COMPACTION CHARACTERISTICS CURVES OF SOILS IN NASSARAWA – EGGON TOWN AND ENVIRONS, CENTRAL NIGERIA.

dc.contributor.authorUmbugadu, A. A.
dc.contributor.authorGoki, N.G.
dc.contributor.authorKana, A.A.
dc.contributor.authorUsman, Halima Osu
dc.date.accessioned2023-12-14T07:18:17Z
dc.date.available2023-12-14T07:18:17Z
dc.date.issued2020-06-21
dc.description.abstractThe study was conducted to study the complication arising from compaction curves of soils in Nassarawa – Eggon, North – Central Nigeria. Twenty representative samples were studied and the British Standard 1377 methods of sampling and analysis were employed for the grain size distribution and compaction. The soils are predominantly silty sand. Values of the optimum moisture content range from 10.0 g/cm3 – 34.5 g/cm3 while the maximum dry density values range from 1.61% to 1.88%. The compaction pattern can be noticed from samples AUS 14 to AUS 20 that the maximum dry density decreases because of the nature of the soil, being a boundary between the basement and sedimentary. The investigation has established two types of compaction curves: the single regular peaks and the irregular peaks, signifying the degree of compaction and nature of the soils.. There is a correlation between the soil index properties; water content and dry density on the kind of curves.en_US
dc.identifier.citationAlakukku, L., Weisskopf, P., Chanmen, W.C.T., Tijink, F.G.J., van der Linden, J.P., Pires, S., Sommer, C. & Spoor, G. (2003). Prevention strategies for field traffic induced subsoil compaction: a review. Soil Tillage Research, 73, 145–160. Ball, B.C. & Douglas, J.T. (2003). A simple procedure for assessing soil structural, rooting and surface conditions. Soil Use and Management, 19, 50–56. Barken, L.R., Bosrresen, T. & Njoss, A. (1981). Effect of soil compaction by tractor traffic on soil structure, denitrification, and yield of wheat (Triticum aestivum L.). Journal of Soil Science, 38, 541–552. Batey, T. (2000). Soil profile description and evaluation. In: Soil and environmental analysis: physical methods (eds K.A. Smith & C.E. Mullins), pp. 595–628. 2nd edn. Marcel Dekker Inc., New York. Bull. No.17. Pp 58 – 66. Hallett, P.D. (2009). Potential of multi-objective models for riskbased mapping of the resilience characteristics of soils: demonstration at a national level. Soil Use and Management, 25, 66–77. BS:1377 (1990). British Standard Methods of Tests for Soil for Engineering Purposes, Part 2, Batey, T. & McKenzie, D.C. (1999). Letter to the editor 'Deep subsoil compaction'. Soil Use and Management, 15, 136. Delgado, R., Sanchez-Maranon, M., Martin-Garcia, J.M., Aranda, V., Serrano-Bernado, F. & Rosua, J.L. 2007. Impact of ski pistes on soil properties: a case study from a mountainous area in the Mediterranean Region. Soil Use and Management, 23, 269–277 BSI, London. Bryant, R., Doerr, S.H., Hunt, G. & Conan, S. (2007). Effects of compaction on surface water repellency. Soil Use and Management, 23, 238–244. Jacobson, R.R.E. and Webb, J.S. (1946). The Pegmatite of Central Nigeria. Geol. Surv. Nig. Batey, T. & McKenzie, D.C. (2006). Soil compaction: identification directly in the field. Soil Use and Management, 22, 123–131. Etana, A. & Hakansson, I. 1994. Swedish experiments on the persistence of subsoil compaction caused by vehicles with high axle loads. Soil & Tillage Research, 29, 167–172. Fitzpatrick, E.A. 1956. Bull. 319, 148 pp. Johnson, A. W., and Sallberg, J. R. 1962: Factors Influencing Compaction Test Results. HRB Boizard, H., Batey, T., McKenzie, D.C., Richard, G., Roger Estrade, J. & Ball, B.C. (2007). Report of the WG Visual Soil Structure Assessment Field Meeting 25–27th May 2005, Franceen_US
dc.identifier.urihttps://keffi.nsuk.edu.ng/handle/20.500.14448/5652
dc.language.isoenen_US
dc.publisherDepartment of Geology and Mining, Nasarawa State University Keffien_US
dc.subjectMaximum dry density; optimum moisture content; compaction; liquid limit; plasticity indexen_US
dc.titleCOMPACTION CHARACTERISTICS CURVES OF SOILS IN NASSARAWA – EGGON TOWN AND ENVIRONS, CENTRAL NIGERIA.en_US
dc.typeArticleen_US

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