Improving Soil Phosphorus Availability and Its Influence on Faba Bean performance: Exploring Mineral, Bio and Organic Fertilization with Foliar application of Iron and Zinc

El naqma, Kholoud Ahmed; Elawady, Rasha Asran; Ramadan, Mohamed; elsherpiny, mohamed atef

doi:10.21608/ejss.2024.265778.1713

	Improving Soil Phosphorus Availability and Its Influence on Faba Bean performance: Exploring Mineral, Bio and Organic Fertilization with Foliar application of Iron and Zinc
Egyptian Journal of Soil Science
Volume 64, Issue 2, June 2024, Page 619-630 PDF (1021.61 K)
Document Type: Original Article
DOI: 10.21608/ejss.2024.265778.1713
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Authors
Kholoud Ahmed El naqma¹; Rasha Asran Elawady¹; Mohamed Ramadan²; mohamed atef elsherpiny ³
¹Soils,water and environment institute
²Soil & Water and Environment Research Institute, Agriculture Research Center, Giza, 12619 Egypt
³Soil, Water and environment Research Institute, Agric. Res. Center, Egypt
Abstract
Under the conditions of Egyptian soils, in which the soil pH rises to more than 7.5 - 8.2, phosphorus is deposited in the form of tri calcium phosphate Ca (PO4)2, which is a complex form that is not ready for the plant. To address this issue, a field trial was conducted over the 2020/21 and 2021/2022 seasons using a split-plot experimental design. The primary objective was to enhance soil phosphorus availability and assess its impact on faba bean growth through mineral, bio, and organic fertilization, alongside foliar feeding with iron and zinc. The main factor in the experiment involved soil additions, including control (no additions), calcium superphosphate, compost, citric acid, phosphorine, and a combined treatment of compost and citric acid. The sub-main factor considered foliar application of microelements, with options being no application, iron application, and zinc application. Various parameters, such as nutrient availability (N, P, K, mgkg-1) in soil and organic matter (%) were determined at the harvest stage. Additionally, chemical constituents (N, P, K %) in straw and seeds, along with iron and zinc concentrations (mg kg-1) and protein (%) in seeds, were assessed at harvest. Yield-related components, including the number of pods plant-1, weight of seed pod-1 (g), weight of 100 seed (g), seed yield (ardb fed-1) and straw yield (ton fed-1),were also measured. The results indicated that all soil additions significantly increased soil phosphorus availability as well as other nutrient availability compared to the control treatment, with the combined treatment (compost + citric) showing superior effects on both soil nutrient availability. The impact of foliar applications of iron and zinc on soil properties was not clearly discernible. In terms of plant-related parameters and yield components, the combined treatment (compost + citric) exhibited the highest values, followed by compost, calcium superphosphate, citric acid, phosphorine, and the control treatments, respectively. Regarding foliar application, iron treatment demonstrated the most substantial increase in chemical traits and yield parameters, followed by zinc treatment, while the control treatment realized the lowest values. These findings underscore the potential of specific soil additions and foliar applications in mitigating phosphorus-related challenges and enhancing faba bean growth in alkaline Egyptian soils.
Keywords
Phosphorus; Calcium superphosphate; Citric acid; Phosphorine; Iron; Zinc


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