Accès gratuit
Numéro
LHB
Numéro 5-6, Décembre 2019
Page(s) 45 - 58
DOI https://doi.org/10.1051/lhb/2019055
Publié en ligne 23 décembre 2019
  • Babiker IS, Mohamed MAA, Terao H, Kato K, Ohta K. 2004. Assessment of groundwater contamination by nitrate leaching from intensive vegetable cultivation using geographical information system. Environ Int 29: 1009–1017. [CrossRef] [PubMed] [Google Scholar]
  • Chen J, Tang C, Sakura Y, Yu J, Fukushima Y. 2005. Nitrate pollution from agriculture in different hydrogeological zones of the regional groundwater flow system in the North China Plain. Hydrogeol J 13: 481–492. [Google Scholar]
  • Chen J, Wu H, Qian H, Gao Y. 2016a. Assessing nitrate and fluoride contaminants in drinking water and their health risk of rural residents living in a semiarid region of Northwest China. Expo Health. DOI: 10.1007/s12403-016-0231-9. [PubMed] [Google Scholar]
  • Chen J, Wu H, Qian H. 2016b. Groundwater nitrate contamination and associated health risk for the rural communities in an agricultural area of Ningxia, Northwest China. Expo Health 8: 349–359. [Google Scholar]
  • Chen J, Wu H, Qian H, Gao YY. 2017. Assessing nitrate and fluoride contaminants in drinking water and their health risk of rural residents living in a semiarid region of Northwest China. Expo Health 9: 183–195. [Google Scholar]
  • Chen JY. 2010. South of Hebei plain groundwater nitrate pollution and its health risk assessment. Environ Earth Sci 59: 1023–1032. [Google Scholar]
  • Dwivedi U, Mishra S, Singh P, Tripathi R. 2007. Nitrate pollution and its remediation. In: Singh SN, Tripathi RD, eds. Environmental bioremediation technologies. Berlin, Heidelberg: Springer, pp 353–389. DOI: 10.1007/978-3-540-34793-4_16. [CrossRef] [Google Scholar]
  • Dzulfakar MA, Shaharuddin MS, Muhaimin AA, Syazwan AI. 2011. Risk assessment of aluminum in drinking water between two residential areas. Water 3: 882–897. [Google Scholar]
  • Fabro AYR, Ávila JGP, Alberich MVE, Sansores SAC, Camargo-Valero MA. 2015. Spatial distribution of nitrate health risk associated with groundwater use as drinking water in Merida, Mexico. Appl Geogr 65: 49–57. [Google Scholar]
  • Gao J, Zhang L, Huang S, Ma M, Wang Z. 2004. Preliminary assessment of the health risk of metal contamination in drinking water source in Beijing City. Environ Sci 25: 47–50 (in Chinese with English abstract). [Google Scholar]
  • Grung M, Lin Y, Zhang H, et al. 2015. Pesticide levels and environmental risk in aquatic environments in China – A review. Environ Int 81: 87–97. [CrossRef] [PubMed] [Google Scholar]
  • Gu B, Ge Y, Chang SX, Luo W, Chang J. 2013. Nitrate in groundwater of China: Sources and driving forces. Glob Environ Change 1723: 1112–1121. [Google Scholar]
  • Hamed Y, Awad S, Sâad AB. 2013. Nitrate contamination in groundwater in the Sidi Aı̈ch-Gafsa oases region, Southern Tunisia. Environ Earth Sci 70: 2335–2348. [Google Scholar]
  • Han G. 2014. Study on health risk assessment of groundwater environment in a certain area of Cheng Du. Chengdu University of Technology ( in Chinese). [Google Scholar]
  • Han L, Qian L, Yan J, Liu R, Du Y, Chen M. 2016. A comparison of risk modeling tools and a case study for human health risk assessment of volatile organic compounds in contaminated groundwater. Environ Sci Pollut Res Int 23: 1234–1245. [CrossRef] [PubMed] [Google Scholar]
  • Huang B, Li Z, Chen Z, et al. 2015. Study and health risk assessment of the occurrence of iron and manganese in groundwater at the terminal of the Xiangjiang River. Environ Sci Pollut Res Int 22: 19912–19921. [CrossRef] [PubMed] [Google Scholar]
  • Huang SH, Yuan CY, Li Q, et al. 2017. Distribution and risk assessment of heavy metals in soils from a typical Pb-Zn mining area. Pol J Environ Stud 26: 1105–1112. [CrossRef] [Google Scholar]
  • Huang Y, Zuo R, Li J, Wu J, Zhai YZ, Teng YG. 2018. The spatial and temporal variability of groundwater vulnerability and human health risk in the Limin District, Harbin, China. Water 10: 686–692. [Google Scholar]
  • Jalali M. 2011. Nitrate pollution of groundwater in Toyserkan, western Iran. Environ Earth Sci 62: 907–913. [Google Scholar]
  • Javaid A, Ahmad SR, Qadir A. 2019. Health risk surveillance of arsenic in wastewater, groundwater, and agricultural land along Hudaira Drain, Pakistan using GIS techniques. Pol J Environ Stud 28: 681–692. [CrossRef] [Google Scholar]
  • Javed T, Ahmad N, Mashiatullah A. 2018. Heavy metals contamination and ecological risk assessment in surface sediments of Namal Lake, Pakistan. Pol J Environ Stud 27: 675–688. [CrossRef] [Google Scholar]
  • Kong S, Lu B, Ji Y, et al. 2012. Risk assessment of heavy metals in road and soil dusts within PM20.5, PM10 and PM100 fractions in Dongying city, Shandong Province (China). J Environ Monit 14: 791–803. [CrossRef] [PubMed] [Google Scholar]
  • Kumazawa K. 2002. Nitrogen fertilization and nitrate pollution in groundwater in Japan: Present status and measures for sustainable agriculture. Nutr Cycl Agroecosyst 63: 129–132. [CrossRef] [Google Scholar]
  • Lasagna M, De L, Franchino DA. 2016. Nitrate contamination of groundwater in the western Po Plain (Italy): The effects of groundwater and surface water interactions. Environ Earth Sci 75: 1–16. [Google Scholar]
  • Li P, Qian H, Howard KWF, Wu J. 2015. Building a new and sustainable “Silk road economic belt”. Environ Earth Sci 74: 7267–7270. [Google Scholar]
  • Li P, Li X, Meng X, Li M, Zhang Y. 2016. Appraising groundwater quality and health risks from contamination in a semiarid region of Northwest China. Expo Health. DOI: 10.1007/s12403-016-0205-y. [PubMed] [Google Scholar]
  • Li PH, Kong SF, Geng CM, et al. 2013. Health risk assessment for vehicle inspection workers exposed to airborne polycyclic aromatic hydrocarbons (PAHs) in their work place. Environ Sci: Process Impacts 15: 623–632. [CrossRef] [Google Scholar]
  • Li Z, Bi E, Zhang S, et al. 2008. Method for health risk assessment of groundwater pollution. South-to-North Water Transf Water Sci Technol 6: 47–58 (in Chinese with English abstract). [Google Scholar]
  • Lu J, Zhao X. 2017. Heavy metal pollution characteristics and ecological risk assessment of the Shizishan mining area in Tongling (China). J Environ Chem 36: 1958–1961. [Google Scholar]
  • Mahmoud MT, Hamouda MA, Al KRR, Mohamed M. 2018. Health risk assessment of household drinking water in a district in the UAE. Water 10: 1684–1702. [Google Scholar]
  • Man YB, Chow KL, Wang HS, et al. 2011. Health risk assessment of organochlorine pesticides with emphasis on DDTs and HCHs in abandoned agricultural soils. J Environ Monit 13: 2250–2259. [CrossRef] [PubMed] [Google Scholar]
  • Nakagawa K, Amano H, Asakura H, Berndtsson R. 2016. Spatial trends of nitrate pollution and groundwater chemistry in Shimabara, Nagasaki. Jpn Environ Earth Sci 75: 1–17. [CrossRef] [Google Scholar]
  • Ni L, Wang H, Li X, Liang J. 2010. Environmental health risk assessment of drinking water source in lakes. Environ Sci Res 23: 74–79 (in Chinese with English abstract). [Google Scholar]
  • Qin W, Yang Z. 2011. Health risk assessment of drinking water in Jiangxi Pan Lake area. Mod Geol 25: 182–188 (in Chinese with English abstract). [Google Scholar]
  • Rahmati O, Samani AN, Mahmoodi N, Mahdavi M. 2014. Assessment of the contribution of N-fertilizers to nitrate pollution of groundwater in Western Iran (case study: Ghorveh-Dehgelan aquifer). Water Qual, Expo Health 7: 143–151. [CrossRef] [Google Scholar]
  • Samani AN, Mahmoodi N, Mahdavi M. 2015. Assessment of the contribution of N-fertilizers to nitrate pollution of groundwater in Western Iran (Case Study: Ghorveh-Dehgelan Aquifer). Water Qual Expo Health 7: 143–149. [Google Scholar]
  • Su XS, Wang H, Zhang Yl. 2013. Health risk assessment of nitrate contamination in groundwater: A case study of an agricultural area in Northeast China. Water Resour Manage 27: 3025–3030. [CrossRef] [Google Scholar]
  • USEPA (US Environmental Protection Agency). 1989. Risk assessment guidance for superfund, Volume I: Human health evaluation manual (Part A). [Google Scholar]
  • USEPA (US Environmental Protection Agency). 1991. Risk assessment guidance for superfund: Volume I: Human health evaluation manual (Part B, development of risk-based preliminary remediation goals). Interim Final. December. [Google Scholar]
  • USEPA (US Environmental Protection Agency). 2001. Risk assessment guidance for superfund volume III: Part A, process for conducting probabilistic risk assessment. [Google Scholar]
  • USEPA (US Environmental Protection Agency). 2004. Risk assessment guidance for Superfund, Volume I: Human health evaluation manual (Part E, supplemental guidance for dermal risk assessment) final. [Google Scholar]
  • USEPA (US Environmental Protection Agency). 2005. Guidelines for carcinogen risk assessment. Risk Assessment Forum. [Google Scholar]
  • Wang WH, Zhao C, Zhao JX. 2017. Heavy metal pollution characteristics and ecological risk assessment of a rare earth tailings pond in Baotou (China). J Metal Mine 46: 168–172. [Google Scholar]
  • Wu JH, Man Y, Sun GY, Shang LH. 2018. Occurrence and health-risk assessment of trace metals in raw and boiled drinking water from rural areas of China. Water 10: 641–656. [Google Scholar]
  • Yang M, Fei Y, Ju Y, Ma Z, Li H. 2012. Health risk assessment of groundwater pollution – A case study of typical city in North China plain. J Earth Sci 23: 335–348. [CrossRef] [Google Scholar]
  • Zakhem BA, Hafez R. 2015. Hydrochemical, isotopic and statistical characteristics of groundwater nitrate pollution in Damascus Oasis (Syria). Environ Earth Sci 74: 2781–2791. [Google Scholar]
  • Zhai Y, Lei Y, Zhou J, Li M, Teng Y. 2015. The spatial and seasonal variability of the groundwater chemistry and quality in the exploited aquifer in the Daxing district. Environ Monit Assess 2: 1–15. [Google Scholar]
  • Zhai YZ, Zhao XB, Teng YG, et al. 2017. Groundwater nitrate pollution and human health risk assessment by using HHRA model in an agricultural area, NE China. Ecotoxicol Environ Saf 137: 130–142. [CrossRef] [PubMed] [Google Scholar]
  • Zhang H. 2008. Nitrate contamination of groundwater in Southern Hebei Plain and its health risk assessment. Institute of Geographical Sciences and Natural Resource Research (in Chinese with English abstract). [Google Scholar]
  • Zhang H, Wu CQ, Gong JP, et al. 2017. Assessment of heavy metal contamination in roadside soils along the Shenyang-Dalian Highway in Liaoning Province, China. Pol J Environ Stud 26: 1539–1549. [CrossRef] [Google Scholar]
  • Zhang W, Yan QW, Huang RL. 2017. Heavy metal pollution and plant accumulation characteristics of farmland soil in Dabaoshan mining area (China). J Soil 49: 141–149. [Google Scholar]
  • Zhou YH, Wei AH, Li JF, Yan LD, Li J. 2016. Groundwater quality evaluation and health risk assessment in the Yinchuan Region, Northwest China. Expo Health 8: 443–456. [Google Scholar]

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