References

  1. S.R. Dains, J.R. Pawar, Economic Return to Irrigation in India, New Delhi, Report prepared by SDR Research Group Inc., For the U.S. Agency for International Development, 1987.
  2. H.M. Ragunath, Groundwater Publications, Wiley, 2006.
  3. D. Maidment, D. Djokic, Hydrologic and Hydraulic Modeling Support with Geographic Information System, ESRI Press, Redland, 2000.
  4. H. Bouwer, Artificial Recharge of Groundwater: Systems, Design, and Management, in Hydraulic Design Handbook, McGraw-Hill, New York, 1999.
  5. J. Ghayoumian, M. Mohseni-Saravi, S. Feiznia, B. Nouri, A. Malekian, Application of GIS techniques to determine areas most suitable for artificial groundwater recharge in a coastal aquifer in southern Iran, J. Asian Earth Sci., 30 (2007) 364–374.
  6. D.W. Risser, R.W. Conger, J.E. Ulrich, V. Asmussen, Estimates of Groundwater Recharge Based on Stream-Flow-Hydrograph Methods: Pennsylvania, U.S. Geological Survey, Reston, VA, USA, 2005.
  7. M.I. Gale, Techniques for Management of Aquifer Recharge in arid and Semi-arid Regions, in Proc. Regional Workshop on Management of Aquifer Recharge and Water Harvesting in Arid and Semi-arid Regions of Asia, UNESCO Sponsored Workshop in Yazd, Iran, 2005.
  8. A.K. Saraf, P.R. Choudhury, Integrated Remote Sensing and GIS for groundwater exploration and identification of artificial sites, Int. J. Remote Sens., 19 (1998) 1825–1841.
  9. E. Sener, S. Sener, A. Davraz, Assessment of aquifer vulnerability based on GIS and DRASTIC methods: a case study of the Senirkent–Uluborlu basin (Isparta, Turkey), Hydrogeol. J., 17 (2009) 2023–2035.
  10. F.M. Howari, M.M. Sherif, V.P. Singh, M.S. Al Asam, Application of GIS and remote sensing techniques in identification, assessment and development of groundwater resources, Groundwater Resource, Augmentation, Contamination Restoration, Modeling and Management, Springer, India, 2007, pp. 1–25.
  11. J. Krishnamurthy, N. Venkatesa Kumar, V. Jayaraman, M. Manivel, An approach to demarcate groundwater potential zones through remote sensing and a geographical information system, Int. J. Remote Sens., 17 (1996) 1867–1884.
  12. L.W. Martz, J. Garbrecht, Numerical Definition of drainage networks and sub catchment areas from digital elevation models, Comput. Geosci., 18 (1992) 747–761.
  13. M. Nagarajan, S. Singh, Assessment of groundwater potential zones using GIS technique, J. Indian Soc. Remote Sens., 37 (2009) 69–77.
  14. R.K. Jaiswal, S. Mukherjee, J. Krishnamurthy, R. Saxena, Role of remote sensing and GIS techniques for generation of groundwater prospect zones towards rural development: an approach, Int. J. Remote Sens., 24 (2003) 993–1008.
  15. S.O. Tweed, M. Leblanc, J.A. Webb, M.W. Lubczynski, Remote sensing and GIS for mapping groundwater recharge and discharge areas in salinity prone catchments, southeastern Australia, Hydrogeol. J., 15 (2007) 75–96.
  16. Z. Han, Groundwater resources protection and aquifer recovery in China, Environ. Geol., 44 (2003) 106–111.
  17. B. Hutti, R. Nijagunappa, Identification of Groundwater Potential Zone using Geoinformatics in Ghataprabha basin, North Karnataka, India, Int. J. Geomat. Geosci., 2 (2011) 91–109.
  18. D. Oikonomidis, A GIS/Remote Sensing-based methodology for groundwater potentiality assessment in Tirnavos area, Greece, J. Hydrol., 525 (2015) 197–208.
  19. M. Gupta, P.K. Srivastava, Integrating GIS and remote sensing for identification of groundwater potential zones in hilly terrain of Pavagarh, Gujarat, India, Water Int., 35 (2010) 233–245.
  20. D. Balachandar, P. Alaguraja, P. Sundaraj, K. Rutharvelmurthy, K. Kumaraswamy, Application of Remote Sensing and GIS for Artificial Recharge Zone in Sivaganga District, Tamil Nadu, India, Int. J. Geomat. Geosci., 1 (2010) 84–97.
  21. N.S. Magesh, N. Chandrasekar, John Prince Soundranayagam, Delineation of groundwater potential zones in Theni district, Tamil Nadu, using remote sensing, GIS and MIF techniques, Geosci. Front., 3 (2012) 189–196.
  22. N. Thilagavathi, T. Subramani, M. Suresh, D. Karunanidhi, Mapping of groundwater potential zones in Salem Chalk Hills, Tamil Nadu, India using Remote Sensing and GIS Techniques, Environ. Monit. Assess., 187 (2015) 164–172.
  23. S.K. Nag, S. Ray, Deciphering groundwater potential zones using geospatial technology: a study in Bankura Block I and Block II, Bankura District, West Bengal, Arab. J. Sci. Eng., 40 (2015) 205–214.
  24. T.L. Saaty, Decision making with the analytic hierarchy process, Int. J. Serv. Sci., 1 (2008) 83–98.
  25. T.L. Saaty, How to make a decision: the analytic hierarchy process, Eur. J. Oper. Res., 48 (1990) 9–26.
  26. A. Chowdhury, M.K. Jha, V.M. Chowdary, B.C. Mal, Integrated Remote Sensing and GIS based approach for assessing groundwater potential in West Medinipur district, West Bengal, India, Int. J. Remote Sens., 30 (2009) 231–250.
  27. M.K. Jha, A. Chowdhury, V.M. Chowdary, S. Peiffer, Groundwater management and development by integrated remote sensing and geographic information systems: prospects and constraints, Water Resour. Manage., 21 (2007) 427–467.
  28. W.P. Chen, C.H. Lee, Estimating ground-water recharge from stream-flow records, Environ. Geol., 44 (2003) 257–265.
  29. A.K. Singh, B. Parkash, P.R. Choudhury, Integrated use of SRM, Landsat ETM+data and 3D perspective views to identify the tectonic geomorphology of Dehradun valley, India, Int. J. Remote Sens., 28 (2007) 2403–2414.
  30. F. Quiel, Groundwater study using remote sensing and geographic information systems (GIS) in the central highlands of Eritrea, Hydrogeol. J., 14 (2006) 1029–1041.
  31. P. Mukherjee, C.K. Singh, S. Mukherjee, Delineation of groundwater potential zones in arid region of India—a remote sensing and GIS approach, Water Resour. Manage., 26 (2012) 2643–2672.
  32. P. Waters, P. Greenbaum, L. Smart, H. Osmaston, Applications of remote sensing to groundwater hydrology, Remote Sens. Rev., 4 (1990) 223–264.
  33. P. Doll, B. Lehner, F. Kaspar, Global Modeling of Groundwater Recharge, in Proc. 3rd International Conference on water resources and the environment research, Technical University of Dresden, Germany, 1 (2002) 27–33.
  34. J. Garbrecht, L.W. Martz, The assignment of drainage direction over flat surfaces in raster digital elevation models, J. Hydrol., 193 (1997) 204–213.
  35. J. Malczewski, GIS and Multicriteria Decision Analysis, Wiley, United States of America, 1999.
  36. J. Mallick, C.K. Singh, H. Al-Wadi, M. Ahmed, A. Rahman, S. Shashtri, S. Mukherjee, Geospatial and geostatistical approach for groundwater potential zone delineation, Hydrol. Proc., 29 (2015) 395–418.
  37. S.K. Nag, P. Ghosh, Delineation of groundwater potential zone in Chhatna Block, Bankura District, West Bengal, India using remote sensing and GIS techniques, Environ. Earth Sci., 70 (2013) 2115–2127.