Measurement of the maximum amount of water-extractable phosphorus in animal manure compost by continuous and sequential water extraction

Measuring the phosphorus (P) solubility in animal manure compost (AMC) is important to estimate both the risk of P loss from agricultural land and the P availability for crops in agriculture that use AMC as fertilizer. Water-extractable phosphorus (WEP) has most often been used to estimate P solubility in AMC. A single water extraction with a high ratio of compost to water is usually used to determine WEP, but in many cases, this may not evaluate the maximum WEP. In this study, we extracted the P included in AMC by using a continuous extraction method with a large amount of water, and tested this approach for 16 AMCs: four cattle manure composts, five swine manure composts, five layer (chicken) manure composts, and two broiler (chicken) litter composts. The P dissolution patterns were fitted to kinetic models, and the maximum WEP (WEP_max) was determined by the coefficient of the non-linear regression equation. The WEP_max values corresponded to the sum of H₂O- and sodium bicarbonate (NaHCO₃)-extractable P measured using the modified Hedley sequential extraction method. The result also suggests that the maximum amount of WEP from AMC can be estimated rapidly using a sequential extraction (the Hedley method) that has been widely used to characterize P in manure or AMC. The maximum water-extractable magnesium (Mg) (WEMg_max) was significantly positively correlated with WEP_max (r = 0.854, P < 0.01). This suggests that WEP_max in the AMCs is affected by water-soluble magnesium compounds.