1.Elisante, E., Muzuka, A.N.N., 2016. . Assessment of sources and transformation of nitrate in groundwater on the slopes of Mount Meru, Tanzania. Environ. Earth Sci. 75 (3),1–15.
2.Powlson EL, Hansell MJ, Sloan NL, et al. Women’s nutritional status, iron consumption and weight gain during pregnancy in relation to neonatal weight and length in West Java, Indonesia[J]. Int J Gynecol Obstetrics, 1995, 48(Suppl), S103-S119.
3. Brender JD, Weyer PJ, Romitti PA, et al. Prenatal nitrate intake from drinking water and selected birth defects in offspring of participants in the national birth defects prevention study[J]. Environ Health Perspect, 2013, 121(9):1083-1089.
4. Knobeloch L, Salna B, Hogan A, et al. Blue babies and nitrate-contaminated well water[J]. Environ Health Perspect, 2000, 108(7):675-678.
5. Burkholder J, Libra B, Weyer P, et al. Impacts of waste from concentrated animal feeding operations on water quality[J]. Environ Health Perspect, 2007, 115(2):308-312.
6.Adimalla N, Qian H (2019) Groundwater quality evaluation using water quality index (WQI) for drinking purposes and human health risk (HHR) assessment in an agricultural region of Nanganur, South India. Ecotoxicology and Environmental Safety, 176: 153-161. https://doi.org/10.1016/j.ecoenv.2019.03.066
7.Almasri, M.N., 2007. Nitrate contamination of groundwater: a conceptual management framework. Environ. Impact Assess. Rev. 27 (3), 220–242.
8.Shrestha, S., Semkuyu, D.J., Pandey, V.P., 2016. Assessment of groundwater vulnerability and risk to pollution in Kathmandu Valley. (Nepal)Sci. Total Environ. 556, 23–35.
9.Rahmati, O., Samani, A.N., 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 (2), 143–151.
10.Babiker, I.S., Mohamed, M.A.A., 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 (8), 1009–1017.
11.Adimalla N (2019) Spatial distribution, exposure, and potential health risk assessment from nitrate in drinking water from semi-arid region of South India. Human and Ecological Risk Assessment: An International Journal. https://doi.org/10.1080/10807039.2018.1508329
12.Pisciotta, A., Cusimano, G., Favara, R., 2015. Groundwater nitrate risk assessment using intrinsic vulnerability methods: a comparative study of environmental impact by intensive farming in the Mediterranean region of Sicily. (Italy)J. Geochem. Explor.156, 89–100.
13.Mahmood Yousefi 1, Sahar Ghalehaskar.Distribution of fluoride contamination in drinking water resources and health risk assessment using geographic information system, northwest Iran.Regul Toxicol Pharmacol.Volume 107, October 2019, 104408.
14.Mahmood Yousefi 1, Farzaneh Baghal Asghari 2, Pietro Zuccarello.Spatial distribution variation and probabilistic risk assessment of exposure to fluoride in ground water supplies: a case study in an endemic fluorosis region of Northwest Iran.Int J Environ Res Public Health, 16 (4).
15.Qasemi M1, Shams M2, Sajjadi SA.Cadmium in groundwater consumed in the rural areas of Gonabad and Bajestan, Iran: occurrence and health risk assessment.Biol Trace Elem Res. 2019 Dec;192(2):106-115.
16.Saleh HN1, Panahande M2, Yousefi M3.Carcinogenic and non-carcinogenic risk assessment of heavy metals in groundwater wells in Neyshabur Plain, Iran.Biol Trace Elem Res. 2019 Jul;190(1):251-261.
17.Alimohammadi M1,2,3, Latifi N2, Nabizadeh R. Determination of nitrate concentration and its risk assessment in bottled water in Iran.Data Brief. 2018 Jul 2;19:2133-2138.
18.Yu QJ, Cao Q, Connell DW. An overall risk probability-based method for quantification of synergistic and antagonistic effects in health risk assessment for mixtures: theoretical concepts[J]. Environ Sci Pollut Res Int, 2011, 19(7):2627-2633.
19.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 (3),335–348.
20.Chen, H., Teng, Y., Lu, S., Wang, Y., Wu, J., Wang, J., 2016aa. Source apportionment and health risk assessment of trace metals in surface soils of Beijing metropolitan, China.Chemosphere 144, 1002–1011.
21.Zakhem, B.A., Hafez, R., 2015. Hydrochemical, isotopic and statistical characteristics of groundwater nitrate pollution in Damascus Oasis (Syria). Environ. Earth Sci. 74 (4), 2781–2797.
22.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 (3), 1–17.
23.Jalali, M., 2011. Nitrate pollution of groundwater in Toyserkan, western Iran. Environ. Earth Sci. 62 (5), 907–913.
24.Adimalla N, Li P, Qian H (2019) Evaluation of groundwater contamination for fluoride and nitrate in semi-arid region of Nirmal Province, South India: A special emphasis on human health risk assessment (HHRA). Human and Ecological Risk Assessment: An International Journal, 25(5): 1107-1124. https://doi.org/10.1080/10807039.2018.1460579