[[1] Sener, B., Suzen, M.L., Doyuran, V.(2006): Landfill site selection by using geographic information systems. Environ Geol 49, 376-388. DOI: 10.1007/s00254-005-0075-2.10.1007/s00254-005-0075-2]Search in Google Scholar
[[2] Tchobanoglous, G., Kreith, F. (2002): Handbook of solid waste management. McGraw Hill, New York.]Search in Google Scholar
[[3] Kouznetsova, M., Hauang, X., Ma, J., Lessner, L., Carpenter, D. (2007): Increased rate of hospitalization for diabetes and residential proximity of hazardous waste sites. Environmental Health Perspectives 115, 75.10.1289/ehp.9223]Search in Google Scholar
[[4] Kao, J.J., Lin, H. (1996): Multifactor spatial analysis for landfill siting. J Environ Eng, 122(10), pp. 902-908.10.1061/(ASCE)0733-9372(1996)122:10(902)]Search in Google Scholar
[[5] Lober, D.J. (1995): Resolving the siting impasse: modeling social and environmental locational criteria with a geographic information system. J Am PlannAssoc, 61(4), pp. 482-495.10.1080/01944369508975659]Search in Google Scholar
[[6] Erkut, E., Moran, S.R. (1991): Locating obnoxious facilities in the public sector: an application of the hierarchy process to municipal landfill siting decisions. SocioeconPlannSci, 25(2), pp. 89-102.10.1016/0038-0121(91)90007-E]Search in Google Scholar
[[7] Chiueh, P.T., Lo, S.L., Chang, C.L. (2008): A GIS-based system for allocating municipal solid waste incinerator compensatory fund. Waste Management, 28, pp. 2690-2701.10.1016/j.wasman.2008.01.006]Search in Google Scholar
[[8] Ishizaka, K., Tanaka, M. (2003): Resolving public conflict in site selection process - risk communication approach. Waste Management, 23, pp. 385-396.10.1016/S0956-053X(03)00094-1]Search in Google Scholar
[[9] Kontos, T.D., Komilis, D.P., Halvadakis, C.P. (2003): Siting MSW landfills on Lesvos Island with a GIS based methodology. Waste Management & Research, 21, pp. 262-277.10.1177/0734242X030210031012870646]Search in Google Scholar
[[10] Anifowose Y.B., Omole K.E., Akingbade O. (2011): Waste Disposal Site Selection using Remote Sensing and GIS: A Study of Akure and its Environs, Southwest- Nigeria. Proceedings of the Environmental Management Conference, Federal University of Agriculture.]Search in Google Scholar
[[11] Malczewski, J. (1997):. Propagation of errors in multicriteria location analysis: a case study. In: Fandel G, Gal T (eds) Multiple criteria decision making. Springer, Berlin Heidelberg New York, pp. 154-155.10.1007/978-3-642-59132-7_17]Search in Google Scholar
[[12] Saaty, T.L. (2008): Decision making with Analytic Hierarchy Process. Int. J. Services Sciences, 1(1), p. 16.10.1504/IJSSCI.2008.017590]Search in Google Scholar
[[13] Evans, A.J., Kingston, R., Carver, S. (2004): Democratic input into the nuclear waste disposal problem: the influence of geographical data on decision making examined through a web-based GIS. Journal of Geographical Systems, 6, pp. 117-132.10.1007/s10109-004-0128-1]Search in Google Scholar
[[14] Jankowski, P., Robischon, S., Tuthill, D., Nyerges, T., Ramsey, K. (2006): Design considerations and evaluations of a collaborative, spatio-temporal decision support system. Transactions in GIS, 10, pp. 335-354.10.1111/j.1467-9671.2006.01001.x]Search in Google Scholar
[[15] Makropoulos, C., Butler, D., Maksimovic, C.(2003): A fuzzy logic spatial decision support system for urban water management. Journal of Water Resources Planning and Management, 129, pp. 69-77.10.1061/(ASCE)0733-9496(2003)129:1(69)]Search in Google Scholar
[[16] Anifowose, A.Y. B., Aladejana, O. O (2015):Evaluation of Groundwater Potential of a Basement Complex Environment Using Geoinformation Technology (A Framework for Water Development in Developing Countries). GEO OBSERVATEUR, NO 22, Journal of Moroccan Centre for Remote Sensing, Rabat, Morocco, pp. 17-28.]Search in Google Scholar
[[17] Jankowski, P. (2000): Collaborative spatial decision making in environmental restoration management: an experimental approach. Journal of Hydroinformatics, 2, pp. 197-206.10.2166/hydro.2000.0017]Search in Google Scholar
[[18] Boroushaki, S., Malczewski, J. (2010): Using the fuzzy majority approach for GIS based multicriteria group decision-making. Computers and Geosciences, 36, pp. 302-312.10.1016/j.cageo.2009.05.011]Search in Google Scholar
[[19] Jiang, H., Eastman, R.J. (2000): Application of fuzzy measures in multi-criteria evaluation in GIS. International Journal of Geographical Information Systems, 14, pp. 173-184.10.1080/136588100240903]Search in Google Scholar
[[20] Malczewski, J., (2006): Ordered weighted averaging with fuzzy quantifiers: GIS-based multicriteria evaluation for land-use suitability analysis. International Journal of Applied Earth Observation and Geoinformation, 8, pp. 270-277.10.1016/j.jag.2006.01.003]Search in Google Scholar
[[21] Gorsevski, P.V., Jankowski, P. (2010): An optimized solution of multi-criteria evaluation analysis of landslide susceptibility using fuzzy sets and Kalman filter. Computers and Geosciences, 36, pp. 1005-1020.10.1016/j.cageo.2010.03.001]Search in Google Scholar
[[22] Gorsevski, P.V., Jankowski, P., Gessler, P.E. (2006):An heuristic approach for mapping landslide hazard by integrating fuzzy logic with analytic hierarchy process. Control and Cybernetics, 35, pp. 121-146.]Search in Google Scholar
[[23] Chang, N.B., Parvathinathan, G., Breedenc, J.B. (2008): Combining GIS with fuzzy multicriteria decision- making for landfill siting in a fast-growing urban region. Journal of Environmental Management, 87, pp. 139-153.10.1016/j.jenvman.2007.01.01117363133]Search in Google Scholar
[[24] Delgado, B.O., Mendoza, M., Lopez-Granados, E., Geneletti, D. (2008): Analysis of land suitability for the siting of inter-municipal landfills in the Cuitzeo Lake Basin, Mexico. Waste Management, 28, pp. 1137-1146.10.1016/j.wasman.2007.07.00217869499]Search in Google Scholar
[[25] Geneletti, D. (2010): Combining stakeholder analysis and spatial multicriteria evaluation to select and rank inert landfill sites. Waste Management, 30, pp. 328-337.10.1016/j.wasman.2009.09.03919853431]Search in Google Scholar
[[26] Moeinaddini, M., Khorasani, N., Danehkar, A., Darvishsefat, A.A., Zienalyan, M. (2010):Siting MSW landfill using weighted linear combination and analytical hierarchy process (AHP) methodology in GIS environment (case study: Karaj). Waste Management, 30, pp. 912-920.10.1016/j.wasman.2010.01.015]Search in Google Scholar
[[27] Nema, K.M., Gupta, S.K. (1999): Optimization of regional hazardous wastemanagement systems: an improved formulation. Waste Management, 19, pp. 441-451.10.1016/S0956-053X(99)00241-X]Search in Google Scholar
[[28] Zamorano, M., Molero, E., Hurtado, A., Grindlay, A., Ramos, A. (2008): Evaluation of a municipal landfill site in Southern Spain with GIS-aided methodology. Journal of Hazardous Materials, 160, pp. 473-481.10.1016/j.jhazmat.2008.03.02318423853]Search in Google Scholar
[[29] Ahmad, A., Bayen, A., Akihiko, K. (2011):Using GISBased Weighted Linear Combination Analysis and Remote Sensing Techniques to Select Optimum Solid Waste Disposal Sites within Mafraq City, Jordan. Journal of Geographic Information System, 3, pp. 267-278.10.4236/jgis.2011.34023]Search in Google Scholar
[[30] Shahabi. H., Allahvirdiasl, H., Ali zadeh. M. (2012): Application of GIS Models in Site selection of waste disposal in Urban Area. IOSR Journal of Applied Physics (IOSRJAP), 1(6), p. 0107.10.9790/4861-0160107]Search in Google Scholar
[[31] Adeofun C.O., Achi H.A., Ufoegbune G.C., Gbadebo A.M. Oyedepo J.A. (2011): Application of Remote Sensing and Geographic Information System for selecting Dumpsites and Transport Routes in Abeokuta, Nigeria. Proceedings of the Environmental Management Conference, Federal University of Agriculture, Abeokuta, Nigeria.]Search in Google Scholar
[[32] Muhammed, M., Oyebode, T.S., Bello, A.H., Bako, M.M. (2015): Mapping and Identification of Suitable Dumping Sites for Solid Waste Management in Gwagwalada Area Council of the F.C.T. Nigeria. Journal of Environment and Earth Science, 5(17), pp. 154-161.]Search in Google Scholar
[[33] Oyinloye, M.A., Fasakin, J.O. (2013): Application of Geographical Information System (GIS) for Siting and Management of Solid Waste Disposal in Akure, Nigeria. IOSR Journal of Environmental Science, Toxicology and Food Technology, 4(2), pp. 06-17.10.9790/2402-0420617]Search in Google Scholar
[[34] Babalola. A., Busu. I. (2011): Selection of Landfill Sites for Solid Waste Treatment in Damaturu Town Using GIS Techniques. Journal of Environmental Protection, pp. 2-10.10.4236/jep.2011.21001]Search in Google Scholar
[[35] Olusina J.O., Shyllon, D.O. (2014): Suitability Analysis in Determining Optimal Landfill Location Using Multi-Criteria Evaluation (MCE), GIS & Remote Sensing. International Journal of Computational Engineering Research, 4(6), pp. 7-20.]Search in Google Scholar
[[36] Rahaman, M.A. (1988): Recent Advances in the study of the basement complex of Nigeria. In: (Ed) Precambrian Geol Nigeria. Geological Survey of Nigeria, pp. 11-43. ]Search in Google Scholar
[[37] Dada, S.S. (2006): Proterozoic Evolution of Nigeria. In: Oshin. O (Ed) The Basement Complex of Nigeria and its mineral resources (A Tribute to Prof. M.A.O. Rahaman). AkinJinad & Co. Ibadan, pp. 29-44.]Search in Google Scholar
[[38] Rahaman, M.A. (1974): Review of the Basement Geology of South Western Nigeria. In: Kogbe CA (Ed) Geology of Nigeria. Elizabethan Publishing, Lagos, pp. 41-58.]Search in Google Scholar
[[39] Smyth, A.J., Montgomery, R.F. (1962): Soils and Land use in central western Nigeria. The Government Printers Ibadan, Western Nigeria, 265p.]Search in Google Scholar
[[40] Environmental Protection Agency. (2006):EPA Landfill Manuals, Manual on Site Selection.]Search in Google Scholar
[[41] Saaty, T.L. (1980): The analytic hierarchy process, McGraw- Hill, New York.10.21236/ADA214804]Search in Google Scholar
[[42] Coyle, G. (2004): The Analytic Hierarchy Process (AHP). In Practical Strategy. Pearson Education Limited.]Search in Google Scholar
[[43] Sani Y., Noordin A., Ranya F.A. (2010):Multicriteria analysis for flood vulnerable areas in Hadejia-Jama’ are river basin, Nigeria; European J. Sci. Res., 42(1), pp. 71-83.]Search in Google Scholar
[[44] Mallast, U., Gloaguen, R., Geyer, S., Rödiger, T., Siebert, C. (2011): Derivation of groundwater flow-paths based on semi-automatic extraction of lineaments from remote sensing data. Hydrology and Earth System Sciences. Doi: 10.5194/hess-15-2665-2011.10.5194/hess-15-2665-2011]Search in Google Scholar
[[45] Edet, A.E., Okereke, C.S., Teme, S.C., Esu, E.O. (1998): Application of remote sensing data to groundwater exploration: a case study of the cross-river state, Southeastern Nigeria. Hydrogeol J., 6, pp. 394-404.10.1007/s100400050162]Search in Google Scholar
[[46] Mogaji, K.A., Omosuyi, G.O., Adelusi, A.O., Lim, H.S. (2016): Application of GIS-Based Evidential Belief Function Model to Regional Groundwater Recharge Potential Zones Mapping in Hardrock Geologic Terrain. Environ. Process. 3:93-123. DOI 10.1007/ s40710-016-0126-6.10.1007/s40710-016-0126-6]Search in Google Scholar
[[47] Mogaji, K.A., Aboyeji, O.S., Omosuyi, G.O. (2011): Mapping of lineaments for groundwater targeting in the basement complex region of Ondo State, Nigeria, using Remote Sensing and Geographic Information System (GIS) Techniques. International Journal of Water Resources and Environmental Engineering, 3(7), pp. 150-160.]Search in Google Scholar
[[48] Zevenbergen, L.W., Thorne, C.R. (1987): Quantitative analysis of land surface topography. Earth Surface Processes and Landforms, 12, pp. 12-56. 10.1002/esp.3290120107]Search in Google Scholar