Exploring Optimal Tillage Improved Soil Characteristics and Productivity of Wheat Irrigated with Different Water Qualities

Exploring Optimal Tillage Improved Soil Characteristics and Productivity of Wheat Irrigated with Different Water Qualities

Irrigation with low water quality can adversely affect soil characteristics, optimal moisture for tillage, and crop productivity, particularly in arid and semi-arid regions. We determined the optimal moisture for tillage processing and the effects of optimal and wet tillage on physical and chemical...

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Bibliographic Details
Published in:Agronomy (Basel) Vol. 9; no. 5; p. 233
Main Authors: Seleiman, Mahmoud F., Kheir, Ahmed M. S., Al-Dhumri, Sami, Alghamdi, Abdulaziz G., Omar, El-Said H., Aboelsoud, Hesham M., Abdella, Kamel A., Abou El Hassan, Waleed H.
Format: Journal Article
Language:English
Published: Basel MDPI AG 08-05-2019
Subjects:
Analytical chemistry
Arid regions
Arid zones
Atterberg limits
Bulk density
Crop production
Crop yield
Factorial experiments
Grain
Irrigation
Irrigation water
low water quality
Moisture content
optimal tillage
Optimization
Physical properties
Productivity
Saline soils
Saline water
Salinity
Salinity effects
Semi arid areas
Semiarid lands
Shear strength
Soil characteristics
Soil chemistry
Soil compaction
Soil improvement
Soil moisture
Soil salinity
Tillage
Wastewater
Water content
water productivity
Water quality
Wheat
Nile River
Egypt
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Summary:Irrigation with low water quality can adversely affect soil characteristics, optimal moisture for tillage, and crop productivity, particularly in arid and semi-arid regions. We determined the optimal moisture for tillage processing and the effects of optimal and wet tillage on physical and chemical soil characteristics and wheat productivity after irrigation with different water qualities (waste, saline, and highly saline water). We used the Atterberg limit to determine the suitable moisture content for tillage. Tillage at optimal moisture content improved soil characteristics by reducing soil salinity, sodicity, bulk density, shear strength, compaction, and increasing hydraulic conductivity compared to that of wet tillage. It also enhanced growth and productivity of wheat grown with low quality of water (i.e., fresh and waste water), resulting in higher grain yield and root weight at different growth stages than that of saline and highly saline water. In conclusion, tillage at optimal moisture content alleviates the impact of salinity through improving soil physical and chemical characteristics. Optimum tillage can be applied at 20 and 24 days from the previous irrigation in saline and highly saline soils, respectively. Irrigation with waste water resulted in a higher wheat grain yield than saline and highly saline water.
ISSN:2073-4395
2073-4395
DOI:10.3390/agronomy9050233