Submitted to: Water Environment Federation
Publication Type: Proceedings
Publication Acceptance Date: 1/15/2003
Publication Date: 1/15/2003
Citation: NOVAK, J.M. UTILIZATION OF WATER TREATMENT RESIDUAL MATERIAL TO BIND INORGANIC PHOSPHORUS. CD-ROM. WATER ENVIRONMENT FEDERATION. 2003. 7 P. Interpretive Summary:
Technical Abstract: The U.S. livestock industry in many states has large confined animal populations in limited geographic areas. This trend has resulted in a concentration of manure production and the possibility of over-application of manure to soils. Over-application of manure may result in an accumulation of soil phosphorus (P) much higher than crop P nutrient requirements. Incidental losses of P from fields with excess soil P concentrations into water bodies have raised environmental concerns about decreased water quality. P losses have been reduced from manure-treated fields using water treatment residual (WTR) material. Water treatment residual material consists of river sediments (silts and clays) that have been flocculated using alum [Al2(SO4)3] during drinking water purification processes. Alum-treated WTR material can effectively bind P because it contains Al-oxides. Our objective was to determine the inorganic-P sorption characteristics of WTR material and WTR material mixed with a Norfolk soil. The P sorption data were fitted to a Langmuir equation to determine P sorption maxima (Pmax) values. The WTR material had a high Pmax value of 215 mg P/g. In contrast, the unamended Norfolk soil had a relatively low Pmax value of <0.9 mg P/kg. Adding WTR material to Norfolk soil at 5 and 10% (w/w) resulted in an increase in Pmax values to 5 and 8 mg P/g, causing a 5- to 9-fold increase in the Pmax compared to unamended soil. These results imply that alum-treated WTR material can bind large amounts of inorganic-P and can be a useful amendment to increase the Norfolk soil's P sorption capacity.