A comparison of seven soil P tests for plant species with different external P requirements grown on soils containing rock phosphate and superphosphate residues |
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Authors: | Vijay Kumar R. J. Gilkes M. D. A. Bolland |
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Affiliation: | (1) Soil Science and Plant Nutrition, School of Agriculture, University of Western Australia, 6009 Nedlands, W.A., Australia;(2) Western Australian Department of Agriculture, Baron-Hay Court, 6151 South Perth, W.A., Australia |
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Abstract: | Seven soil tests for phosphate (P) (Bray 1, Bray 2, Truog, ammonium oxalate, Colwell, iron oxide-strip (Pi) and resin-strip soil tests) were evaluated for predicting the yield of plant species which have very different external P requirements. Two acid, sandy soils that had been fertilized six years previously with superphosphate and three rock phosphates were used. A glasshouse pot experiment with lettuce, wheat and maize was used to calibrate the soil tests.For some soil P tests, different calibrations relating yield to soil P test values were required for each plant species, P fertilizer and soil combination. The Bray 2 and Truog soil P tests were the worst predictors of yield for both soils and all plant species. The Pi and ammonium oxalate tests were the most predictive tests for one soil when data for all fertilizers were considered. The Bray 1 and Colwell soil P tests were the most predictive for the other soil. The resin-strip P test was poorly predictive of yield of lettuce and wheat for both the soils. The accuracy in prediction of yield on the basis of P test value decreased in the sequence maize > wheat > lettuce. This rank is opposite to the increasing external P requirements of these species. |
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Keywords: | Ammonium oxalate Bray 1 Bray 2 Calciphos Colwell iron oxide-strip (Pi) and resin strip soil tests rock phosphate lettuce (Lactuca sativa) maize (Zea mays) superphosphate Truog wheat (Triticum aestivum) |
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