City refuse compost as a phosphorus source to overcome the P-fixation capacity of sesquioxide-rich soils |
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Authors: | E Iglesias Jimenez V Perez Garcia M Espino J M Hernandez Moreno |
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Institution: | (1) Institute of Natural Products and Agrobiology, CSIC, E-38206 La Laguna, Tenerife, Canary Islands, Spain;(2) Department of Soil Science, University of La Laguna, Tenerife, Canary Islands, Spain |
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Abstract: | In sesquioxide-rich soils of tropical and subtropical areas and volcanic-ash soils with high levels of active Al(Fe), large amounts of phosphate fertilizers are needed to overcome their high P-fixation capacity (quenching strategy). A greenhouse pot experiment has been used to evaluate the effectiveness of city refuse compost (CRC) as a P-source for these variable-charge soils, compared to inorganic P. Mature CRC and K2HPO4 were applied at rates equivalent to 125, 250, 375, 500 and 625 kg P ha–1 to a ferrallitic soils from Tenerife Island (Andeptic Paleudult) with a high content in active Al+Fe (4.82%) and a high P-fixation capacity (87%). Perennial ryegrass (Lolium perenne L.) was grown in pots and plants were harvested at regular intervals after seedling emergence. CRC increases plant P concentration and soil labile-P proportional to the applied rate. The best results were obtained from a compost application of 30 t ha–1 equivalent-rate, after a residence time of at least three months. An important residual effect in the supply capacity of P in relation to the phosphate fertilizer was also observed. The relative agronomic effectiveness (RAE) in comparison to K2HPO4 was 66% after 6 months, considering P uptake + soil labile-P. The soil P-fixation capacity was significantly reduced from a compost application of 40 t ha–1 equivalent-rate. Competition in adsorption between organic ligands and phosphate, in combination with net mineralization of organic P in compost, might account for the high RAE value obtained. The main conclusion is that the city refuse compost could be a suitable P-amendment for resquioxic soils due to its high RAE, and the residual effect on P-supply. ei]H. Lambers |
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Keywords: | compost phosphate fertilizer P-fixation capacity plant P uptake sesquioxic soils soil P availability |
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