Soil Fertility and its Relationship to Soil Mineralogy of some Areas in Southwest Sinai, Egypt
Abbas, H., Abdel Maboud, I., Alshami, A., Rashed, H., Zahra, W. (2021). Soil Fertility and its Relationship to Soil Mineralogy of some Areas in Southwest Sinai, Egypt. EKB Journal Management System, 12(12), 893-898. doi: 10.21608/jssae.2022.107489.1038
H. H. Abbas; I. M. A. Abdel Maboud; A. S. A. Alshami; Heba S. A. Rashed; Wessam R. Zahra. "Soil Fertility and its Relationship to Soil Mineralogy of some Areas in Southwest Sinai, Egypt". EKB Journal Management System, 12, 12, 2021, 893-898. doi: 10.21608/jssae.2022.107489.1038
Abbas, H., Abdel Maboud, I., Alshami, A., Rashed, H., Zahra, W. (2021). 'Soil Fertility and its Relationship to Soil Mineralogy of some Areas in Southwest Sinai, Egypt', EKB Journal Management System, 12(12), pp. 893-898. doi: 10.21608/jssae.2022.107489.1038
Abbas, H., Abdel Maboud, I., Alshami, A., Rashed, H., Zahra, W. Soil Fertility and its Relationship to Soil Mineralogy of some Areas in Southwest Sinai, Egypt. EKB Journal Management System, 2021; 12(12): 893-898. doi: 10.21608/jssae.2022.107489.1038

Soil Fertility and its Relationship to Soil Mineralogy of some Areas in Southwest Sinai, Egypt

Journal of Soil Sciences and Agricultural Engineering
Article 7, Volume 12, Issue 12, December 2021, Page 893-898  XML PDF (1.26 MB)
Document Type: Original Article
DOI: 10.21608/jssae.2022.107489.1038
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Authors
H. H. Abbas1; I. M. A. Abdel Maboud2; A. S. A. Alshami2; Heba S. A. Rashed1; Wessam R. Zahra email 1
1Soil and Water Dept., Faculty of Agriculture, Benha University, Egypt.
2Nuclear Materials Authority (N.M.A), Egypt.
Abstract
Soil minerals represent an important component of its system, andstudy of their role in soil fertility is essential for better soil managementand consequently high productivity. The aim of this research is to study the influenceof soil minerals on some soil fertility attributes such as clay percentage, OM and CEC. Physical and chemical properties of clay minerals affect soil fertility by controlling nutrient availability and supplies, through the stabilization and sequestration of soil organic matter. Clay minerals also affect soil physical properties through microaggregate formation and controlling soil microbial population and activity. The soils of the study area had a coarse texture with low water retention and high permeability. The clay content is very low. Quartz grains are one of the most common detritus minerals present in different percentages. It was derived from granite and sandstone as parent materials in the study area. Most quartz contains extremely low concentrations of plant nutrient elements other than Si. Although quartz is highly resistant to weathering, silica is slightly soluble at the common pH values of soils.Feldspars are alkali aluminosilicates and are, by far, the most abundant igneous rock forming minerals. Calcite is a calcium carbonate mineral, which was formed in the study area form the breakdown of the carbonate rocks e.g. limestone and dolomite. The low soil-CEC and low organic matter are the main fertility constraints of these soils. Therefore, organic matter application is recommended to improve CEC, carbon content, and nutrient availability.
Keywords
Clay minerals; soil fertility; and Sinai soils
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