Development of Suitable Sites Assessment Criteria for Agricultural Subsurface Dam for drought Management using Analytic Hierarchy Process (AHP)
Myoung, Woo-Ho;Song, Sung-Ho;
Rural Research Institute, Korea Rural Community Corporation;Rural Research Institute, Korea Rural Community Corporation;
가뭄대비 농업용 지하댐 적지 평가 지표 개발 - 계층분석과정의 적용 -
명우호;송성호;
한국농어촌공사 농어촌연구원;한국농어촌공사 농어촌연구원;
References
1. Afifi, S. and Fuladipanah, M., 2015, Subsurface dam site selection using GIS (Case study: Chamsiab Plan, Masjedsoleyman, IRAN), India. J. Funda. Appl. Life Sci., 5(2), 566-571.
2. Ali, S. S., Al-Umary, F. A., Salar, G. S., Al-Ansari, N., Knutsson, S., 2014, Evaluation of selected site location for subsurface dam construction within Isayi watershed using GIS and RS Garmiyan Area, Kurdistan Region, J. Water Res. Protec., 6(11), 972-987.
3. Ali Jamali, I., Mortberg, U., Olofsson, B., Shafique, M., 2014, A spatial multi-criteria analysis approach for locating suitable sites for construction of subsurface dams in Northern Pakistan, Water Res. Manage., 28(14), 5157-5174.
4. Barkhordari. J., 2015, The pre-selection of suitable sites for small underground dams in arid areas using GIS (A case study in Yazd_Ardakan watershed), Int. Geoinfom. Res. Develop. J., 6(1), 18-27.
5. Dorfeshan, F., Heidarnejad, M., Bordbar, A., Daneshian, H., 2014, Locating suitable sites for construction of underground dams through analytic hierarchy process, International Conference on Earth, Environment and Life sciences (EELS-2014) Dec. 23-24, 2014 Dubai (UAE), 86-90.
6. Kim, S.M., Lee, S.I., Kim, B.C., 2004, Effective use of water resources through conjunctive use(II) Application, J. Korea Water Res. Assoc., 37(10), 799-812.
7. Lee, S.I., Kim, B.C., 2003, Site suitability analysis for underground dam using analytic hierarchy process, J. Soil Groundw. Environ., 8(4), 36-44.
8. Lee, S.I., Kim, B.C., Kim, S.M., 2004, Effective use of water resources through conjunctive use(I) The methodology, J. Korea Water Res. Assoc., 37(10), 789-798.
9. Lee, S.I., Lee, S.S., 2004, Development of site analysis system for conjunctive use of surface and ground water, Korea Water Resources Association Convention 14-15, May, 2004, 878-882.
10. MAFRA (Ministry of Agriculture, Food, and Rural Affairs), 2014, 10-year plan on rural water development (2015-2024).
11. MICT (Ministry of Construction and Transportation), KWRC (Korea Water Resources Corporation), 2002, Investigation report for development plan of subsurface dam.
12. Park, E.G., 2017, Development of optimum subsurface dam evaluation factor to secure groundwater for drought management, 2017 Conference of Soil and Groundwater Environment 19-20, October, 2017, Jeju, Korea.
13. Saaty, T., 1977, A scaling method for priorities in hierarchical structures, J. Math. Psych., 15(3), 234-281.
14. Saaty, T., 1980, The analytic hierarchy process, McGraw-Hill, New York.
15. Sehat, M., Kamanbedast A. A., Asdiloir, M., 2013, Zonning underground dams using GIS in Halayjan valley, Izeh-Iran, Tech. J. Eng. and Appl. Sci., 3, 3752-3756.
16. Yong, H.H., Song, S.H., Myoung, W.H., An, J.G., Hong, S.W., 2017, Current satus and applications of agricultural subsurface dams in Korea, J. Soil Groundw. Environ., 22(1), 18-26.