Locating and Prioritizing Suitable Places for the Implementation of Artificial Groundwater Recharge Plans
Publication: Journal of Irrigation and Drainage Engineering
Volume 143, Issue 8
Abstract
Artificial groundwater recharge plans (AGRPs) have become central in surface water and groundwater management. This work proposes a two-stage approach for locating and prioritizing suitable sites for AGRP implementation. The two stages consist of (1) determining the effective criteria weights to develop thematic maps with geographic information system (GIS) with which to locate suitable sites for AGRP implementation, and (2) prioritizing the suitable identified sites for artificial groundwater recharge with the Nash conflict resolution method. This paper’s approach is applied in the Kerman Province, Iran, and the application results demonstrate that the most suitable sites for AGRPs are located in the western half of the province.
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Acknowledgments
This study was completed in the Research Center for Defensive Strategies with the purpose of improving the living conditions of the inhabitants of desert regions. The authors express their gratitude to the Center.
References
ArcGIS 10.1 [Computer software]. ESRI, Redlands, CA.
Adiat, K. A. N., Nawawi, M. N. M., and Abdullah, K. (2012). “Assessing the accuracy of GIS-based elementary multi criteria decision analysis as a spatial prediction tool—A case of predicting potential zones of sustainable groundwater resources.” J. Hydrol., 440(1), 75–89.
Amirkani, M., Bozorg-Haddad, O., Ashofteh, P.-S., and Loáiciga, H. A. (2016). “Determination of the optimal level of water releases from a reservoir to control water quality.” J. Hazard. Toxic Radioact. Waste, .
Basistha, A., Arya, D. S., and Goel, N. K. (2008). “Spatial distribution of rainfall in Indian Himalayas—A case study of Uttarakhand region.” Water Resour. Manage., 22(10), 1325–1346.
Chenini, I., Mammou, A. B., and El May, M. (2010). “Groundwater recharge zone mapping using GIS-based multi-criteria analysis: A case study in central Tunisia (Maknassy basin).” Water Resour. Manage., 24(5), 921–939.
Chopra, R., and Sharma, P. K. (1993). “Landform analysis and ground water potential in the Bist Doab area, Punjab, India.” Int. J. Remote Sens., 14(17), 3221–3229.
Chowdhury, A., Jha, M. K., and Chowdary, 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.” Environ. Earth Sci., 59(6), 1209–1222.
Department of Soil and Water Ministry of Agriculture. (2014). “GIS database information layers.” Karaj, Alborz, Iran.
Feizizadeh, B., Jankowski, P., and Blaschke, T. (2014). “A GIS based spatially-explicit sensitivity and uncertainty analysis approach for multi-criteria decision analysis.” Comput. Geosci., 64(1), 81–95.
Garcia, J. L., Alvarado, A., Blanco, J., Jiménez, E., Maldonado, A. A., and Cortés, G. (2014). “Multi-attribute evaluation and selection of sites for agricultural product warehouses based on an analytic hierarchy process.” Comput. Electron. Agric., 100(1), 60–69.
Ghayoumian, J., Ghermezcheshme, B., Feiznia, S., and Noroozi, A. A. (2005). “Integrating GIS and DSS for identification of suitable areas for artificial recharge, case study Meimeh Basin, Isfahan, Iran.” Environ. Geol., 47(4), 493–500.
Harsanyi, J. C., and Selten, R. (1972). “A generalized Nash solution for two-person bargaining games with incomplete information.” Manage. Sci., 18(5-part-2), 80–106.
Iran Census Bureau. (2015). “Journals database of Kerman province.” Tehran, Iran.
Jha, M. K., Chowdary, V. M., and Chowdhury, A. (2010). “Groundwater assessment in Salboni block, West Bengal (India) using remote sensing, geographical information system and multi-criteria decision analysis techniques.” Hydrogeol. J., 18(7), 1713–1728.
Kalantari, N., Rangzan, K., Thigale, S. S., and Rahimi, M. H. (2010). “Site selection and cost-benefit analysis for artificial recharge in the Baghmalek plain, Khuzestan province, southwest Iran.” Hydrogeol. J., 18(3), 761–773.
Kaliraj, S., Chandrasekar, N., and Magesh, N. S. (2014). “Identification of potential groundwater recharge zones in Vaigai upper basin, Tamil Nadu, using GIS-based analytical hierarchical process (AHP) technique.” Arabian J. Geosci., 7(4), 1385–1401.
Kerman Regional Water Company. (2008). “Integrated water resources management and planning in the central basin of Kerman.” Kerman, Iran.
Krishnamurthy, J., and Srinivas, G. (1995). “Role of geological and geomorphological factors in ground water exploration: A study using IRS LISS data.” Int. J. Remote Sens., 16(14), 2595–2618.
Krishnamurthy, J., Venkatesa Kumar, N., Jayaraman, V., and Manivel, M. (1996). “An approach to demarcate ground water potential zones through remote sensing and a geographical information system.” Int. J. Remote Sens., 17(10), 1867–1884.
Loáiciga, H. A. (2004). “Sustainable groundwater management: The theory of a game.” Proc., World Water and Environmental Resources Congress, ASCE, Reston, VA, 1–10.
Loáiciga, H. A. (2016). “The safe yield and climatic variability: Implications for groundwater management.” Groundwater, 1–12.
Madani, K., and Zarezadeh, M. (2012). “Bankruptcy methods for resolving water resources conflicts.” Proc., 2012 World Environmental and Water Resources Congress, Albuquerque, NM, 2247–2252.
Magesh, N. S., Chandrasekar, N., and Soundranayagam, J. P. (2012). “Delineation of groundwater potential zones in Theni district, Tamil Nadu, using remote sensing, GIS and MIF techniques.” Geosci. Front., 3(2), 189–196.
Mahmoud, S. H., and Alazba, A. A. (2014). “Identification of potential sites for groundwater recharge using a GIS-based decision support system in Jazan region-Saudi Arabia.” Water Resour. Manage., 28(10), 3319–3340.
Malekmohammadi, B., Mehrian, M. R., and Jafari, H. R. (2012). “Site selection for managed aquifer recharge using fuzzy rules: Integrating geographical information system (GIS) tools and multi-criteria decision making.” Hydrogeol. J., 20(7), 1393–1405.
Mehrvarz, K., and Kalantari Oskouei, A. (2007). “Investigation of quaternary deposits suitable for floodwater spreading.” Proc., Int. Congress of River Basin Management, General Directorate of State Hydraulic Works, Turkey, 572–582.
Mishra, A. K., Deep, S., and Choudhary, A. (2015). “Identification of suitable sites for organic farming using AHP & GIS.” Egypt. J. Remote Sens. Space Sci., 18(2), 181–193.
Rahman, M. A., Rusteberg, B., Gogu, R. C., Ferreira, J. L., and Sauter, M. (2012). “A new spatial multi-criteria decision support tool for site selection for implementation of managed aquifer recharge.” J. Environ. Manage., 99(1), 61–75.
Ramalingam, M., and Santhakumar, A. R. (2000). “Case study on artificial recharge using remote sensing and GIS.” Proc., Map India, 3rd Int. Conf. and Exhibition on GIS, GPS and RS, New Delhi, India, 10–11.
Raquel, S., Ferenc, S., Emery, C., and Abraham, R. (2007). “Application of game theory for a groundwater conflict in Mexico.” J. Environ. Manage., 84(4), 560–571.
Saaty, T. L. (1977). “A scaling method for priorities in hierarchical structures.” J. Math. Psychol., 15(3), 234–281.
Saaty, T. L. (1980). The analytic hierarchy process: Planning, priority setting, resource allocation, McGraw-Hill, New York.
Samadder, R. K., Kumar, S., and Gupta, R. P. (2011). “Paleochannels and their potential for artificial groundwater recharge in the western Ganga plains.” J. Hydrol., 400(1), 154–164.
Saraf, A. K., and Choudhury, P. R. (1998). “Integrated remote sensing and GIS for groundwater exploration and identification of artificial recharge sites.” Int. J. Remote Sens., 19(10), 1825–1841.
Sargaonkar, A. P., Rathi, B., and Baile, A. (2011). “Identifying potential sites for artificial groundwater recharge in sub-watershed of river Kanhan, India.” Environ. Earth Sci., 62(5), 1099–1108.
Shaban, A., Khawlie, M., and Abdallah, C. (2006). “Use of remote sensing and GIS to determine recharge potential zones: The case of Occidental Lebanon.” Hydrogeol. J., 14(4), 433–443.
Shankar, M. R., and Mohan, G. (2005). “A GIS based hydrogeomorphic approach for identification of site-specific artificial-recharge techniques in the Deccan Volcanic province.” J. Earth Syst. Sci., 114(5), 505–514.
Wang, G. L., Huang, L. L., and Liang, G. H. (2012). “Application of a multi-person and multi-objective decision-making model in groundwater resources management.” J. Hydrol. Eng., 389–393.
Zaidi, F. K., Nazzal, Y., Ahmed, I., Naeem, M., and Jafri, M. K. (2015). “Identification of potential artificial groundwater recharge zones in Northwestern Saudi Arabia using GIS and Boolean logic.” J. Afr. Earth Sci., 111(1), 156–169.
Zehtabian, G. R., Alavipanah, S. K., and Hamedpanah, R. (2001). “Determination of an appropriate area for flood water spreading by remote sensing data and GIS.” Proc., Int. Conf. on New Technology for a New Century, International Federation of Surveyors, Copenhagen, Denmark, 1–6.
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©2017 American Society of Civil Engineers.
History
Received: Mar 11, 2016
Accepted: Jan 3, 2017
Published ahead of print: Apr 19, 2017
Published online: Apr 20, 2017
Published in print: Aug 1, 2017
Discussion open until: Sep 20, 2017
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