Assessment of repeated application of poultry litter on phosphorus and nitrogen dynamics in loblolly pine: Implications for water quality |
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| Authors: | Hal O Liechty Michael A Blazier Jason P Wight Lewis A Gaston Joshua D Richardson Robert L Ficklin |
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| Institution: | 1. School of Forest Resources, University of Arkansas at Monticello, P.O. Box 3468, Monticello, AR 71656, United States;2. Hill Farm Research Station, Louisiana State University Agricultural Center, 11959 Highway 9, Homer, LA 71040, United States;3. Department of Soil and Crop Sciences, Texas A & M University, 615 Heep Center, 370 Olsen Blvd., College Station, TX 77843-2474, United States;4. Department of Agronomy & Environmental Management, Louisiana State University Agricultural Center, 224 M.B. Sturgis Hall, Baton Rouge, LA 70803, United States;5. Natural Resources Conservation Service, Richmond Service Center, 823 S. Round Barn Rd., Richmond, IN 47374-4717, United States |
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| Abstract: | The Southeastern United States has a robust broiler industry that generates substantial quantities of poultry litter as waste. It has historically been applied to pastures close to poultry production facilities, but pollution of watersheds with litter-derived phosphorus and to a lesser extent nitrogen have led to voluntary and in some areas regulatory restrictions on application rates to pastures. Loblolly pine (Pinus taeda L.) forests are often located in close proximity to broiler production facilities, and these forests often benefit from improved nutrition. Accordingly, loblolly pine forests may serve as alternative land for litter application. However, information on the influence of repeated litter applications on loblolly pine forest N and P dynamics is lacking. Results from three individual ongoing studies were summarized to understand the effects of repeated litter applications, litter application rates, and land use types (loblolly pine forest and pasture) on N and P dynamics in soil and soil water. Each individual study was established at one of three locations in the Western Gulf Coastal Plain region. Annual applications of poultry litter increased soil test P accumulation of surface soils in all three studies, and the magnitude of increase was positively and linearly correlated with application rates and frequencies. In one study that was established at a site with relatively high soil test P concentrations prior to poultry litter application, five annual litter applications of 5 Mg ha−1 and 20 Mg ha−1 also increased soil test P accumulation in subsurface soils to a depth of up to 45 cm. Soil test P accumulations were greater in surface soils of loblolly pine stands than in pastures when both land use types received similar rates of litter application. In one study which monitored N dynamics, lower soil organic N, potential net N mineralization, potential net nitrification, and soil water N was found in loblolly pine stands than pastures after two annual litter applications. However, increases in potential net N mineralization, net nitrification, and soil water N with litter application were more pronounced in loblolly pine than in pasture soils. Loblolly pine plantations can be a viable land use alternative to pastures for poultry litter application, but litter application rate and frequency as well as differences in nutrient cycling dynamics between pine plantations and pastures are important considerations for environmentally sound nutrient management decisions. |
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| Keywords: | Fertilization Poultry litter Mineralization Nitrification Loblolly pine Pastures |
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