s:1875:"%T Soil phosphorus fraction dynamics during 18 years of cultivation on a typic Paleudult 
%A Beck M A 
%A Sanchez P A J 
%X Traditional soil P test methods estimate plant available inorganic P but ignore the less available inorganic and organic P pools. In low-input systems where fertilizer P additions are very low to nil, these less available P pools may be a better measure of potential plant available P, particularly in highly weathered soils. The objectives of this study were to determine the size and changes in soil P pools in the nonfertilized and fertilized treatments of a long-term continuous cultivation experiment established on a Typic Paleudult in Yurimaguas, Peru. A modified version of the Hedley et al. procedure was used to sequentially fractionate soil P into increasingly recalcitrant organic and inorganic pools. The use of path analysis highlights the interactions among P pools and the different roles of the pools in P cycling between the nonfertilized and fertilized system. For the fertilized system, the NaOH-extractable inorganic P pool acts as a sink for fertilizer P but desorption is rapid enough to maintain high levels of plant available p For this system, inorganic P pools explain 96 percent of the variation in the level of available pOrganic P is primary source of plant-available P in the nonfertilized system and explains 44 percent of the variation in the level of available P, measured by anion exchange resin, is dependent on crop residue (b values _ standard error = 4.98 _ 3.57), whereas yield depends most strongly on the available P(0.16 _ 0.11) and on NaOH-extractable organic P(-0.17 _ 0.11). The lack of stability in organic P levels in the first 10 yr illustrates the need for long-term experiments. The presented results support the notion that traditional soil P tests are inadequate for low- to no-input systems. 
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