Wednesday, November 7, 2007
245-16

Dairy Manure-Component Effects on Phosphorus Release from Sandy Soils.

Manohardeep Josan1, Vimala D. Nair1, and Willie Harris2. (1) University of Florida, Soil & Water Science Dept., PO Box 110510 102 Newell Hall, Gainesville, FL 32611, (2) Soil and Water Science, University of Florida, 106 Newell Hall, P.O. Box 110510, Gainesville, FL 32611

Phosphorus (P) in heavily manure-amended soils can be labile even years or decades after manure input cease. Knowledge of manure-derived components and their associations with P is pertinent to nutrient management for sandy soils with minimum P sorbing capacity. Effects of manure-derived components such as Mg, Si, and dissolved organic carbon (DOC) on P solubility in manure-amended sandy soils were studied. Soil samples (0-25 cm) from manure-amended areas were collected from the Suwannee and Okeechobee Basins of Florida. The soil release of P, Ca and Mg was studied using repeated water extractions and 1.0 M NH4Cl extractions. Columns of the soils were leached with deionized water and leachate speciation was modeled using MINTEQ. Solid state assessments of dairy manure and manure-amended soils were done using XRD, SEM, and elemental microanalysis. The inhibitory effects of Mg, Si, and manure-derived DOC on Ca-P crystallization were studied by incubating solutions with and without clay-sized solids for 20 weeks. Repeated water and NH4Cl extractions and speciation of column leachates confirm that sparingly-soluble phases of P associated with Mg and Ca control P release from the manure-amended soils and maintain elevated P concentrations in soil solutions even years after abandonment of the dairies. Solid state assessments suggested Mg-P and Ca-P associations in dairy manure and manure-amended soils. Formation of the most stable Ca-P mineral, hydroxyapatite, was inhibited by Mg and/or DOC, but not Si, in dairy manure-amended soils. Mg-P associations in manure and manure-amended soils could maintain elevated P solubility, and Mg in soil solution could inhibit formation of stable forms of Ca-P. Therefore, consideration of Mg and Ca is necessary to explain the nature of P in manure-amended soils. Preemptive dietary controls to maximize Ca-P and minimize Mg-P in manure would be a strategy to reduce P loss from these soils in the future.