Improving Wheat Productivity and Soil Properties by Using Compost and Potassium under Water Stress Conditions

El-Sheref, Ghada Fathalla; El-Sherif, Sh. T. I.; Mohamed, Gihan A.

doi:10.21608/jssae.2024.308782.1241

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	Improving Wheat Productivity and Soil Properties by Using Compost and Potassium under Water Stress Conditions
Article 2, Volume 15, Issue 11, November 2024, Page 331-341 PDF (1.15 MB)
Document Type: Original Article
DOI: 10.21608/jssae.2024.308782.1241
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Authors
Ghada Fathalla El-Sheref ¹; Sh. T. I. El-Sherif²; Gihan A. Mohamed³
¹soil science, faculty of agriculture
²Field Crops Res., Wheat Res. Dep., Inst. ARC, Giza, Egypt
³Soil, Water and Environment Res., Inst. ARC, Giza, Egypt
Abstract
A field experiment be located at Sids Agriculture Research Station, Beni-Suef Governorate, Egypt for two following seasons of 2021/ 2022 and 2022/ 2023, to examine effects of three levels of potassium (0.0, 47.0 and 94.0 kg K ha-1) via using two compost levels (0.0 and 12 t ha-1) on wheat (Triticum aestivum L.) that is grown in clay soil under three irrigation levels (3, 4 and 5 irrigations). The experimental design was split-split design in completely randomized block with four replications. Results show that physio-chemical soil properties, soil water retention was positively responded to compost application, meanwhile soil salinity increased. Soil available N and K were increased with increasing number of irrigation. Growth parameters, yield and yield components, and N, P and K uptake of wheat were significantly increased due to increasing number of irrigation, compost application or potassium levels. The results of the interaction indicate that added 12 t ha^-1 compost plus 94 kg K ha^-1 resulted in growth and yield and its components as well as N, P and K uptake under four irrigation statistically equal to five irrigation. Also, combined 12 t ha^-1 compost with 47 kg K ha^-1 gave wheat productivity equal to those under high potassium levels. It could be concluded that using 12 t ha^-1 compost and 49 kg K ha^-1 to gain maximum quantity and quality of wheat as well as soil properties under suitable water resources. While, under water stress, it concluded to supply wheat plants with 12 t ha^-1 compost in combination with 94 kg K ha^-1 to improve the water stress tolerance.
Keywords
wheat plants; compost; potassium; irrigation; soil properties and yield


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