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Assessing soil P fractions changes with long‐term phosphorus fertilization related to crop yield of soybean and maize

Stefania C. Appelhans, Pedro A. Barbagelata, Ricardo Melchiori, Flavio H. Gutiérrez Boem

2020Soil Use and Management32 citationsDOIOpen Access PDF

Abstract

Abstract Long‐term P Fertiliser application increases soil phosphorus (P) labile fractions, which can be associated with crop P uptake and grain yield and are useful to improve fertilizer recommendations. Research aims were to evaluate in long‐term experiments with different P Fertiliser application in a Mollisol and a Vertisol: (a) the changes of soil P fractions and (b) the relationship between soil P fractions with long‐term P Fertiliser application, with accumulated apparent P budget, grain P, total P uptake, soybean ( Glycine max L.Merr.) and maize ( Zea mays L.) grain yield. Soil P fractions were measured after 1 and 9 year since the beginning of the long‐term experiments. Experiments included an initial Fertiliser application rate of 200 kg P ha −1 and annual P Fertiliser application rate of 36 kg P ha −1 . Bray1‐P, total, organic, and inorganic P in fine (<53 μm) and coarse (>53 μm) ( CF ) soil fractions, and in Na HCO 3 extract were measured. Initial P Fertiliser application increased inorganic and total P fractions. However, Bray1‐P, total P in Na HCO 3 extract and in the CF were the fractions that most increased with continuous long‐term P Fertiliser application in both sites. In the Mollisol, maize grain yield was unrelated to long‐term P Fertiliser application. In the Vertisol, total P in Na HCO 3 extract, and total and organic P in the CF were more closely related to soybean grain yield than Bray1‐P. We proposed soil P indices of labile inorganic and organic P that showed close relationships with soybean grain yield and may be useful to improve the diagnosis of P soil fertility.

Topics & Concepts

VertisolMollisolAgronomyPhosphorusFertilizerChemistryHuman fertilizationCropNutrientYield (engineering)Crop yieldNitrogenAnimal scienceSoil waterEnvironmental scienceBiologySoil scienceMetallurgyOrganic chemistryMaterials scienceSoil Carbon and Nitrogen DynamicsSoil and Water Nutrient DynamicsPlant nutrient uptake and metabolism