Abstract
Sodium acetate extractable P and P sorption were measured in a high P-sorbing Andept soil (Mission series) following incubation with Winter wheat (Triticum aestivum (L.)Nugaines) and red clover (Trifolium pratense (L.)Florex) plant residue. The effects of plant residue P content, moisture regime, and quantity added were evaluated over a twelve week incubation period. Increased extractable P and decreased P sorption occured when the P content of residue exceeded 0.1% P for both winter wheat and red clover. The extractable P decreased and the P sorbed increased for all treatments and the check as the incubation time progressed. Extractable P increased and P sorption decreased more under air dry moisture conditions than at −0.03 MPa or saturation. Extractable P levels increased and P sorption decreased with increasing amounts of added residue. The effects of the residue additions decreased with increasing incubation time.
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References
Alexander M 1961 Introduction to Soil Microbiology. John Wiley and Sons, New York, pp 353–369.
Dalal R C 1977 Soil organic phosphorus. Adv. Agron. 29, 83–117.
Dalton J D, Russell G C and Sieling D H 1952 Effect of organic matter on phosphorus availability. Soil Sci. 73, 173–181
Field J A, Reneau R B, Jr and Kroontje W 1985 Effects of anaerobically digested poultry manure on soil phosphorus adsorption and extractability. J Environ. Qual. 14, 105–107
Fox R L and Kamprath E J 1970 Phosphate sorption isotherms for evaluating the phosphates requirements of soils. Soil Sci. Soc. Am. Proc. 34, 902–906.
Gaur A C 1969 Studies on availability of phosphorus in soil as influenced by humic acid. Agrochimia 14, 62–65.
Grewling T and Peech M 1965 Chemical soil tests. bulletin 960. Cornell University, New York State College of Agriculture. Ithaca, NY.
Grinsted M J, Hedley M J, white R F and Nye P H 1982 Plant-induced changes in the rhizosphere of rape (Brassica napus var. Emerald) seedlings. I. pH change and the increase in P concentration in the soil solution. New phytol. 91, 12–29.
Harter R D 1969 Phosphorus adsorption sites in soils. Soil Sci. Soc. Am. Proc. 33, 630–632.
Jones J P, Singh B B, Fosberg M A and Falen A L 1979 Physical, chemical, and mineralogical characteristics of soils from volcanic ash in northern Idaho: II. Phosphorus sorption. soil Sci. Soc. am. J. 43, 547–552.
Lockett J L 1938 Nitrogen and phosphorus changes in the decomposition of rye and clover at different stages of growth. soil Sci. 45, 13–24.
McDole R E, Maxwell H B, and Fosberg M A 1981 Soil survey of the University of Idaho Sandpoint Research and Extension Center. Cooperative Extension Service Bull. No. 600, University of Idaho, Moscow, ID 14 p.
Murphy J and Riley J P 1962 A modified single solution method for determination of phosphate in natural waters. Anal. chem. Acta. 27, 31–36.
Olsen S R, Watanabe F S and Bowman R A 1978 Evaluation of soil phosphate residues by plant uptake and extractable phosphorus. proc. soil Crops Workshop, Publ. 390, University of Saskatchewan, Saskatoon. pp 48–75.
SAS Institute 1979 SAS Users Guide. SAS Institute Inc. Cary NC. 494 p.
Sen Gupta M B 1969 Phosphorous mobility in alkali soil. Effect of SAR and organic matter addition. J. Indian Soc. Soil Sci. 17, 115–118.
Singh B B and Jones J P 1976 Phosporus sorption and desorption characteristics of soil as affected by organic residues. Soil Sci. Soc. Am. Proc. 40, 389–394.
Stevenson F J 1982 Humus Chemistry. John Wiley and Sons, New York. pp. 121–134.
White R E and Ayoub A T 1983 Decomposition of plant residues of variable C/p ratio and the effect on soil phosphate availability. Plant and Soil 74, 163–173.
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Bumaya, A.H., Naylor, D.V. Phosphorus sorption and extractability in Andic soil incubated with plant residues of variable P content. Plant Soil 112, 77–81 (1988). https://doi.org/10.1007/BF02181755
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DOI: https://doi.org/10.1007/BF02181755