Zadeh L A. 1973. Outline of a new approach to the analysis of complex systems and decision processes. IEEE Transactions on Systems, Man and Cybernetics, 1: 28-44. |
Institute of Standards and Industrial Research of Iran (ISIRI). 2010. Drinking Water physical andChemical Specifications (1053), 5th revision, Institute of Standards and Industrial Research of Iran: 26. |
Herath I, Vithanage M, Bundschuh J, Maity J.P, Bhattacharya P. 2016. Natural arsenic in global groundwaters: distribution and geochemical triggers for mobilization. Current Pollution Report, 2(1): 68-89. |
Cameron E, Peloso G. 2001. An application of fuzzy logic to the assessment of aquifers’ pollution potential. Environmental Geology, 40: 1305-1315. |
Muhammetoglu A, Yardimci A. 2006. A fuzzy logic approach toassess groundwater pollution levels below agricultural ?elds. Environmental Monitoring and Assessment, Springer 118: 337-354. |
Ballantyne J M, Moore J N. 1988. Arsenic geochemistry in geothermal systems. Geochimicaet Cosmochimica Acta, 52(2): 475-483. |
Vadiati M, Asghari-Moghaddam A, Nakhaei M, et al. 2016. A fuzzy-logic based decision-making approach for identification of groundwater quality based on groundwater quality indices. Journal of Environmental Management, 184(Part 2): 255-270. |
LI Wen-xin, ZHANG Xu-xiang, WU Bing, et al. 2008. A Comparative Analysis of Environmental Quality Assessment Methods for Heavy Metal-Contaminated Soils. Pedosphere, 18(3): 344-352. |
CHANG Ni-bin, CHEN H W, Ning S K. 2001. Identi?cation of river waterquality using the fuzzy synthetic evaluation approach. Journal of Environmental Management 63: 293-305. |
Shahidasht A, Abbasnejad A. 2011. Environmental effects of groundwater overexploitation in Kerman plains. Kerman Water Resources Authority: 100. |
Singh A, Sharma R K, Agrawal M, et al. 2010. Health risk assessment of heavy metals via dietary intake of foodstuffs from the wastewater irrigated site of a dry tropical area of India. Food and Chemical Toxicology, 48(2): 611-619. |
Ocampo-Duque W, Osorio C, Piamba C, et al. 2013.Water quality analysis in rivers with non-parametric probability distributions and fuzzy inference systems: application to the Cauca River, Colombia. Environment International, 52: 17-28. |
Dehbandi R, Abbasnejad A, Karimi Z, et al. 2019. Hydrogeochemical controls on arsenic mobility in an arid inland basin, Southeast of Iran: The role of alkaline conditions and salt water intrusion, Environmental Pollution. Environmental Pollution, 249: 910-922. |
Lermontov A, Yokoyama L, Lermontov M, et al. 2009. River quality analysis using fuzzy water quality index: Ribeira do Iguape river watershed, Brazil. Ecological Indication, 9(6): 1188-1197. |
Gharibi H, Mahvi A H, Nabizadeh R, et al. 2012. A novel approach in water quality assessment based on fuzzy logic. Journal of Environmental Management, 112: 87-95. |
Dixon B, Scott H D, Dixon J C, et al. 2002. Prediction of aquifer vulnerability to pesticides usingfuzzy rule-based models at the regional scale. Physical Geography, 23: 130-153. |
Mitra B, Scott H D, Dixon J C, et al. 1998. Application of fuzzy logic to the prediction ofsoils erosion in a large watershed. Geoderma, 86(3-4): 183-209. |
WANG Wen-chuan, XU Dong-mei, Chau Kwok-wing, et al. 2014. Assessment of river water quality based on theory of variable fuzzy sets and fuzzy binary comparison method. Water Resources Management, 28(12): 4183-4200. |
Yen J, Langaria R. 1998. Fuzzy Logic: Intelligence, control and information. New Jersey: Prentice Hall. |
WHO. 2011. Guidelines for Drinking-Water Quality, 4th edn. World Health Organization, Geneva, Switzerland. |
Subramani T, Elango L, Damodarasamy S R. 2005. Groundwater quality and its suitability for drinking and agricultural use in chithar River Basin, Tamil Nadu, India. Environmental Geology, 47: 1099-1110. |