Distribution and Geochemical Controls of Arsenic and Uranium in Groundwater-Derived Drinking Water in Bihar, India

Richards, Laura A.; Kumar, Arun; Shankar, Prabhat; Gaurav, Aman; Ghosh, Ashok; Polya, David A.

doi:10.3390/ijerph17072500

Cited by 46 publications

(19 citation statements)

References 136 publications

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“…However, the prevailing oxic and alkaline conditions and carbonate complexation with U (VI) in the lower catchment zone can facilitate U mobilisation (Barnett et al, 2002;, and results in significantly higher U concentrations in the lower catchment compared to the other two catchment zones. These concentrations are comparable with concentrations found by Richards et al (2020), but are not as high as those detected by Lapworth et al (2017) and Coyte et al (2019) in north-west India, but aquifer redox conditions are comparable and concentrations are approaching the WHO guideline value of 30 g/L.…”

Section: Groundwater Quality Constraints and Controlssupporting

confidence: 76%

“…These exceedances were only found in the upper and mid catchment, and are linked to reducing conditions in the shallow aquifer, which facilitate the reductive dissolution of iron oxyhydroxides and the release of bound arsenic (e.g. Nickson et al, 2000;BGS/DHPE 2001;Richards et al, 2020). Shallow DOC concentrations were comparable for all three catchment zones (range 0.5-2.5 mg/L), but lower concentrations (c.0.5 mg/L) are found at depth in the Pleistocene deposits across the catchment.…”

Section: Groundwater Quality Constraints and Controlsmentioning

confidence: 99%

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Characterising groundwater-surface water connectivity in the lower Gandak catchment, a barrage regulated biodiversity hotspot in the mid-Gangetic basin

Lapworth

Dochartaigh

Nair

et al. 2021

Journal of Hydrology

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Section: Groundwater Quality Constraints and Controlssupporting

confidence: 76%

Section: Groundwater Quality Constraints and Controlsmentioning

confidence: 99%

Characterising groundwater-surface water connectivity in the lower Gandak catchment, a barrage regulated biodiversity hotspot in the mid-Gangetic basin

Lapworth

Dochartaigh

Nair

et al. 2021

Journal of Hydrology

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“…It has been reported that the U content is high in metamorphic rocks of granite origin, acidic igneous rocks, shale, and carbonate minerals [10]. The high U concentration is associated with HCO 3 − , NO 3 − , and oxic conditions rather than acidic or anoxic conditions [11]. The major species under oxidation conditions in groundwater is U(VI) in the UO 2 2+ form, which makes neutral complexes with high mobility.…”

Section: Introductionmentioning

confidence: 99%

“…U(IV) and U(V) predominate in anaerobic conditions. U(IV) has a strong precipitation trend similar to uraninite, but the U(V) species form soluble complexes [7][8][9][10][11].…”

Section: Introductionmentioning

confidence: 99%

Hydrochemical characteristics and distribution of uranium in groundwater of the Geum River Basin, South Korea

Choi

Koh

Yoon

2022

Preprint

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In the Geum River basin in Korea, local groundwater contamination has been occurring due to the complex influence of urbanization and agricultural activities. For proper utilization as a water resource, this study identified major influencing factors of groundwater hydrochemistry in the bedrock aquifer by statistical analysis and regional uranium (U) distribution as a redox-sensitive contaminant. The H-3 concentration of the groundwater was high in the plains and low in the mountain areas; thus, it was deemed to be affected by the residence time of groundwater after precipitation recharge. The hydrochemical properties and factor loading values of the principal components indicated that the major factors were water‒rock interactions and residence time, but a positive correlation of K-NO3 and Mg-Cl showed the influence of agricultural activities. Cl− increased as it moved downstream, while NO2− was found to decrease from upstream to midstream, and NO3− showed no regularity. Thus, the main groundwater pollutants upstream and downstream in the Geum River basin were likely to be contributed by agricultural activities and seawater infiltration, respectively. The U in groundwater existed in the UO2(CO3)22− (namely, uranyl ion), and the highest concentration was observed at neutral pH. It had a positive correlation with HCO3, pH, and Ca and a weak negative correlation with NO3.

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“…[10][11][12][13] In the recent times, due to geogenic cause, the arsenic poisoning in ground water has increased many folds in the state of Bihar in endemic proportions. [14][15][16][17][18] This has increased the disease burden in the arsenic exposed population of Bihar. Arsenic poisoning leading to cancer has been studied globally, and a relationship between arsenic and cancer has been established.…”

Section: Introductionmentioning

confidence: 99%

Arsenic Induced Breast Cancer Risk in Population of Bihar, India

Kumar¹,

Ali²,

Niraj³

et al. 2021

Preprint

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Globally, ~ 300 million people are exposed to arsenic poisoning while in India an estimated 70 million people are affected by consumption of arsenic contaminated water. The state of Bihar is an endemic belt for arsenic contamination in groundwater affecting over 10 million people with moderate to serious health manifestations. Life threatening disease like cancer is not uncommon now, and carcinoma type of cancer cases are on the rise. Breast cancer incidences in the state follows closely with more and more women getting affected. Approximately, 23% of the cancer types in women are related to breast cancer, diagnosed at a fairly advanced stage (III or IV) of the disease. The etiology of the disease is not clearly known though faulty lifestyle and genetic makeup cannot be ruled out. The present study attempts to derive a relation between increasing breast cancer cases with the sustained arsenic intake in the second most populated state of the country. Pathologically confirmed, female breast cancer patients (n = 55) from across the state were included in the study. Sampling of the breast tissue, blood, hair and toe nail was carried out by the surgical oncology department of the institute. As a part of cross-sectional study, (n = 12) female breast benign cases were taken as the control group and their biological samples were also collected. All the samples as per the protocol of NIOSH were digested and analysed by graphite furnace atomic absorption spectrophotometer. For the epidemiological parameter study, their age, type of malignancy, stage and demographic information was compiled. The results were correlated with the arsenic concentration in groundwater as per their endemic status and anomalous values on GIS platform. The role of geological studies to establish the morpho-stratigraphic control and aquifers with higher concentration was brought to use. The results are fairly indicative of the high correlation of anomalous concentration of arsenic with the sample population with diagnosed malignancy as compared to the control group. The maximum arsenic concentration observed in the biological samples in blood was 1856µg/L, in breast tissue 446.4µg/Kg, in hair 1296·9µg/Kg and in toenail 621·83µg/Kg respectively. The scattered plots correlate the relationship between age of the breast cancer patients with arsenic contamination, while the geospatial distribution positively correlates with the districts with increased arsenic endemicity in a predominantly alluvium dominated country. The high arsenic contamination in the biological samples of the breast cancer patients is an indicative marker to the possible relation of the disease to arsenic, as compared to the control population exposed to a much lesser toxicity. Consumption of water with more than 10 ppb arsenic contamination over a sustained longer time span has possibly exposed the population to a larger threat to disease as inferred from the findings. The disease breeding as a silent killer with reduced or unnoticeable symptoms upto a fairly advanced stage has further accentuated the problem. The present study thus endeavours to identify a significant relation of the disease with sustained intake of arsenic consumed through water and food products laden with anomalous concentration.

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Distribution and Geochemical Controls of Arsenic and Uranium in Groundwater-Derived Drinking Water in Bihar, India

Cited by 46 publications

References 136 publications

Characterising groundwater-surface water connectivity in the lower Gandak catchment, a barrage regulated biodiversity hotspot in the mid-Gangetic basin

Characterising groundwater-surface water connectivity in the lower Gandak catchment, a barrage regulated biodiversity hotspot in the mid-Gangetic basin

Hydrochemical characteristics and distribution of uranium in groundwater of the Geum River Basin, South Korea

Arsenic Induced Breast Cancer Risk in Population of Bihar, India

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