- Ahada, C.P.S., & Suthar, S. (2018). Groundwater nitrate contamination and associated human health risk assessment in southern districts of Punjab, India. Environmental Science Pollution Research, 25, 25336-25347.
- Alardhi, S.M., Albayati, T.M., & Alrubaye, J.M. (2020). A hybrid adsorption membrane process for removal of dye from synthetic and actual wastewater. Chemical Engineering Processing: Process Intensif, 157, 108-113.
- Ameur, M., Aouiti, S., Hamzaoui-Azaza, F., Ben Cheikha, L., & Gueddari, M. (2021). Vulnerability assessment, transport modeling and simulation of nitrate in groundwater using SI method and modflow-MT3DMS software: case of Sminja aquifer, Tunisia.Environmental Earth Sciences, 80, 220
- Amiri, V., Kamrani, S., Ahmad, A., Bhattacharya, P., & Mansoori, J. (2020). Groundwater quality evaluation using Shannon information theory and human health risk assessment in Yazd province. central plateau of Iran. Environental Science Pollution Research, 28, 1108-1130.
- Aschebrook-Kilfoy, B., Heltshe, S.L., Nuckols, J.R., Sabra, M.M., Shuldiner, A.R., Mitchell, B.D., Airola, M., Holford, T.R., Zhang, Y., & Ward, M.H. (2012). Modeled nitrate levels in well water supplies and prevalence of abnormal thyroid conditions among the Old Order Amish in Pennsylvania. Environmental Health, 11, 6.
- Badeenezhad, A., Radfard, M., Passalari, H., Parseh, I., Abbasi, F., & Rostami, S. (2019). Factors affecting the nitrate concentration and its health risk assessment in drinking groundwater by application of Monte Carlo simulation and geographic information system.Human and Ecological Risk Assessment,An International Journal , 27, 1458-1471.
- Bhalla, B. (2013). Effect of age and seasonal variations on leachate characteristics of municipal solid waste landfill. Internatinal Journal of Research in Engineering Technology, 2, 223-232.
- Chattopadhyay, S., & Dutta, S. (2009). Municipal solid waste management in kplkata, India-a review. Waste management, 29, 1449-1458.
- Chen, H., Teng, Y., Lu, S., Wang, Y., Wu, J., & Wang, J. (2016). Source apportionment and health risk assessment of trace metals in surface soils of Beijing metropolitan, China. Chemosphere, 144, 1002-1011.
- Cossu, F., Zuffianò, L. E., Limoni, P. P., De Giorgio, G., Pizzardini, P., Miano, T., Mondelli, D., Garavaglia, R., Carella, C., & Polemio, M. (2018). How can the role of leachate on nitrate concentration and groundwater quality be clarified? An approach for landfills in operation (Southern Italy). Waste Management, 77 , 156-165.
- D’Agostino, F., Bellante, A., Quinci, E., Gherardi, S., Placenti, F., Sabatino, N., Bufa, G., Avellone, G., Di Stefano, V., & Del Core, M. (2020). Persistent and Emerging organic pollutants in the marine coastal environment of the Gulf of Milazzo (Southern Italy): human health risk assessment. Frontiers in Environmental Science,8.
- Dąbrowska, D., Witkowski, A., & Sołtysiak, M. (2018). Application of pollution indices for the assessment of the negative impact of a municipal landfill on groundwater (Tychy, southern Poland). Geological Quarterly, 62 (3), 496-508.
- Egbueri, J., & Enyigwe, M.T. (2020). Pollution and Ecological Risk Assessment of Potentially Toxic Elements in Natural Waters from the Ameka Metallogenic District in Southeastern Nigeria. Analytical Letter, 53, 2812-2839.
- Gerba, C. P. (2019). Risk assessment In: Environmental and pollution science, 541-563.
- Huang, D., Yang, J., Wei, X., Qin, J., Ou, S., Zhang, Z., & Zou, Y. (2017). Probabilistic risk assessment of Chinese residents’ exposure to fluoride in improved drinking water in endemic fluorosis areas. Environental Pollution, 222, 118-125.
- Islama, S., AL-mamunbd, H., A., & Eatonf, W. D. (2016). Total and dissolved metals in the industrial wastewater: A case study from Dhaka Metropolitan, Bangladesh. Environmental anotechnology, Monitoring &Managemen, 5, 74-80.
- Javahershenas, M., Nabizadeh, R., Alimohammadi, M., & Mahvi, A.H. (2020). The effects of Lahijan landfill leachate on the quality of surface and groundwater resources. International Journal Environmental Analytical Chemistry, 102
- Jinling, Wu., Yin, Y., & Wang, J. (2018). Hydrogen-based membrane bioflm reactors for nitrate removal from water and wastewater. Internatinal Journal Hydrogen Energy, 43(1-4), 1-15.
- Kardan Moghaddam, H., Rahimzadeh, Z., Bahreinimotlagh, M., & KardanMoghddam, H. (2020). Evaluation of the groundwater resources vulnerability index using nitrate concentration prediction approach.Geocarto International, 37, 1664-1680.
- Kaur, L., Rishi, M.S., & Siddiqui, A.U. (2020). Deterministic and probabilistic health risk assessment techniques to evaluate non-carcinogenic human health risk (NHHR) due to fuoride and nitrate in groundwater of Panipat, Haryana, India. Environmental Pollution, 259, 113711.
- Kazemi, Z., Arani, M. H., Panahande, M., Kermani, M., & Kazemi, Z. (2021). Chemical quality assessment and health risk of heavy metals in groundwater sources around Saravan landfill, Iran the northernmost province . International Journal Of Envirinmental Analytical Chemistry, Latest Article.
- Kazemi, Z., Arani, P.M., Panahande, M., & Kermani, M. (2021). Chemical quality assessment and health risk of heavy metals in groundwater sources around Saravan landfill. the northernmost province of Iran. International Journal of Envirinmental Analytical Chemistry, 31-38.
- Kelava, I., Sutić, I., Pavišić, V., Salać, N., & Bulog, A. (2018). Health safety of water for human consumption in the city of Čabar in the period of 2012-2016. International Journal of Sanitary Engineering Research, 12 (2), 27-33.
- Kovač, Z., Nakić, D., Špoljarić, D., & Stanek, A. (2018).Bačani, Estimation of Nitrate Trends in the Groundwater of the Zagreb Aquifer. Geosciences, 1-17.
- Masoudinejad, M., Ghadrpoori, M., Jafari, Nasehifar, J., Malekzadeh, A., & Ghaderpoury, A. (2018). Data on nitrate and nitrate of Taham dam in Zanjan (Iran), Data Brief, 17, 431-437.
- Mateo-Sagasta, J., Marjani Zadeh, S., & Turral, H. (2018). More people, more food, worse water ? In: A Global Review of Water Pollution from Agriculture. FAO, Rome (Italy).
- Mendoza, M. B., Ngilangil, L. E., & Vilar, D. A. ( 2017). Groundwater and leachate quality assessment in balaoan sanitary landfill in la union, northern Philippines. Chemical Engineering Transactions, 56, 247-252.
- Migeot, V., Albouy-Llaty, M., Carles, C., Limousi, F., Strezlec, S., Dupuis, A., & Rabouan, S. (2013). Drinking-water exposure to a mixture of nitrate and low-dose atrazine metabolites and small-for-gestational age (SGA) babies: a historic cohort study. Environental Research, 122, 58-64.
- Mishra, S., Tiwary, D., Ohri, A., & Agnihotri, A. K. (2019). Impact of municipal solid waste landfll leachate on groundwater quality in Varanasi, India. Groundwater Sustainable Development, 9, 100230.
- Negi, P., Mor, S., & Ravindra, K. (2020). Impact of landfill leachate on the groundwater quality in three cities of North India and health risk assessment. Environment, Development and Sustainability, 22, 1455-1474.
- Noori, R., Farahani, F., Jun, C., Aradpour, S., Bateni, S.M., Ghazban, F., Hosseinzadeh, M., Maghrebi, M., Vesali Naseh, M.R., & Abolfathi, S. (2022). A non-threshold model to estimate carcinogenic risk of nitrate-nitrite in drinking water. Journal of Cleaner Production, 362, 132432.
- Panneerselvam, B., Karuppannan, S., & Muniraj, K. (2020). Evaluation of drinking and irrigation suitability of groundwater with special emphasizing the health risk posed by nitrate contamination using nitrate pollution index (NPI) and human health risk assessment (HHRA). Human and Ecological Risk Assessment: An International Journal, 27,1324-1328.
- Panneerselvam, B., Muniraj, K., Duraisamy, K., Pande, C., Karuppannan, S., & Thomas, M. (2022). An integrated approach to explore the suitability of nitrate‑contaminated groundwater for drinking purposes in a semiarid region of India. Environmental Geochemmistry Health, 45, 647-663.
- Qasemi, M., Afsharnia, M., Farhang, M., Ghaderpoori, M., Karimi, A., Abbasi, H., & Zarei, A. (2019). Spatial distribution of fluoride and nitrate in groundwater and its associated human health risk assessment in residents living in Western Khorasan Razavi, Iran. Water Treat, 170, 176-186.
- Sakizadeh, M., & Zhang, C. (2020). Health risk assessment of nitrate using a probabilistic approach in groundwater resources of western part of Iran. Environmental Earth Science, 79, 43
- Schullehner, J., Hansen, B., Thygesen, M., Pedersen, C.B., & Sigsgaard, T. (2018). Nitrate in drinking water and colorectal cancer risk: a nationwide population-based cohort study. International Journal of Cancer, 143 (1), 73-79.
- Shalyari, N., Alinejad, A., Hashemi, A.H.G., RadFard, M., & Dehghani, M. (2019). Health risk assessment of nitrate in groundwater resources of Iranshahr using Monte Carlo simulation and geographic information system (GIS). MethodsX 6, 1812-1821.
- Soleimani, H., Nasri, O., Ghoochani, M., Azhdarpoor, M., Dehghanic, M., Radfard, M., Darvishmotevalli, M., Oskoeia, V., & Heydarie, M. (2020). Groundwater quality evaluation and risk assessment of nitrate using monte carlo simulation and sensitivety analysis in rural areas of Divandarreh County, Kurdistan province, Iran. International Journal of Environmental Analytical Chemistry, 2213-2231
- Taufiq, A., Effendi, A. J., Iskandar, I., Hosono, T., & Hutasoit, L. M. (2019). Controlling factors and driving mechanisms of nitrate contamination in groundwater system of Bandung Basin, Indonesia, deduced by combined use of stable isotope ratios, CFC age dating, and socioeconomic parameters. Water Research, 148, 292-305.
- Tian, H., Liang, X., Gong, Y., Qi, L., Liu, Q., Kang, Z., Sun, Q., & Jin, H. ( 2020). Health risk assessment of nitrate pollution in shallow groundwater: a case study in China. Pollution Journal Environmental, 29, 827-839.
- Toolabi, A., Bonyadi, Z., Paydar, M., Najafpoor, A.A., & Ramavandi, B. (2021). Spatial distribution, occurrence, and health risk assessment of nitrate, fuoride, and arsenic in Bam groundwater resource, Iran. Groundwater for Sustainable Development, 12, 100543.
- (1997). Exposure factors handbook. Exposure Assessment Group, Office of Health and Environmental Assessment, US Environmental Protection Agency.
- (2014). Human Health Evaluation Manual, Supplemental Guidance: update of standard default exposure factors-OSWER Directive 9200.1-120. PP.6
- Vahabian, M., Hassanzadeh, Y., & Marofi, S. (2019). Assessment of landfill leachate in semi-arid climate and its impact on the groundwater quality case study: Hamedan, Iran Einviron Monit Assess, 191, 109.
- WHO .(2017). Guidelines for drinking water quality, 4th edition incorporating the first addendum. World Health Organization, Geneva.
- Zhai, Y., Zhao, X., Teng, Y., Li, X., Zhang, J., Wu, J., & Zuo, R. (2017). Groundwater nitrate pollution and human health risk assessment by using HHRA model in an agricultural area, NE China.Ecotoxicology and Environmental Safety, 137, 130-142.
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