1. Soil erosion control and wheat productivity are improved by a developed ridge-furrow and reservoir tillage systems.
- Author
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Salem, Haytham M., Meselhy, Adil, Elhagarey, Mohamed, Ali, Ali M., and Wu, Weicheng
- Subjects
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TILLAGE , *SOIL conservation , *WATER harvesting , *SANDY loam soils , *WINTER wheat , *WHEAT , *SOIL degradation - Abstract
Soil erosion and drought are significant environmental hazards for crop production in the northwestern coastal zone of Egypt, leading to increased soil resources degradation. In-situ rainwater harvesting techniques by changing the micro-topography of soil via tillage practices can increase runoff retention and improve soil productivity. In this study, field trials were conducted on a sandy loam soil to determine the effects of four tillage systems [integrated ridge-furrow tillage (RFT), integrated reservoir tillage (RT), conventional tillage (CT), and No tillage (NT)] on soil bulk density, volumetric water content, runoff, soil loss, precipitation use efficiency, and winter wheat yield during two growing seasons under-rainfed conditions. The results indicated that tillage systems significantly affected soil properties, precipitation use efficiency and wheat yield in the order of: RFT > RT > CT > NT. Compared with the CT, the mean runoff with the developed RFT and RT was significantly decreased by 55.4% and 40.3%, respectively. Meanwhile, the precipitation use efficiency increased by 18.1% and 9.5%, respectively. By taking into account the stability of soil productivity along with environmental protection, it is suggested that the RFT and RT are the tillage systems that can efficiently increase the availability of soil water and, consequently, wheat yield. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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