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Al-Tameemi
HJ
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Original Research Article Solubility and Movement of Calcium Phosphate Minerals in Some Calcareous Soils as Influenced by Application of Phosphate Fertilizer and Water Potential |
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Hayfaa J. Al-Tameemi*, Nawal I. Ashoor and Layla A. Omer |
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Department of
Soil Science and Water Resources, College of Agriculture,
University of Basra, IRAQ |
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Abstract |
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Immobilization
and mobilization reactions of soil phosphorus depend on
chemical, physical, and biological properties of soil and these
soil properties strongly depend on soil water content and rate
of phosphate application. Laboratory study was conducted at 30oC
for one week on two calcareous soils from southern part of Iraq,
Hartha soil (silty clay) and Zubair soil (loamy sand) to study
the effect of superphosphate application (0, 60, and 120 mgPkg-1
soil) and water potential (field capacity, 3/2 field capacity,
and ½ field capacity) on solubility and vertical movement of
phosphate for four soil depth (0-5), (5-10), (10-20), and
(20-40) cm. Results showed that increasing P-rates application
increased soluble P and it was decreased with decreasing of soil
moisture content as follow: FC> 3/2FC > ½ FC. Formation of
calcium phosphate minerals in the studied soils according to
saturation index (SI) values showed that Ca-P minerals were
MCP,OCP, and HA which their values were above 1 (SI>1), the
degree of saturation index was related mainly to the differences
between studied soils and soil moisture, rate of application.
Calcium phosphate minerals didn’t change with changing of soils
depth. |
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