1.Aathira, S., Varma, D., Gayathry, T.J., Nimisha, K.J. and Ann, J.A. 2018. Identification of Ground Water Potential Zones Using GIS and Remote Sensing. International Journal of Current Engineering and Scientific Research, 5(4): 50-63.

2.Adithyan, D., Justin, J., Rose, M.M., Thushara, J. and Geeja, K.G. 2019. Identification of Groundwater Potential Zones at AMPRS, Odakkali using Remote Sensing and GIS. International Research Journal of Engineering and Technology, 6(4): 3295-3303.

3.Chaudary, B.S. and Kumar Sanjeev. 2018. Identification of ground water potential zone watershed by using remote sensing and GIS of Koshalya-Jhajhara watershed, India. Journal Geological Society of India, 91(1): 717-721.

4.Das, S. and Pardeshi, S.D. 2018. Integration of different influencing factors in GIS to delineate groundwater potential areas using IF and FR techniques: a study of Pravara basin, Maharashtra, India. Applied Water Science, 8(7): 197.

5.Debu Mukherjee. 2016. Review on artificial ground water recharge in India, SSRG-IJCE., 3(1).

6.Etikala, B., Golla, V., Li, P. and Renati, S. 2019. Deciphering groundwater potential zones using MIF technique and GIS: A study from Tirupati area, Chittoor District, Andhra Pradesh, India. Hydro Research, 1: 1-7.

7.Lazarus, G., Ndatuwong et al., Yadav, G.S. 2014. Integration of hydrogeological factors for Identification of Groundwater Potential Zones using Remote sensing and GIS technique. Journal of Geosciences and Geomatics, 2(1): 11-16.

8.Manap, M.A., Sulaiman, W.N.A., Ramli, M.F., Pradhan, B. and Surip, N. 2013. A knowledge-driven GIS modeling technique for groundwater potential mapping at the Upper Langat Basin, Malaysia. Arabian Journal of Geosciences, 6(5): 1621-1637.

9.Magesh, N.S., Chandrasekarn and John, P.S. 2012. Delineation of ground water potential zones in Theni district, Tamilnadu, using remote sensing and GIS and MIF techiques. Geoscience Frontiers, pp. 189-196.

10.Rajaveni, S.P., Brindha, K. and Elango, L. 2015. Geological and geomorphological controls on groundwater occurrence in a hard rock region. Applied Water Sci., 7(3): 1377–1389.

11.Ramu, M.B. and Vinay, M. 2014. Identification of ground water potential zones using GIS and Remote Sensing Techniques: A case study of Mysore taluk-Karnataka. Int. J. Geomatics. Geosci., 5: 393-403.

12.Shivaji, G.P. and Nitin Mahadeomohite. 2014. International Journal of Geomatics and Geo Science, 4(3).

13.Thapa, R., Gupta, S. and Kaur, H. 2017. Delineation of potential fluoride contamination zones in Birbhum, West Bengal, India, using remote sensing and GIS techniques. Arabian Journal of Geosciences, 10(23): 527.

14.Waikar, M.L., Aditya, P. and Nilawar. 2014. Identification of ground water potential zone using remote sensing and GIS technique, 3(5).

15.Yaswanth, Y.K., Satyanarayana Mooorthy, D.V. and Shanmukasrinivas, G. 2017. Identification of ground water potential zones using remote sensing and Geographical information system. IJCIRT., 8(3).

16.Yeh, H.F., Chengn, Y.S., Lin, H.I. and Lee, C.H. 2016. Mapping groundwater recharge potential zone using a GIS approach in Hualian River, Taiwan. Sustainable Environment Research, 26(1): 33-43.