Kr. Sistani et al., Impact of drying method, dietary phosphorus levels, and methodology on phosphorus chemistry of broiler manure, COMM SOIL S, 32(17-18), 2001, pp. 2783-2793
Areas of intensive poultry production are prone to high phosphorus (P) loss
es due to excessive manure application. Historically, manure application ra
te has been calculated based on nitrogen (N) needs of the crops and N conte
nt of the manure with no attention to the quantity of phosphorus (P) loadin
g. In many instances, a gradual buildup of P in soil has resulted from long
term manure application. Therefore, P input from animal manure via runoff i
s acknowledged as the primary factor for the eutrophication of surface wate
r bodies. This study was conducted to evaluate (i), the impact of dietary P
concentration on the broiler manure P content and the pre-analysis drying
methods on the broiler manure nutrient composition with emphasis on phospho
rus and (ii), to compare the use of Ion Chromatography and the Murphy-Riley
method for the determination of inorganic phosphorus in the broiler manure
water extract. Four drying methods were used to dry the fresh broiler manu
re as follows: air drying (AD). freeze drying (FD), oven drying at 65 degre
esC (OD65), and oven drying at 105 degreesC (OD105). The results were compa
red with analysis of the fresh broiler manure with no drying (ND). The diet
P concentration did not affect the broiler manure total N content. However
, a significant decrease in total N occurred at all P levels due to drying
when compared with fresh manure analysis. The diet P level had significant
effect on total P and water-extractable P. Freeze drying followed by OD105
caused the most reduction in manure total P content. Drying also had a sign
ificant effect on the metal nutrient content of the broiler manure. However
, the effect was inconsistent.