Evaluation of the phosphorus source component in the phosphorus index for pastures.

A phosphorus (P) index for pastures was developed to write nutrient management plans that determine how much P can be applied to a given field. The objectives of this study were to (i) evaluate and compare the P index for pastures, particularly the P source component, and an environmental threshold soil test P level by conducting rainfall simulations on contrasting soils under various management scenarios; and (ii) evaluate the P index for pastures on field-scale watersheds. Poultry litter was applied to 12 small plots on each of six farms based on either an environmental threshold soil test P level or on the P index for pastures, and P runoff was evaluated using rainfall simulators. The P index was also evaluated from two small (0.405 ha) watersheds that had been fertilized annually with poultry litter since 1995. Results from the small plot study showed that soil test P alone was a poor predictor of P concentrations in runoff water following poultry litter applications. The relationship between P in runoff and the amount of soluble P applied was highly significant. Furthermore, P concentrations in runoff from plots with and without litter applications were significantly correlated to P index values. Studies on pastures receiving natural rainfall and annual poultry litter applications indicated that the P index for pastures predicted P loss accurately without calibration (y = 1.16x - 0.23, r(2) = 0.83). These data indicate that the P index for pastures can accurately assess the risk of P loss from fields receiving poultry litter applications in Arkansas and provide a more realistic risk assessment than threshold soil test P levels.

[1]  A. Mehlich Mehlich 3 soil test extractant: A modification of Mehlich 2 extractant , 1984 .

[2]  T. C. Daniel,et al.  Development of a phosphorus index for pastures fertilized with poultry litter--factors affecting phosphorus runoff. , 2004, Journal of environmental quality.

[3]  Dwayne R. Edwards,et al.  REDUCING PHOSPHORUS RUNOFF AND INHIBITING AMMONIA LOSS FROM POULTRY MANURE WITH ALUMINUM SULFATE , 2000 .

[4]  R. G. Gilbert,et al.  The Concept and Need for a Phosphorus Assessment Tool , 1993 .

[5]  S. Carpenter,et al.  NONPOINT POLLUTION OF SURFACE WATERS WITH PHOSPHORUS AND NITROGEN , 1998 .

[6]  M. Cabrera,et al.  Phosphorus and ammonium concentrations in surface runoff from grasslands fertilized with broiler litter. , 2001, Journal of environmental quality.

[7]  Mukerrem Cakmak,et al.  North Carolina State Univ , 1997 .

[8]  Andrew N. Sharpley,et al.  Dependence of runoff phosphorus on extractable soil phosphorus , 1995 .

[9]  David M. Miller,et al.  Relationship between Phosphorus Levels in Three Ultisols and Phosphorus Concentrations in Runoff , 1999 .

[10]  Dwayne R. Edwards,et al.  Relating Extractable Soil Phosphorus to Phosphorus Losses in Runoff , 1996 .

[11]  T. C. Daniel,et al.  A Portable Rainfall Simulator for Plot-Scale Runoff Studies , 2002 .

[12]  T. C. Daniel,et al.  Runoff Water Quality from Poultry Litter-Treated Pasture and Forest Sites , 2000 .

[13]  A N Sharpley,et al.  Assessing site vulnerability to phosphorus loss in an agricultural watershed. , 2001, Journal of environmental quality.

[14]  Andrew N. Sharpley,et al.  Phosphorus management at the watershed scale:a modification of the phosphorus index , 2000 .

[15]  For Texas,et al.  PHOSPHORUS ASSESSMENT TOOL , 2005 .