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Behrens, T., Zhu, A.X., Schmidt, K., Scholten, T., 2010. Multi-scale digital terrain analysis and feature selection for digital soil mapping. Geoderma 155(3-4): 175–185.
Bennie, J., Huntley, B., Wiltshire, A., Hill, M.O., Baxter, R., 2008. Slope, Aspect and climate: Spatially explicit and implicit models of topographic microclimate in chalk grassland. Ecological Modelling 216(1): 47–59.
Bernoux, M., Cerri, C., Arrouays, D., Jolivet, C., Volkoff, B., 1998. Bulk densities of Brazilian Amazon soils related to other soil properties. Soil Science Society of America Journal 62(3): 743-749.
Calhoun, F. G., Smeck, N. E., Slater, B. L., Bigham, J. M., Hall, G. F. 2001. Predicting bulk density of Ohio soils from morphology, genetic principles, and laboratory characterization data. Soil Science Society of America Journal 65(3): 811–819.
Carson, M.A., Kirkby, M.J., 1972. Hillslope form and process, Cambridge University Press, New York, USA. 484p.
Chaudhari, P.R., Ahire, D.V., Ahire, V.D., Chkravarty, M., Maity, S. 2013. Soil bulk density as related to soil texture, organic matter content and available total nutrients of Coimbatore soil. International Journal of Scientific and Research Publications 3(2):1-8.
Dane, J.H., Topp, G.C., 2002. Methods of soil analysis Part 4: physical methods. Soil Science Society of America Book Series, Vol. 5, Madison, WI, USA. 1692p.
Debella-Gilo, M., Etzelmuller, B., Klakegg, O., 2007. Digital soil mapping using digital terrain analysis and statistical modelling integrated into GIS: examples from Vestfold county of Norway. ScanGIS 2007 - Proceedings of the 11th Scandinavian Research Conference on Geographical Information Sciences. 5th-7th September 2007, Ås, Norway. pp. 237–253.
Gou, T., Wang, Q., Li, D., Wu, L. 2010. Sediment and solute transport on soil slope under simultaneous influence of rainfall impact and scouring flow. Hydrological Processes 24(11): 1446-1454.
Lekwa, A.G., Whiteside, E.P., 1986. Coastal plain soils of Southeastern Nigeria: I. Morphology, classification, and genetic relationships. Soil Science Society of America Journal 50(1): 154–160.
Ma, C., Eggleton, R.A. 1999. Cation exchange capacity of kaolinite. Clays and Clay Minerals 47(2): 174-180.
McLean, E.O., 1982. Soil pH and lime requirement. In: Methods of Soil Analysis Part 2. Chemical and Microbiological Properties. Page, A.L., Miller, R.H., Keen, D.R. (Eds.). ASA-SSSA, Agronomy Monograph 9.2, Madison, WI, USA. pp. 199–223.
Moore, I.D., Gessler, P.E., Nielsen, G.A,, Petersen, G.A., 1993, Soil attribute prediction using terrain analysis. Soil Science Society America Journal 57(2): 443-452.
Moss R.P., 1957, Report on the Classification of soils found over sedimentary rocks in Western Nigeria. Soil Survey Report No. 67. IAR and The University of Ife, Nigeria.
Obi, J.C., Udoh, B.T., 2011. Identification of soil management factors from spatially variable soil properties of coastal plain sands in Southeastern Nigeria. Open Journal of Soil Science 1(2): 25–40.
Obi, J.C., Ogban, P.I., Ituen, U.J., Udoh, B.T., 2014. Development of pedotransfer functions for coastal plain soils using terrain attributes. Catena 123: 252–262.
Obi, J.C., 2015a. Prediction of characteristics of coastal plain soils using terrain attributes. Agro-Science 14(3): 22-26.
Obi, J.C., 2015b. Particle size fractions and pedogenesis of coastal plain sands. Archives of Agronomy and Soil Science 61(10): 1-18.
Obi, J.C., Ibia, T.O., Eshiet, P.B., 2016. Effect of land use on potassium form of coastal plain sands of Nigeria, Chemistry and Ecology 32(3): 238-258.
Odu, C.T.I., Babalola, O., Udo E.J., Ogunkunle, A.O., Bakare, T.A., Adeoye, G.O., 1986. Laboratory Manual for Agronomic Studies in Soil, Plant and Microbiology, University of Ibadan. Nigeria. Pp. 50-54.
Ofomata, G.E.K., 1981. Actual and potential erosion in Nigeria and measures for control. In: Acid sands of southeastern Nigeria. Udo, E.J., Sobulo, R.A. (Eds.). Special Publication Monograph No. 1. Ibadan, Nigeria. Soil Science Society of Nigeria. pp. 151–165.
Ojanuga, A.G., Lekwa, G., Akamigbo, F.O.R., 1981. Survey classification and genesis of acid soils. In: Acid sands of southern Nigeria. Udo, E.J., Sobulo, R.A. (Eds.). Special Publication Monograph No. 1. Ibadan, Nigeria. Soil Science Society of Nigeria; pp. 1–20.
Rhoades, J. D. 1996. Salinity: electrical conductivity and total dissolved solids. In: Methods of soil analysis: Part 3. chemical methods, Sparks, D.L. (Ed.). ASA-SSSA, Madison, WI, USA, pp. 417–435.
SAS Institute, 2011. SAS Systems for Information Delivery for Windows. Version 9.2. SAS®. Institute Inc., Cary, NC, USA.
Seibert, J., Stendahl, J., Sørensen, R., 2007. Topographical influences on soil properties in boreal forests. Geoderma 141(1-2): 139–148.
Shapiro, S.S., Wilk, M.B., 1965. An analysis of variance test for normality. Biometrika 52(3-4): 591–611.
Smyth, A.J., Montgomery, R.F., 1962. Soils and Land use in Central Western Nigeria, Government Printers, Ibadan.
Sparks, D.L., 1996. Methods of soil analysis Part 3 Chemical methods. Soil Science Society of America. Book Series No. 5. ASA, SSSA, Madison, WI, USA.
Swarowsky, A., Dahlgren, R.A., Tate, K.W., Hopmans, J.W., O'Geen, A.T., 2011. Catchment scale soil water dynamics in a Mediterranean-type oak woodland. Vadose Zone Journal 10(3): 800–815.
Udosen, C., 2014. Gully Erosion and cities: an unwanted partnership. Being the first in the series of Faculty of Social Science Lectures, University of Uyo, Uyo. Pampas Digital Publications, Uyo. 67p.
Abstract
The objective of this study was to, through the distribution of some soil properties, model cation exchange capacity (CEC) in soils formed on gently undulating coastal plain sands of southeastern Nigeria using genetic horizon functions and terrain attributes. A total of 19 profile pits were prepared, described and 104 genetic horizons were identified and sampled, processed and analysed in the laboratory. Data were generated on the soil characteristics, including particle size fractions, hydraulic conductivity, bulk density, organic carbon, pH and electrical conductivity. Terrain attributes that were generated from digital elevation model include aspect, compound topographic index (CTI), Flow direction, curvatures, slope and stream power index (SPI). Data generated were analysed using descriptive statistics, correlation and regression. The terrain attributes were modified with genetic horizon depths, bulk density and clay content for the modelling process. Sand content, bulk density and cation exchange capacity possess geogenic rather than pedogenic characteristics and were normally distributed. The indication is that the two groups of terrain attributes depended on the mass per unit area of soil and clay content in their influence on these ultisol profiles. Paired comparison, root mean square error and normalized root mean square error indicated that the model was a good fit and could be useful in the prediction of soil properties and management of coastal plain sands.
Keywords: Pedogenesis, terrain attributes, geogenesis, exchange complex, profile characteristics.
References
Behrens, T., Zhu, A.X., Schmidt, K., Scholten, T., 2010. Multi-scale digital terrain analysis and feature selection for digital soil mapping. Geoderma 155(3-4): 175–185.
Bennie, J., Huntley, B., Wiltshire, A., Hill, M.O., Baxter, R., 2008. Slope, Aspect and climate: Spatially explicit and implicit models of topographic microclimate in chalk grassland. Ecological Modelling 216(1): 47–59.
Bernoux, M., Cerri, C., Arrouays, D., Jolivet, C., Volkoff, B., 1998. Bulk densities of Brazilian Amazon soils related to other soil properties. Soil Science Society of America Journal 62(3): 743-749.
Calhoun, F. G., Smeck, N. E., Slater, B. L., Bigham, J. M., Hall, G. F. 2001. Predicting bulk density of Ohio soils from morphology, genetic principles, and laboratory characterization data. Soil Science Society of America Journal 65(3): 811–819.
Carson, M.A., Kirkby, M.J., 1972. Hillslope form and process, Cambridge University Press, New York, USA. 484p.
Chaudhari, P.R., Ahire, D.V., Ahire, V.D., Chkravarty, M., Maity, S. 2013. Soil bulk density as related to soil texture, organic matter content and available total nutrients of Coimbatore soil. International Journal of Scientific and Research Publications 3(2):1-8.
Dane, J.H., Topp, G.C., 2002. Methods of soil analysis Part 4: physical methods. Soil Science Society of America Book Series, Vol. 5, Madison, WI, USA. 1692p.
Debella-Gilo, M., Etzelmuller, B., Klakegg, O., 2007. Digital soil mapping using digital terrain analysis and statistical modelling integrated into GIS: examples from Vestfold county of Norway. ScanGIS 2007 - Proceedings of the 11th Scandinavian Research Conference on Geographical Information Sciences. 5th-7th September 2007, Ås, Norway. pp. 237–253.
Gou, T., Wang, Q., Li, D., Wu, L. 2010. Sediment and solute transport on soil slope under simultaneous influence of rainfall impact and scouring flow. Hydrological Processes 24(11): 1446-1454.
Lekwa, A.G., Whiteside, E.P., 1986. Coastal plain soils of Southeastern Nigeria: I. Morphology, classification, and genetic relationships. Soil Science Society of America Journal 50(1): 154–160.
Ma, C., Eggleton, R.A. 1999. Cation exchange capacity of kaolinite. Clays and Clay Minerals 47(2): 174-180.
McLean, E.O., 1982. Soil pH and lime requirement. In: Methods of Soil Analysis Part 2. Chemical and Microbiological Properties. Page, A.L., Miller, R.H., Keen, D.R. (Eds.). ASA-SSSA, Agronomy Monograph 9.2, Madison, WI, USA. pp. 199–223.
Moore, I.D., Gessler, P.E., Nielsen, G.A,, Petersen, G.A., 1993, Soil attribute prediction using terrain analysis. Soil Science Society America Journal 57(2): 443-452.
Moss R.P., 1957, Report on the Classification of soils found over sedimentary rocks in Western Nigeria. Soil Survey Report No. 67. IAR and The University of Ife, Nigeria.
Obi, J.C., Udoh, B.T., 2011. Identification of soil management factors from spatially variable soil properties of coastal plain sands in Southeastern Nigeria. Open Journal of Soil Science 1(2): 25–40.
Obi, J.C., Ogban, P.I., Ituen, U.J., Udoh, B.T., 2014. Development of pedotransfer functions for coastal plain soils using terrain attributes. Catena 123: 252–262.
Obi, J.C., 2015a. Prediction of characteristics of coastal plain soils using terrain attributes. Agro-Science 14(3): 22-26.
Obi, J.C., 2015b. Particle size fractions and pedogenesis of coastal plain sands. Archives of Agronomy and Soil Science 61(10): 1-18.
Obi, J.C., Ibia, T.O., Eshiet, P.B., 2016. Effect of land use on potassium form of coastal plain sands of Nigeria, Chemistry and Ecology 32(3): 238-258.
Odu, C.T.I., Babalola, O., Udo E.J., Ogunkunle, A.O., Bakare, T.A., Adeoye, G.O., 1986. Laboratory Manual for Agronomic Studies in Soil, Plant and Microbiology, University of Ibadan. Nigeria. Pp. 50-54.
Ofomata, G.E.K., 1981. Actual and potential erosion in Nigeria and measures for control. In: Acid sands of southeastern Nigeria. Udo, E.J., Sobulo, R.A. (Eds.). Special Publication Monograph No. 1. Ibadan, Nigeria. Soil Science Society of Nigeria. pp. 151–165.
Ojanuga, A.G., Lekwa, G., Akamigbo, F.O.R., 1981. Survey classification and genesis of acid soils. In: Acid sands of southern Nigeria. Udo, E.J., Sobulo, R.A. (Eds.). Special Publication Monograph No. 1. Ibadan, Nigeria. Soil Science Society of Nigeria; pp. 1–20.
Rhoades, J. D. 1996. Salinity: electrical conductivity and total dissolved solids. In: Methods of soil analysis: Part 3. chemical methods, Sparks, D.L. (Ed.). ASA-SSSA, Madison, WI, USA, pp. 417–435.
SAS Institute, 2011. SAS Systems for Information Delivery for Windows. Version 9.2. SAS®. Institute Inc., Cary, NC, USA.
Seibert, J., Stendahl, J., Sørensen, R., 2007. Topographical influences on soil properties in boreal forests. Geoderma 141(1-2): 139–148.
Shapiro, S.S., Wilk, M.B., 1965. An analysis of variance test for normality. Biometrika 52(3-4): 591–611.
Smyth, A.J., Montgomery, R.F., 1962. Soils and Land use in Central Western Nigeria, Government Printers, Ibadan.
Sparks, D.L., 1996. Methods of soil analysis Part 3 Chemical methods. Soil Science Society of America. Book Series No. 5. ASA, SSSA, Madison, WI, USA.
Swarowsky, A., Dahlgren, R.A., Tate, K.W., Hopmans, J.W., O'Geen, A.T., 2011. Catchment scale soil water dynamics in a Mediterranean-type oak woodland. Vadose Zone Journal 10(3): 800–815.
Udosen, C., 2014. Gully Erosion and cities: an unwanted partnership. Being the first in the series of Faculty of Social Science Lectures, University of Uyo, Uyo. Pampas Digital Publications, Uyo. 67p.