The Ability of Chemical Extraction Methods to Estimate Plant-Available Soil P and a Better Understanding of P Availability of Fertilized Andosols by Using Isotopic Methods
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概要
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Plant-available P content in soils differing in P fertilization history was determined by both the isotopic dilution method (pot experiment) and isotopic exchange method (laboratory test) using phosphate ions labelled with ^<32>P in order to evaluate the residual effect of P fertilizers applied to the soils. Another isotopic technique was also used to evaluate the ability of chemical extractions, Truog and Bray No.2 methods, to extract plant-available soil P. Four soil samples of a Humic Andosol taken from experimental plots, which did not receive fertilizer (J1 treatment), or received a readily soluble fertilizer (RSF)(J2 treatment), RSF plus a fused magnesium phosphate (FMP)(J3 treatment), and RSF plus Florida phosphate rock (J4 treatment), were analyzed. In a pot experiment, maize (Zea mays) was grown on the soils where available P was labelled with ^<32>P. P uptake and specific radioactivity in shoot were measured. The fraction of P in plant derived from fertilizer (%Pdff in plant) and pool size of isotopically exchangeable soil P (L-value) were determined. P uptake increased in the order: J1<J2=J4<J3. The L-value bacame larger in the order, J1=J2<J4<J3. The highest value of %Pdff in plant was also observed in treatment J3. More than 50% of P in the applied FMP remained in the soil as isotopically exchangeable P. Three parameters of soil P status, intensity, quantity, and capacity factors, were examined by a laboratory test using the isotopic exchange method. Quantity factor, which expresses the amount of isotopically exchangeable soil P (E_1-value), was highest in the J3 treatment, followed by the J4, J2, J1 treatments. These results agreed with the results of P uptake and L-value. The P availability of the J4 soil measured by the Truog and Bray No.2 methods was higher than that of the J3 soil. These data were not in agreement with plant growth and P uptake. It was found by another isotopic approach that not only plant-available P but also unavailable P was extracted from the soils by the Bray No.2 method. The Truog method also overestimated available P in the soils amended with P fertilizers but gave an accurate result for the unfertilized soil.
- 社団法人日本土壌肥料学会の論文
著者
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Zapata Felipe
Soil Science Unit Agriculture Laboratory International Atomic Energy Agency
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Kato Naoto
Department of Farm Chemicals, National Institute of Agro-Environmental Sciences
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Kato Naoto
Department Of Farm Chemicals National Institute Of Agro-environmental Sciences
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Fardeau Jean-Claude
Department de Physiologie Vegetale et Ecosystemes, Centre de Cadarache, CEA
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Fardeau J‐c
Department De Physiologie Vegetale Et Ecosystemes Centre De Cadarache Cea
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- The Ability of Chemical Extraction Methods to Estimate Plant-Available Soil P and a Better Understanding of P Availability of Fertilized Andosols by Using Isotopic Methods