___

• Adebayo, W.O. 1993. Weather and climate. In: Ado-Ekiti region; A geographical analysis and master plan. Ebisemiju, F.S. (Ed.). Lagos, Alpha Prints, pp.11- 14.
• Agbede, T.M., Ojeniyi, S.O., 2009. Tillage and poultry manure effects on soil fertility and sorghum yield in southwestern Nigeria. Soil Tillage Research 104(1): 74-81.
• Amini, M., Abbaspour, K. C., Khademi, H., Fathianpour, N., Afyuni, M., Schulin, R., 2005. Neural network models to predict cation exchange capacity in arid regions of Iran. European Journal of Soil Science, 56: 551–559.
• Bayer, C., Bertol, I., 1999. Soil chemical characteristics of a humic cambisol as affected by tillage systems in southern brazil, with emphasis on soil organic matter. Revista Brasileira de Ciência do Solo 23(3): 687–694. [in Portuguese]
• Bell, M.A., van Keulen, J., 1995. Soil pedotransfer functions for four Mexican soils. Soil Science Society of America Journal 59(3): 865-871.
• Blake, G.R., Hartge, K.H., 1986. Bulk density. In: Methods of Soil Analysis: Part 1. Physical and mineralogical methods, 2nd Edition. Klute, A. (Ed.), ASA-SSSA, Madison, WI, USA. pp. 363-375.
• Breeuwsma, A., Wösten, J.H.M., Vleeshouwer, J.J., van Slobbe, A.M., Bouma, J., 1986. Derivation of land qualities to assess environmental problems from soil surveys. Soil Science Society of America Journal 50(1): 186–190.
• Danielson, R.E., Sutherland, P.L., 1986. Porosity. In: Methods of Soil Analysis: Part 1. Physical and mineralogical methods, 2nd Edition. Klute, A. (Ed.), ASA-SSSA, Madison, WI, USA. pp. 443-461.
• Drake, E.H., Motto, H.L., 1982. An analysis of the effect of clay and organic matter content on the cation exchange capacity of New Jersey soils. Soil Science 133(5): 281-288.
• EKSG, 2009. Ekiti State Government. Diagnostic Survey Report. UNAAB-IFSERAR.
• Available at: http://www.unaab.edu.ng/attachments/EkitiState.pdf [access date: 10.12.2015]
• FAO, 1998. World reference base for soil resources. Food and Agriculture Organization of The United Nations. FAO World Soil Resources Reports No. 84. Rome, Italy
• FAO. 2005. The importance of soil organic matter. Key to drought-resistant soil and sustained food production. Food and Agriculture Organization of The United Nations. FAO Soils Bulletin No. 80. Rome, Italy
• Fasinmirin, J.T., Olorunfemi, I.E., 2012. Comparison of hydraulic conductivity of soils of the forest vegetative zone of Nigeria. Applied Tropical Agriculture 17(1): 64 – 77.
• Harada, Y., Inoko, A., 1975. Cation-exchange properties of soil organic matter. I. Effects of conditions for the measurement on cation-exchange capacity values of humic acid preparations. Soil Science and Plant Nutrition 21(4): 361-369.
• Ibitoye, A.A., 2006. Laboratory manual on basic soil analysis. 2nd Edition, Foladave Publishing Company, Akure, Ondo State, Nigeria. 82 pp.
• Kamprath, E.J., Welch, C.D., 1962. Retention and cation-exchange properties of organic matter in coastal plain soils. Soil Science Society of America Journal 26(3): 263-265.
• Krogh, L., Breuning-Madsen, H., Greve, M.H., 2000. Cation exchange capacity pedotransfer function for Danish soils. Acta Agriculturae Scandinavica, Section B- Soil & Plant Science 50: 1-12.
• Li, Y.Y., Shao, M.A., 2006. Change of soil physical properties under long-term natural vegetation restoration in the Loess Plateau of China. Journal of Arid Environments 64(1): 77–96.
• Manrique, L.A., Jones, C.A., Dyke, P.T., 1991. Predicting cation-exchange capacity from soil physical and chemical properties. Soil Science Society of America Journal 55(3): 787- 794.
• Martel Y.A., Kimpe C.R.D., Laverdiere, M.R. 1978. Cation-exchange capacity of clay-rich soils in relation to organic matter, mineral composition and surface area. Soil Science Society of America Journal 42(5): 764-767.
• McBratney, A.B., Minasny, B., Cattle, S.R., Vervoort, R.W. 2002. From pedotransfer functions to soil inference systems. Geoderma 109(1-2): 41–73.
• Miller, W.F., 1970. Inter-regional predictability of cation- exchange capacity by multiple regression. Plant and Soil 33(1): 721-725.
• Minasny, B., Hopmans, J.W., Harter, T., Eching, S.O., Tuli, A., Denton, M.A., 2004. Neural networks prediction of soil hydraulic functions for alluvial soils using multistep outflow data. Soil Science Society of America Journal 68(2): 417–429.
• Minasny, B., McBratney, A.B., 2002. The Neuro-m method for fitting neural network parametric pedotransfer functions. Soil Science Society of America Journal 66(2): 352–361.
• Nelson, D.W., Sommers, L.E., 1996. Total carbon, organic carbon and organic matter. In: Methods of Soil Analysis, Part 3. Chemical Methods. Sparks, D.L. (Ed.),2nd ed., SSSA-ASA. Madison, Wisconsin, USA. pp. 961–1010.
• Olorunfemi, I. E. 2014. Occurrence, causes, and impacts of hydrophobicity on soils of different land uses in Ekiti State. (M.Eng Thesis). Federal University of Technology, Akure, Nigeria.
• Parfitt R.L., Giltrap D.J., Whitton J.S. 1995. Contribution of organic matter and clay minerals to the cation exchange capacity of soils. Communications in Soil Science and Plant Analysis 26(9-10): 1343-1355.
• Price, K., Jackson, C.R., Parker, A.J., 2010. Variation of surficial soil hydraulic properties across land uses in the southern Blue Ridge Mountains, North Carolina, USA. Journal of Hydrology 383(3-4): 256–268.
• Reeuwijk, L.P., 2002. Procedures for soil analysis. Technical Paper 9. 6th Edition. International Soil Reference and Information Centre (ISRIC) & Food and Agricultural Organization of the United Nations (FAO). Wageningen, The Netherlands.
• Rashidi, M., Seilsepour, M., 2008. Modeling of soil cation exchange capacity based on soil organic carbon. ARPN Journal of Agricultural and Biological Science 3(4):41-45.
• Sahrawat, K.L., 1983. An analysis of the contribution of organic matter and clay to cation exchange capacity of some Philippine soils. Communications in Soil Science and Plant Analysis 14(9): 803-809.
• Senjobi, B.A., Ogunkunle, O.A., 2010. Effect of land use on soil degradation and soil productivity decline on alfisols and ultisols in Ogun State in South Western, Nigeria. Agriculturae Conspectus Scientificus 75(1): 9-19.
• Senjobi, B.A., Ogunkunle, A.O., 2011. Effect of different land use types and their implications on land degradation and productivity in Ogun State, Nigeria. Journal of Agricultural Biotechnology and Sustainable Development 3(1): 7-18.
• Simon-Oke, O.O., Jegede, A.O., 2012. Spatial distribution of micro finance institutions and agricultural development in Ekiti State, Nigeria. AFRREV IJAH: An International Journal of Arts and Humanities 1(3): 258-269.
• Smyth, A.J., Montgomery, R.F., 1962. Soil and Land Use in Central Western Nigeria. Government Printer, Ibadan, p. 265.
• Sumner, M.E., 2000. Handbook of soil science. CRC Press, Boca Raton. Washington DC, USA. pp. S591.H23.
• Viji, R., Rajesh, P.P., 2011. Assessment of water holding capacity of major soil series of Lalgudi, Trichy, India. Journal of Environmental Research and Development 7(1A)
• Vogelmann, E. S., Reichert, J.M., Reinert, D. J. Mentges, M.I., Vieira, D. A., Peixoto de Barros, C. A., Fasinmirin, J.T., 2010. Water repellency in soils of humid subtropical climate of Rio Grande do Sul, Brazil. Soil and Tillage Research 110(1): 126–133.
• Wösten, J.H.M., Finke, P.A., Jansen, M.J.W., 1995. Comparison of class and continuous pedotransfer functions to generate soil hydraulic characteristics. Geoderma 66(3-4): 227–237.
• Yuan, T.L., Gammon, N., Leighty, R.G., 1967. Relative contribution of organic and clay fractions to cation- exchange capacity of sandy soils from several soil groups. Soil Science 104(2): 123-128.
• Zhang, S., Grip, H., Lövdahl, L., 2006. Effect of soil compaction on hydraulic properties of two loess soils in China. Soil and Tillage Research 90(1-2): 117-125.