Recently, K has become a critical nutrient for plant growth, especially in soils of coarse textures. Moreover, K is readily leached out from soils when irrigation waters or soil solutions contain high concentrations of calcium and other cations and affected by soil clay type. Thus, a multicorrelation study was conducted to find the relations between clay contents in the investigated soils and the available forms of K in soil and investigating the reaction pathways of Kfertilizer applied at different rates to soils with different textures. Soil samples collected from 4 different sites i.e., Wadi El-Nokra, Garf Hussein, El-Gaafrah, and Adndan. A sorption experiment was conducted using a series of K concentrations (20-180 mg L -1 ) on the investigated soils. The obtained relations were fitted to three adsorption isotherms, i.e., Langmuir, Bemmelen-Freundlich, and Temkin. Results show that both water soluble-K and the NH 4 OAC-K significantly correlated with the clay contents in the study soils (P=0.020 and 0.034, respectively). Results revealed that Van Bemmelen-Freundlich isotherm model seemed to be the best model fitting K sorption data in all the investigated soils. concentrations of water-soluble K increased significantly, with increasing the rate of applied K (mg kg 1 ). It seems that soil type played an essential role in increasing the retention of K in soil, i.e., the lowest increases in the water-soluble K occurred in soils with the highest clay contents in El-Gaafrah soil (Clay, 77.45% clay), whereas the highest increases occurred in Garf Hussein (Sandy Loam, 17.91% clay) and Wadi El-Nokra (Sandy Clay Loam, 35.69% clay). water-مجلة النوعية للدراسات العالي المعهد مجلد 3 ع دد 2 يناير ( 2023 ) ( ت أ ثير بعض خواص التربه علي انطالق عنصر البوتاسيوم …….. ) ربيع الرحمن عبد 918soluble K decreased significantly with increasing contact time. NH 4 OAc-K increased in soil with increasing the rate of applied K. On contrary, these concentrations increased with increasing the contact time with soil.
Recently, K has become a critical nutrient for plant growth, especially in soils of coarse textures. Moreover, K is readily leached out from soils when irrigation waters or soil solutions contain high concentrations of calcium and other cations and affected by soil clay type. Thus, a multicorrelation study was conducted to find the relations between clay contents in the investigated soils and the available forms of K in soil and investigating the reaction pathways of Kfertilizer applied at different rates to soils with different textures. Soil samples collected from 4 different sites i.e., Wadi El-Nokra, Garf Hussein, El-Gaafrah, and Adndan. A sorption experiment was conducted using a series of K concentrations (20-180 mg L -1 ) on the investigated soils. The obtained relations were fitted to three adsorption isotherms, i.e., Langmuir, Bemmelen-Freundlich, and Temkin. Results show that both water soluble-K and the NH 4 OAC-K significantly correlated with the clay contents in the study soils (P=0.020 and 0.034, respectively). Results revealed that Van Bemmelen-Freundlich isotherm model seemed to be the best model fitting K sorption data in all the investigated soils. concentrations of water-soluble K increased significantly, with increasing the rate of applied K (mg kg 1 ). It seems that soil type played an essential role in increasing the retention of K in soil, i.e., the lowest increases in the water-soluble K occurred in soils with the highest clay contents in El-Gaafrah soil (Clay, 77.45% clay), whereas the highest increases occurred in Garf Hussein (Sandy Loam, 17.91% clay) and Wadi El-Nokra (Sandy Clay Loam, 35.69% clay). water-مجلة النوعية للدراسات العالي المعهد مجلد 3 ع دد 1 يناير ( 2023 ) ( ت أ ثير بعض خواص التربه علي انطالق عنصر البوتاسيوم …….. ) ربيع الرحمن عبد 918soluble K decreased significantly with increasing contact time. NH 4 OAc-K increased in soil with increasing the rate of applied K. On contrary, these concentrations increased with increasing the contact time with soil.
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