57-6 Effect of Poultry Manure Amendment on Soil Phosphatase Activity

Poster Number 6

See more from this Division: Joint Sessions
See more from this Session: Biologically Induced Dissolution and Precipitation of Minerals in Soils and Sediments (Posters)

Monday, 6 October 2008
George R. Brown Convention Center, Exhibit Hall E

Heidi Waldrip-Dail1, Zhongqi He2, C. Wayne Honeycutt1 and Susan Erich3, (1)New England Plant, Soil and Water Lab, USDA-ARS, Orono, ME
(2)USDA-ARS, Orono, ME
(3)Plant, Soil and Environmental Sciences, Univ. of Maine, Orono, ME
Abstract:
Animal manure has traditionally been used as a fertilizer source. Manure phosphorus (P) exists in many forms, not all of which are immediately available. Microbial and plant-derived phosphatases can mineralize some organic P forms. Increased understanding of effects of manure application on soil phosphatase activity and subsequent P lability is needed to effectively use manure fertilizers. To determine short-term effects of manure amendment on soil phosphatase activity, we aerobically incubated two Maine soils with layer hen manure at 0, 7, or 14 mg manure per g soil (denoted Control, PML, and PMH, respectively) at 25oC for 108 days and examined activities of phosphomonoesterase (acid, pH 6.5; alkaline, pH 11.0), and phosphodiesterase. Poultry manure amendment impacted both phosphomonoesterase and phosphodiesterase activity. During the early phase of the incubation (Days 0-24) the pattern of phosphodiesterase activity with PMH differed from Control and PML, with decreased activity at Day 14 and a 3x increase at Day 24. Acid phosphomonoesterase activity increased with amendment in the early incubation stages (days 3-14) in both soils, with highest activity levels observed at the lower (PML) amendment rate. Amended Newport soil (coarse-loamy, mixed, frigid Typic Haplorthod) had higher alkaline phosphomonoesterase activity from Day 0-24 but increases were not observed until Day 14 in Caribou soil (fine-loamy, isotic, frigid Typic Haplorthod). These results suggest that manure amendment may affect enzyme activities differently depending upon soil characteristics, including pH and texture and that high manure application rates could inhibit phosphomonoesterase activity, particularly in acidic soils.

See more from this Division: Joint Sessions
See more from this Session: Biologically Induced Dissolution and Precipitation of Minerals in Soils and Sediments (Posters)