Establishing environmental soil phosphorus thresholds to mitigate its transfer to water bodies in Mato Grosso State, Brazil.
2023
SILVA, W. C. DA | CASSOL, P. C. | NICOLOSO, R. DA S. | MUMBACH, G. L. | DALL''ORSOLETTA, D. J. | GRANDO, D. L. | GATIBONI, L. C. | WALQUIRIA CHAVES DA SILVA, Universidade do Estado de Santa Catarina/Lages | PAULO CEZAR CASSOL, Universidade do Estado de Santa Catarina/Lages | RODRIGO DA SILVEIRA NICOLOSO, CNPSA | GILMAR LUIZ MUMBACH, Universidade do Estado de Santa Catarina/Lages | DANIEL JOÃO DALL''ORSOLETTA, Demétrio Dall’Orsoletta Ensino Agroveterinário | DOUGLAS LUIZ GRANDO, Universidade Federal de Santa Maria | LUCIANO COLPO GATIBONI, North Carolina State University.
Abstract: Excessive phosphorus (P) applications can increase nutrient levels in the soil, facilitating its transference to aquatic environments and causing contamination. Thus, the environmental P threshold (P-threshold) is a tool to establish a sound level of P in the soil, in which P values below the threshold are harmless to the environment. This study aimed to establish a P-threshold equation for the soils of Mato Grosso State, Brazil. Twenty samples of representative soils from the main swine production regions of the State were collected. These samples were characterized chemically and in terms of P adsorption capacity, then incubated with P rates for 30 days. After incubation, the water-soluble P content (P-water) and the available P content were determined by Mehlich-1 method (P-Mehlich-1). The relationship between P-water and P-Mehlich-1 allowed the determination of the P-Mehlich-1 content from which the amount of nutrient in water increases abruptly, establishing this point as the limit P (P-limit). Subsequently, the P-limit values were plotted against the clay content of the soils, and the resulting equation was used to calculate the P-threshold by adding a safety margin of 20 % to the P-limit versus clay equation. The model was tested on 120 soil samples from Mato Grosso State, and it was able to separate them into two groups with low and high P-water, classified as below or above P-threshold, respectively. Based on that, the simplified equation “P-threshold (mg dm-3) = 13 + 0.5 * % clay” was proposed.
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