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Irrigation and dryland cultivation effects on the surface properties and erodibility of a Zimbabwe vertisol
Authors:Janet Hussein  M. A. Adey  H. A. Elwell
Affiliation:Department of Soil Science and Agricultural Engineering, University of Zimbabwe, PO Box MP167, Mt Pleasant, Harare, Zimbabwe.;Department of Agricultural and Environmental Science, The University, Newcastle upon Tyne, NE1 7RU, UK.;Institute of Agricultural Engineering, PO Box BW330, Borrowdale, Harare, Zimbabwe.
Abstract:Abstract. Changes in chemical and physical properties and erodibility of a vertisol were studied in relation to land use. The vertisol, which occurs extensively in the semi-arid south-east of Zimbabwe, is derived from basalt and has a self mulching surface layer. Irrigated crops show static yields despite introduction of improved varieties. Four uncultivated sites were selected as controls and compared with five irrigated and four dryland sites. Surface soils were analysed for a range of chemical and physical properties, and laboratory rainfall simulation was used to measure soil erodibility under high intensity rain. The irrigated soils had greater exchangeable sodium and available phosphorus than the uncultivated soils. In contrast, dryland soils showed no such changes apart from a decrease in the amount of small water-stable aggregates. The soils are very erodible under high intensity rain but no significant differences were found between sites. We conclude that, although soil chemical changes have taken place in the irrigated soils, significant soil degradation has not occurred at the sites examined. The static yields probably result from management problems. However, immediate measures should be taken to improve drainage and irrigation management in the irrigated soils to avoid further sodium increases.
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