Abstract
Soil water loss through evaporation plays a role on low crop productivity and this is due to poor cropping systems and soil surface coverage. The study was carried out at three locations of North-West province of South Africa, which were Potchefstroom, Taung and Rustenburg during 2011/12 and 2012/13 planting seasons. The experimental design was a factorial experiment laid out in a randomised complete block design (RCBD) with three replicates. The experiment consisted of five cropping systems, which were monocropping cowpea, monocropping maize, cowpea followed by maize in rotation, maize followed by cowpea in rotation and intercropping maize-cowpea. The three crop growth stages compared in this study were before tasselling/flowering, during tasselling/pod formation and during physiological maturity of maize and cowpea. Soil was sampled for the 0-0.15, 0.15-0.3, 0.3-0.6 and 0.6-0.9 m depth increments and soil water content determined using the Gravimetric method. The crop growth stage before tasselling/flowering in maize/cowpea had significantly (P < 0.05) higher water content of 10.2, 10.8, 12.5 and 13.3% at the depth of 0-0.15, 0.15-0.3, 0.3-0.6 and 0.6-0.9 m respectively. Soil collected at Rustenburg and Potchefstroom had significantly (P < 0.05) higher water content of 13.5 and 10.2; 15.9 and 10.9; 18.3 and 12.8; 18.4 and 14.5% at the depths of 0-0.15, 0.15-0.3, 0.3-0.6 and 0.6-0.9 m respectively. Monocropping cowpea plots had significantly (P < 0.05) higher water content of 12.4% than other cropping systems at the soil depth of 0.3-0.6 m. Monocropping plots of cowpea had the ability to hold soil water and this depends on the type of cowpea cultivar and canopy cover. The stage before tasselling/flowering of maize-cowpea (V10/Vn) was found to have high soil water content. Soil water content differs across locations due to different soil physical properties.
Highlights
Soil and water conservation is one of the cardinal principles of land management in rainfed areas with considerable potential for increased productivity
The study was conducted at three dryland localities in South Africa; Department of Agriculture Experimental Station in Taung situated (27o32′0′′S 24o47′8′′E), Agriculture Research Council-Grain Crops Institute (ARC-GCI) experimental station in Potchefstroom (26o42′54′′S 27o06′12′′E) and Agriculture Research Council-Institute for Industrial Crops (ARC-IIC) experimental station in Rustenburg (25o40′51.4′′S 27o13′58.4′′E) Taung experimental station is situated in grassland savannah with annual mean rainfall of 1061 mm that begins in October
The soil collected during 2012/13 planting season had significantly (P < 0.05) higher soil water content of 9.9% than soil collected during 2011/12 planting season
Summary
Soil and water conservation is one of the cardinal principles of land management in rainfed areas with considerable potential for increased productivity. Matric potential depends on soil water content, the size of soil pores, the surface proportion of soil particles and surface tension of soil water (Whalley et al, 2013). Sandy soil has low water retention, low organic matter and high infiltration (Abdel-Nasser et al, 2007). It was further indicated that soil with high percentage of organic matter and natural deposits rich in clay content caused an increase in water holding capacity and reduction in evaporation (Parikh & James, 2012). Clay increases specific area of soil matrix and water adsorption (Hillel, 1998)
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