in population provokes a rapid increase in socioeconomic activities, which may emit contaminants into the environment, posing a threat to groundwater quality. Environ Sci Pollut Res (2021) 28:10248–10261 industries, chemical dumping, and domestic sewage are considered to be the primary sources of groundwater pollutants and waterborne diseases (Nalbantcilar and Pinarkara 2016). Of all the groundwater pollutants, NO−3 (nitrate) has emerged as one of the most dangerous and widespread contaminants of groundwater in arid and semi-arid regions (Adimalla 2019; Chen et al 2016; Chica-Olmo et al 2016; Li et al 2019)
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