Abhay K.S., B. Raj, A.K. Tiwari, M.K. Mahato, (2012). Evaluation of hydrogeochemical processes and groundwater quality in the Jhansi district of Bundelkhand region, India, Environ Earth Sci., 1-23, http://doi.org/10.1007/s12665-012-2209-7.
Adimalla, N., Venkatayogi, S., Das, S.V.G., (2019). Assessment of fluoride contamination and distribution: a case study from a rural part of Andhra Pradesh, India. Appl. Water Sci. 9, 94.
Agarwal V. And Jagetia M., (1997).Hydrogeochemical assessment of groundwater quality in Udaipur City, Rajasthan, India, Proceedings of National Conference on dimension of environmental stress in India, Department of Geology, MS University, Baroda, India, p. 151-154.
Ali, S., Shekhar, S., Bhattacharya, P., Verma, G., Chandrasekhar, T., Chandrashekhar, A.K., 2018. Elevated fluoride in groundwater of Siwani Block, Western Haryana, India: A potential concern for sustainable water supplies for drinking and irrigation. Groundw. Sustain. Dev. 7, p 410–420.
Alemayehu T, Dietzel M, Leis A, (2010). Geochemical evolution of groundwater quality in shallow and deep wells of volcanic aquifer in Axum, Ethopia, In: Proceedings of XXXVIII IAH Congress, Krakow-Poland.
Andre L, Franceschi M, Pouchan P, Atteia O, (2005). Using geochemical data and modeling to enhance the understanding of groundwater flow in a regional deep aquifer, Aquitaine Basin, south-west of France, J Hydrol, 305, 40-62, sd
APHA, (1998). Standard methods for the examination of water and waste water, 20thedn., American Public Health Association, Washington, DC.
Appelo C. A. J. And Postma D., (1999). Geochemistry, Groundwater and Pollution, AA Balkema, Rotterdam, p.535.
Ayers RS and Westcot DW, (1985). Water quality for irrigation. FAO Irrigation and Drainage Paper No. 20, Rev I, FAO Rome.
Back W., (1966). Hydrochemicalfacies and ground water flow patterns in northern part of Atlantic coastal plain, USGS Prof. Paper, 498-A, p.42.
Basu AK, (1986). Geology of parts of the Bundelkhand Granite Massif, Central India, Rec Geol Sur India 117:61-120.
Berner E. K. And Berner R.A., (1987). The global water cycle, Prentice-Hall Inc., Englewood Cliffs. NJ, p.397.
BIS, (2012). Bureau of Indian Standards- Indian Standard specification for drinking water IS:10500.
Brown G. H., Sharp M. J. And Tranter M., (1996). Subglacial chemical erosion: seasonal variations in solute provenance, Haunt GlaciardArolla, Valias, Switzerland, Ann. Glaciol., 22, p.25-31.
Cerling T. E., Pederson B. L. And Damn K.L.V., (1989). Sodium-calcium ion exchange in the weathering of shales implication for global weathering budgets, Geology, 17, p.552-554
C.G.W.B. (1995). Perspectives plans of ground water in India. Ministry of Water Resources , Govt. of India, Central Ground Water Board, Ministry of Water Resources, Govt. of India, Faridabad, New Delhi, India.
C.G.W.B. (1997). Report of the Ground Water Resource Estimation Committee-Ground water resource estimation methodology 1997. Central Ground Water Board, Ministry of Water Resources, Govt. of India, New Delhi 107p.
Central Ground Water Board, (2006). Dynamic Ground Water Resources of India . New Delhi.
C.G.W.B. (2008). Report on Hydrogeomorphological Mapping and Delineation of Ground Water Potential Zones using Remote Sensing and GIS in Khallikote Block, Ganjam District, Orissa. Central Ground Water Board, Ministry of Water Resources, Govt. of India.195p.
C.G.W.B. (2009). Ground Water Resource Estimation Methodology, Report of the Ground Water Resource Estimation Committee, Central Ground Water Board, Ministry of Water Resources, Govt. ofIndia, Faridabad, 87p.
C.G.W.B. (2013). Annual Report 2010-11 Central Ground Water Board (Ministry of Water Resources Govt. of India) Faridabad.188p.
C.G.W.B. (2014a). Dynamic Ground Water Resources of India (As on 31st March 2011) Central Ground Water Board Ministry of Water Resources, River Development & Ganga Rejuvenation. Government of India, Faridabad 282 p.
C.G.W.B. (2014b). Ground Water Yearbook (2013-14): Central Ground Water Board, 76, July 2014. http://www.cgwb.gov.in/documents/Ground%20Water%20Year%20Book%202013-14.pdf.
Choubisa SL, Endemic flourosis in southern Rajasthan, India. Fluoride, 34, 61-70, 2001.
Chow V., (1964). Handbook of applied hydrology, Mc. Graw-Hill, New York, p.1453.
Chowdhury, A., Jha, M.K. andChowdary, V.M., (2010). Delineation of Groundwater Recharge Zones and Identification of Artificial Recharge Sites in West Medinipur district, West Bengal, using RS, GIS and MCDM Techniques. Environmental Earth Science, vol. 59, 1209-1222.
Chowdhury, A., Jha, M.K., Chowdhary, V.M. and Mal, B.C. (2009). Integrated Remote Sensing and GIS-based approach for accessing Groundwater Ootential in West Medinipur district, West Bengal, India. International. Jour. Remote Sensing, vol. 30, no. 1, 231–250.
Collins R. And Jenkins A., (1996). The impact of agricultural land use on stream chemistry in the middle hills of the Himalayas, Nepal, Jou. Hydrol., 185, p. 71-86.
Datta PS, Tyagi SK, (1996). Major ion chemistry of groundwater of Delhi area: chemical weathering processes and groundwater flow regime, J GeolSocInd, 47, 179-188.
Davis S.N. and De Wiest R. J. M., (1966). Hydrogeology, Wiley, New York, 463.
Demlie M, Wohnlich S, Wisotzky F, Gizaw B, (2007). Groundwater recharge, flow and hydrogeochemical evolution in a complex volcanic acquifer system, Central Ethiopia, J Hydrogeol, 15, 1169-1181.
Dhang H. K., Wadhwane C. N., Jaiswal D. D. And Somasundaram S., (1984). Drinking water- An important source of trace element intake, Indian Jour. Environ. Health.
Durvey V. S., Sharma L. L., Saini V. P. And Sharma B. K., (1991). Handbook on the methodology of water quality assessment, Rajasthan Agricultural University, India.
Eawari Y. N. K. And Ramanibai R., (2000). Trace Metal Distribution in the Estuarine Waters of Chennai, South East Coast of India, Proceedings of Analytical Techniques in Monitoring the Environment, p. 333-328.
Fisher R. S. And Mulican W. F., (1997). Hydrogeochemical evolution of sodium-chloride groundwater beneath the Northern Cnihvahvan desert. Trans-Pecos, Taxas U.S.A. Hydrogeol. Jour., 10(4), p. 455-474.
Freeze R. A. And Cherry J. A., (1979). Groundwater, Prentice Hall, Englewood Cliffs., p. 604.
Gaillardet J, Dupre B, Louvat P, Allegre CJ, (1999). Global silicate weathering and CO2 consumption rates deduced from the chemistry of large rivers, ChemGeol, 159, 3-30.
Gibbs RJ, (1970). Mechanisms controlling world water chemistry, Science, 17, 1088-1090.
Gogai A. K., Mahanta J., Das H. And Hazarika A. C., (1991). Estimation of iron content in the drinking waters of Duliajan area, Indian Jour. Of Envioron. Protection, 11(12), p. 115-117.
Gupta, A. K., Nair, S.S., Ghosh, O., Singh, A. and Dey, S. (2014). Bundelkhand Drought: Retrospective Analysis and Way Ahead. National Institute of Disaster Management, New Delhi, 148p.
Hounslow AW, (1995). Water quality data: analysis and interpretation, CRC Lewis Publishers, New York.
Ibrahim-Bathis, K. and Ahmed, S.A. (2014b). Identification of suitable sites for water harvesting in the water scare rural watershed by the integrated use of Remote Sensing and GIS. In: InternationalSymposium on Integrated Water Resources Management (IWRM-2014), February 19–21, 2014, CWRDM, Kozhikode, Kerala, India, vol. 1.
Jalali M., (2007). Salinization of groundwater in arid and semiarid zones: an example from Tajarak, western Iran, Env. Geol., 22, p. 1133-1149.
Kelly WP, (1946). Permissible composition and concentration of irrigation waters. In: Proceeding American Society of Civil Engineering.
Krishna Kumar, S., Chandrasekar, N., Seralathan, P., Godson, Prince S. and Magesh, N.S. (2012). Hydrogeochemical study of shallow carbonate aquifers, Rameswaram Island, India. Environ Monit Assess vol. 184, 4127-4138.
Li, C., Gao, X., Wang, Y., (2015). Hydrogeochemistry of high-fluoride groundwater at Yuncheng Basin, northern China. Sci Total Env. 508, 155–65.
Krishnamurthy, J.N., Venkatesa, K., Jayaraman, V. and Manivel, M. (1996). An approach to demarcate groundwater potential zones through remote sensing and geographical information system. Internatioanal. Jour. Remote Sensing.Vol. 17, 1867–1884.
Majumdar D, Gupta N, (2000). Nitrate pollution of groundwater and associated human health disorders, Indian J Environ Hlth, 2, 28-39.
Maragella M, Vitale C, Petrarulo M, Rovera L, Dutto F, (1996). Effects of mineral composition of drinking water on risk for stone formation and bone metabolism in idiopathic calcium nephrolithiasis, Clin Sci, 91, 313-318.
Mishra RC, Sharma RP, (1975). Petrochemistry of Bundelkhand complex of central India. Indian Mineral, 15, 43-50.
Mohanthy, C. and Behera, S. C. (2010). Integrated remote sensing and GIS study for hydrogeomorphological mapping and delineation of groundwater potential zones in Khallikote block, Ganjam district, Orissa., Jour. of the Indian Society of Remote Sensing, June 2010, vol. 38, no. 2, 345–354.
Piper A. M., (2007). A graphical procedure in the geochemical interpretation of water analysis, Am. GEophys. Union. Trans., 25, p. 119-129.
Pradhan, B. (2009). Groundwater Potential Zonation for basaltic watersheds using Satellite Remote Sensing Data and GIS techniques. Cent. Eur. Jour. Geosci, vol. 1, no.1, 120–129.
Rajesh Solomon Paul, Umakant Rawat, Dev SenGupta, Arkoprovo Biswas, Shashikant Tripathi and Parthapratim Ghosh., (2020). Assessment of groundwater potential zones using multi‑criteria evaluation technique of Paisuni River Basin from the combined state of Uttar Pradesh and Madhya Pradesh, India, vol.79, Issue13, 340-364.
Raju N. J., (2006). Seasonal evaluation of hydro-geochemical parameters using correlation and regression analysis, Curr. Sci., 91(6), p. 820-826.
Raju N. J., Reddy T. V. K., Nayudu P. T. And Kotaiah B., (1994). Estimation of Aquifer Parameters and Groundwater Balance of the Upper Gunjanaeru River Basin, Cuddapah District, Andhra Pradesh, BHU-JAL News, p. 11-15.
Rose, (2002). Comparative major ion geochemistry of piedmont streams in the Atlanta, Georgia region: possible effects of urbanization, Environ Geol, 42, 102-113.
Sarin M. M., Krishnaswami S., Dilli, Somayajulu B. L. K. And Moore W. S., (1989). Major ion chemistry the Ganga-Brahmaputra river system: weathering processes and fluxes of the Bengal, Geochem. Et CosmochimActa., 53, p. 997-1009.
Sawyer C. N. and Mc. Carty P. L., (1967). Chemistry for sanitary engineers, 2nd Ed. Mc. Graw-Hill, New York, 1967. Schoeller H., Methods and techniques of groundwater investigation and development, Water Resources Series no. 33, UNESCO.
Scholler H., (1967). Methods and techniques of groundwater investigation and development, Water Resources Series no. 33, UNESCO.
Scholler H., (1977). Geochemistry of groundwater, In: Groundwater studies- An international guide for research and practice. UNESCO, Paris, Ch. 15, p. 1-8.
Shahid, S. and Nath, S.K. (1999). GIS Integration of Remote Sensing and Electrical Sounding Data for Hydrogeological Exploration. Jour. Spatial Hydrology. Vol. 2, no. 1, 1–12.
Shahid, S., Nath, S.K. and Roy, J. (2000). Ground Water Potential Modeling in Soft Rock Area using GIS. Jour.Remote Sensing, vol. 21, 1919–1924.
Shankar, M.N.R. and Mohan, G. (2006). Assessment of the Groundwater Potential and Quality in Bhatsa and KaluRiver Basins of Thane District, Western Deccan Volcanic Province of India. Environmental Geology, vol. 49, 990-998.
Singh A. K., (2002). Quality assessment of surface and subsurface water of Damodar River basin, Indian Jour. Environ. Health, 44, p. 41-49.
Singh A. K., Mondal G. C., Singh S., Singh P. K., Singh T. B., Tiwary B.K. and Sinha, A., (2007). Aquatic Geochemistry of Dhanbad, Jharkhand: Source Evaluation and Quality Assessment, Jour. Geol. Soc. Of Ind., 69, p. 1088-1102.
Singh AK, Mondal GC, Singh PK, Singh S, Singh TB, Tewary BK, (2005). Hydrochemistry of reservoirs of Damodar River basin, India: weathering processes and water quality assessment, Environ Geol, 48, 1014-1028.
Singh AK, Tewary BK, Sinha A, (2011). Hydrochemistry and quality assessment of groundwater in part of NOIDA metropolitan city, Uttar Pradesh, J GeolSocInd, 78, 523-540.
Sreedevi P. D., Ahmed S., Made B., Ledoux E. And Ganddolfi J. M., (2006). Association of hydrogeological factors in temporal variations of fluoride concentration in a crystalline aquifer in India, Environ. Geol., 44, p. 587-591.
Stuyfzand P. J., (1989). Nonpoint sources of trace elements in potable groundwaters in the Netherlands, Prc. 18th TWSA Water Workings, Testing and Research Institute KIWA.
SubbaRao N. and John Devadas D., (2003). Fluoride incidence in groundwater in an area of Peninsular India, Environ. Geol., 45, p. 243-251.
Susheela AK, (1999). Fluorosis management programme in India, Curr. Sci., 77, 1256-1259.
Susheela AK, Kumar A, Bhatnagar M, Bahadur M, (1993). Prevalence of endemic fluorosis with gastrointestinal manifestations in people living in some north-Indian villages. Fluoride 26, 97-104.
Szabolcs I. And Darab C., (1964). The influence of irrigation water of high sodium carbonate content of soils, In: Proc. Of 8th International Congress Of Isss, Trans, II, p. 803-812.
Taylor SR, MacLennan, (1985). The continental crust: its composition and evolution. Blackwell, Oxford.
Teotia SPS, Teotia M, (1984). Endemic fluorosis in India: challenging national health problem, J Assoc Phys India, 32, 347-352.
Todd D. K., (1980). Groundwater Hydrology, John Wiley and Sons, New York, p. 535.
Todd, D.K. and Mays, L.W. (2013). Groundwater Hydrology, John Wiley &Sons.
USSL, (1954). Diagnosis and improvement of Saline and Alkali solis, USDA Handbook, 60, p. 147.
World Bank Deep Wells and Prudence: Towards Pragmatic Action for Addressing Ground water Overexploitation in India, (2010) p.97.
World Bank Report India Groundwater: A Valuable But Diminishing Resource,Feature Story, (2012). March- 6.
WHO, (1971). International standards for drinking water, 3rdedn., Geneva, p. 70.
WHO, (2004). Guideline for drinking water quality. Recommendations, 3rdedn., WHO, Geneva.
World Health Organization, (2017). Guidelines for drinking water quality: fourth edition incorporating the first addendum. World Health Organization, Geneva, ed. (2017).
Wilcox L. V., (1948). Classification and use of irrigation waters, US. Department Of Agriculture, Circular 962, Washington DC.
Yufeng S, Fengxiang J (2009) Landslide stability analysis based on generalized information entropy. IntConf Environ SciInfAppl Technol 2:83–85
Yufeng S, Fengxiang J (2009) Landslide stability analysis based on generalized information entropy. IntConf Environ SciInfAppl Technol 2:83–85
Yufeng S, Fengxiang J (2009) Landslide stability analysis based on generalized information entropy. IntConf Environ SciInfAppl Technol 2:83–85
Zhang J, Huang WW, Letolle R, Jusserand C, (1995). Major element chemistry of the Huanghe (Yellow river), China-weathering processes and chemical fluxes, J Hydrol, 168, 173-203.