Hydrochemical characteristics and human health risk assessment of groundwater in the Shivalik region of Sutlej basin, Punjab, India

[1]  Peiyue Li,et al.  Sources and Consequences of Groundwater Contamination , 2021, Archives of Environmental Contamination and Toxicology.

[2]  Peiyue Li,et al.  A MATLAB based graphical user interface (GUI) for quickly producing widely used hydrogeochemical diagrams , 2020 .

[3]  N. Mondal,et al.  Arsenic enrichment and its natural background in groundwater at the proximity of active floodplains of Ganga River, northern India. , 2020, Chemosphere.

[4]  A. Chaudhry,et al.  Groundwater quality and non-carcinogenic health risk assessment of nitrate in the semi-arid region of Punjab, India. , 2020, Journal of water and health.

[5]  M. Santosh,et al.  Arsenic contamination of groundwater: A global synopsis with focus on the Indian Peninsula , 2020, Geoscience Frontiers.

[6]  J. Bedi,et al.  Occurrence and spatial distribution of metals and arsenic in groundwater sources of Punjab (India), and their health risk assessment , 2020 .

[7]  P. Sahoo,et al.  Geochemical assessment of groundwater contaminants and associated health risks in the Shivalik region of Punjab, India , 2020, Toxin Reviews.

[8]  Madhuri S. Rishi,et al.  Distribution and correlation of radon and uranium and associated hydrogeochemical processes in alluvial aquifers of northwest India , 2020, Environmental Science and Pollution Research.

[9]  Peiyue Li,et al.  Statistical and multivariate statistical techniques to trace the sources and affecting factors of groundwater pollution in a rapidly growing city on the Chinese Loess Plateau , 2020, Human and Ecological Risk Assessment: An International Journal.

[10]  R. Kansoh,et al.  Computing the Water Budget Components for Lakes by Using Meteorological Data , 2020 .

[11]  P. Sahoo,et al.  Quantification of groundwater–agricultural soil quality and associated health risks in the agri-intensive Sutlej River Basin of Punjab, India , 2020, Environmental Geochemistry and Health.

[12]  Daniel C W Tsang,et al.  Metal contamination and bioremediation of agricultural soils for food safety and sustainability , 2020, Nature Reviews Earth & Environment.

[13]  Jianhua Wu,et al.  Seasonal Variation of Drinking Water Quality and Human Health Risk Assessment in Hancheng City of Guanzhong Plain, China , 2020, Exposure and Health.

[14]  Shilpa Sharma,et al.  Geochemical relationship and translocation mechanism of arsenic in rice plants: A case study from health prone south west Punjab, India , 2020 .

[15]  Ki‐Hyun Kim,et al.  Occurrence of contaminants in drinking water sources and the potential of biochar for water quality improvement: A review , 2020, Critical Reviews in Environmental Science and Technology.

[16]  Peiyue Li,et al.  Poor groundwater quality and high potential health risks in the Datong Basin, northern China: research from published data , 2020, Environmental Geochemistry and Health.

[17]  E. Carol,et al.  Geogenic arsenic contamination of wet-meadows associated with a geothermal system in an arid region and its relevance for drinking water. , 2020, The Science of the total environment.

[18]  Peiyue Li,et al.  Solute geochemistry and groundwater quality for drinking and irrigation purposes: a case study in Xinle City, North China , 2020 .

[19]  P. Sahoo,et al.  Source apportionment, chemometric pattern recognition and health risk assessment of groundwater from southwestern Punjab, India , 2020, Environmental Geochemistry and Health.

[20]  Jianhua Wu,et al.  Groundwater chemistry and groundwater quality index incorporating health risk weighting in Dingbian County, Ordos basin of northwest China , 2020 .

[21]  Kalla Mahdi,et al.  Hydrochemical Characterisation of Groundwater Quality: Merdja Plain (Tebessa Town, Algeria) , 2020 .

[22]  G. Anornu,et al.  Nitrate contamination of groundwater in the Lower Volta River Basin of Ghana: Sources and related human health risks. , 2020, Ecotoxicology and environmental safety.

[23]  H. Elzain,et al.  Processes and characteristics of hydrogeochemical variations between unconfined and confined aquifer systems: a case study of the Nakdong River Basin in Busan City, Korea , 2020, Environmental Science and Pollution Research.

[24]  L. Fernandes,et al.  A new radon prediction approach for an assessment of radiological potential in drinking water. , 2020, The Science of the total environment.

[25]  P. Sahoo,et al.  Ground/drinking water contaminants and cancer incidence: A case study of rural areas of South West Punjab, India , 2019 .

[26]  P. K. Patra,et al.  Contamination zoning and health risk assessment of trace elements in groundwater through geostatistical modelling. , 2019, Ecotoxicology and environmental safety.

[27]  A. Vengosh,et al.  Co-occurrence of geogenic and anthropogenic contaminants in groundwater from Rajasthan, India. , 2019, The Science of the total environment.

[28]  S. Agodzo,et al.  Quality and health risk assessment of shallow groundwater aquifers within the Atankwidi basin of Ghana , 2019, Groundwater for Sustainable Development.

[29]  R. Angélica,et al.  High resolution hydrogeochemical survey and estimation of baseline concentrations of trace elements in surface water of the Itacaiúnas River Basin, southeastern Amazonia: Implication for environmental studies , 2019, Journal of Geochemical Exploration.

[30]  M. Bali,et al.  Evaluation of groundwater quality and its suitability for drinking and agricultural use in district Kangra of Himachal Pradesh, India , 2019, Journal of the Saudi Society of Agricultural Sciences.

[31]  Jianhua Wu,et al.  Comprehensive understanding of groundwater quality for domestic and agricultural purposes in terms of health risks in a coal mine area of the Ordos basin, north of the Chinese Loess Plateau , 2019, Environmental Earth Sciences.

[32]  A. A. Siyal,et al.  Analysis of Indus Delta Groundwater and Surface water Suitability for Domestic and Irrigation Purposes , 2019, Civil Engineering Journal.

[33]  Jianhua Wu,et al.  Finding High-Quality Groundwater Resources to Reduce the Hydatidosis Incidence in the Shiqu County of Sichuan Province, China: Analysis, Assessment, and Management , 2019, Exposure and Health.

[34]  Peiyue Li,et al.  Solute Geochemistry and Multivariate Analysis of Water Quality in the Guohua Phosphorite Mine, Guizhou Province, China , 2019, Exposure and Health.

[35]  Peiyue Li,et al.  Occurrence and Health Implication of Fluoride in Groundwater of Loess Aquifer in the Chinese Loess Plateau: A Case Study of Tongchuan, Northwest China , 2019, Exposure and Health.

[36]  L. S. Sanches Fernandes,et al.  An Assessment of Groundwater Contamination Risk with Radon Based on Clustering and Structural Models , 2019, Water.

[37]  F. Pacheco,et al.  A New Framework for the Management and Radiological Protection of Groundwater Resources: The Implementation of a Portuguese Action Plan for Radon in Drinking Water and Impacts on Human Health , 2019, Water.

[38]  A. Nagpal,et al.  Appraisal of heavy metal contents in groundwater and associated health hazards posed to human population of Ropar wetland, Punjab, India and its environs. , 2019, Chemosphere.

[39]  L. S. Sanches Fernandes,et al.  An approach to validate groundwater contamination risk in rural mountainous catchments: the role of lateral groundwater flows , 2018, MethodsX.

[40]  L. S. Sanches Fernandes,et al.  Modification to the DRASTIC framework to assess groundwater contaminant risk in rural mountainous catchments , 2018, Journal of Hydrology.

[41]  Waqar Ali,et al.  A review of global outlook on fluoride contamination in groundwater with prominence on the Pakistan current situation , 2018, Environmental Geochemistry and Health.

[42]  A. Nagpal,et al.  Heavy metal contamination in soil, food crops and associated health risks for residents of Ropar wetland, Punjab, India and its environs. , 2018, Food chemistry.

[43]  S. Suthar,et al.  Groundwater nitrate contamination and associated human health risk assessment in southern districts of Punjab, India , 2018, Environmental Science and Pollution Research.

[44]  Peiyue Li,et al.  Geochemistry, Hydraulic Connectivity and Quality Appraisal of Multilayered Groundwater in the Hongdunzi Coal Mine, Northwest China , 2018, Mine Water and the Environment.

[45]  S. Suthar,et al.  Assessment of Human Health Risk Associated with High Groundwater Fluoride Intake in Southern Districts of Punjab, India , 2017, Exposure and Health.

[46]  A. MacDonald,et al.  Groundwater quality in the alluvial aquifer system of northwest India: New evidence of the extent of anthropogenic and geogenic contamination. , 2017, The Science of the total environment.

[47]  K. Brindha,et al.  Human exposure risk to heavy metals through groundwater used for drinking in an intensively irrigated river delta , 2017, Applied Water Science.

[48]  R. Bhardwaj,et al.  Assessment of groundwater quality for drinking and irrigation purposes using hydrochemical studies in Malwa region, southwestern part of Punjab, India , 2017, Applied Water Science.

[49]  A. Nagpal,et al.  Assessment of arsenic content in soil, rice grains and groundwater and associated health risks in human population from Ropar wetland, India, and its vicinity , 2017, Environmental Science and Pollution Research.

[50]  N. Rao,et al.  Geochemical evolution of groundwater in the Western Delta region of River Godavari, Andhra Pradesh, India , 2017 .

[51]  D. R. Khanna,et al.  Geochemical distribution and environmental risk assessment of heavy metals in groundwater of an industrial area and its surroundings, Haridwar, India , 2016, Energy, Ecology and Environment.

[52]  A. Chauhan,et al.  Physico-chemical Analysis of Surface and Ground Water in Selected Sites of Dehradun, Uttarakhand, India , 2017 .

[53]  S. Sahoo,et al.  Uranium and other heavy toxic elements distribution in the drinking water samples of SW-Punjab, India , 2017 .

[54]  Tahir Husain,et al.  Heavy metals in drinking water: Occurrences, implications, and future needs in developing countries. , 2016, The Science of the total environment.

[55]  N. Sharma,et al.  Radiological and Chemical Risk Assessment due to High Uranium Contents Observed in the Ground Waters of Mansa District (Malwa Region) of Punjab State, India: An Area of High Cancer Incidence , 2016, Exposure and Health.

[56]  Prerna Sharma,et al.  Elucidating hydrochemical properties of groundwater for drinking and agriculture in parts of Punjab, India , 2016, Environmental Earth Sciences.

[57]  S. K. Dhillon,et al.  Selenium in groundwater and its contribution towards daily dietary Se intake under different hydrogeological zones of Punjab, India , 2016 .

[58]  P. Mishra,et al.  Revisit of Shivalik region in different states of northwestern India , 2015, Journal of the Geological Society of India.

[59]  B. K. Shrivastava Elevated Uranium and Toxic Elements Concentration in Groundwater in Punjab State of India: Extent of the Problem and Risk Due to Consumption of Unsafe Drinking Water , 2015, Water Quality, Exposure and Health.

[60]  L. Charlet,et al.  Selenium distribution and speciation in plant parts of wheat (Triticum aestivum) and Indian mustard (Brassica juncea) from a seleniferous area of Punjab, India. , 2015, The Science of the total environment.

[61]  Peiyue Li,et al.  Occurrence and hydrogeochemistry of fluoride in alluvial aquifer of Weihe River, China , 2014, Environmental Earth Sciences.

[62]  Sunil Mittal,et al.  Effects of Environmental Pesticides on the Health of Rural Communities in the Malwa Region of Punjab, India: A Review , 2014 .

[63]  S. K. Dhillon,et al.  Development and mapping of seleniferous soils in northwestern India. , 2014, Chemosphere.

[64]  M. Robson,et al.  Heavy metal contamination and human health risk assessment in drinking water from shallow groundwater wells in an agricultural area in Ubon Ratchathani province, Thailand , 2014, Environmental Geochemistry and Health.

[65]  Ord,et al.  Guidance on Selecting Age Groups for Monitoring and Assessing Childhood Exposures to Environmental Contaminants , 2013 .

[66]  H. S. Hundal,et al.  An appraisal of groundwater quality for drinking and irrigation purposes in southern part of Bathinda district of Punjab, northwest India , 2013, Environmental Earth Sciences.

[67]  K. Brindha,et al.  Influence of hydrogeochemical processes on temporal changes in groundwater quality in a part of Nalgonda district, Andhra Pradesh, India , 2012, Environmental Earth Sciences.

[68]  Elisabeth Eiche,et al.  Hazardous concentrations of selenium in soil and groundwater in North-West India. , 2011, Journal of hazardous materials.

[69]  C. K. Singh,et al.  Integrating multivariate statistical analysis with GIS for geochemical assessment of groundwater quality in Shiwaliks of Punjab, India , 2011 .

[70]  Rina Kumari,et al.  Application of GWQI to Assess Effect of Land Use Change on Groundwater Quality in Lower Shiwaliks of Punjab: Remote Sensing and GIS Based Approach , 2011 .

[71]  Saumitra Mukherjee,et al.  Impact of land-use and land-cover change on groundwater quality in the Lower Shiwalik hills: a remote sensing and GIS based approach , 2010 .

[72]  Jin‐Yong Lee,et al.  Evaluation of groundwater quality in coastal areas: implications for sustainable agriculture , 2007 .

[73]  N. Lepp Heavy Metal Contamination of Soil , 2006 .

[74]  R. Gibbs Mechanisms Controlling World Water Chemistry , 1970, Science.

[75]  D. Thorne Diagnosis and Improvement of Saline and Alkali Soils , 1954 .

[76]  S. Mittal,et al.  Water Crisis: Issues and Challenges in Punjab , 2018 .

[77]  N. Subba Rao,et al.  Geochemical evolution of groundwater in the Western Delta region of River Godavari, Andhra Pradesh, India , 2015, Applied Water Science.

[78]  Dan Lapworth,et al.  Natural (baseline) groundwater quality in the Bist-Doab catchment, Punjab, India: a pilot study comparing shallow and deep aquifers , 2014 .

[79]  C. K. Singh,et al.  Geochemical characterization and heavy metal contamination of groundwater in Satluj River Basin , 2013, Environmental Earth Sciences.

[80]  C. K. Singh,et al.  Impact of land-use and land-cover change on groundwater quality in the Lower Shiwalik hills: a remote sensing and GIS based approach , 2010 .

[81]  C. R. Ramakrishnaiah,et al.  Assessment of water quality index for the groundwater in Tumkur taluk, Karnataka State, India. , 2009 .

[82]  Means,et al.  Risk-assessment guidance for Superfund. Volume 1. Human Health Evaluation Manual. Part A. Interim report (Final) , 1989 .