Monitoring runoff from cattle-grazed pastures for a phosphorus loss quantification tool

Monitoring runoff from cattle-grazed pastures for a phosphorus loss quantification tool

•Phosphorus loss in runoff from agriculture is a water quality issue.•We monitored phosphorus runoff from cattle-pastures for two years.•We adapted and tested the APLE to predict phosphorus runoff from cattle pastures.•The APLE model can help estimate whole-farm phosphorus loss from cattle systems....

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Bibliographic Details
Published in:Agriculture, ecosystems & environment Vol. 199; pp. 124 - 131
Main Authors: Vadas, Peter A., Busch, Dennis L., Powell, J.Mark, Brink, Geoff E.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2015
Subjects:
Cattle
Dissolution
Estimating
Farms
Grazing
Mathematical models
Nutrients
Phosphorus
Runoff
Sediments
USA, Wisconsin
Model
Phosphorus
Grazing
Runoff
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Summary:•Phosphorus loss in runoff from agriculture is a water quality issue.•We monitored phosphorus runoff from cattle-pastures for two years.•We adapted and tested the APLE to predict phosphorus runoff from cattle pastures.•The APLE model can help estimate whole-farm phosphorus loss from cattle systems. Nitrogen (N) and phosphorus (P) loss from agriculture persists as a water quality impairment issue. For dairy farms, nutrients can be lost from cropland, pastures, barnyards, and outdoor cattle lots. We monitored N and P loss in runoff from dairy and beef grazed pastures for two years in southwest Wisconsin, USA and tested the accuracy of the Annual P Loss Estimator (APLE) model to predict runoff P from pastures using study and literature data. About 3–10% of annual precipitation became runoff from the pastures, and sediment loss was very low due to well-established vegetation. Measured annual nutrient loss in runoff was also low, averaging 1.0kgha−1 for total P and 2.9kgha−1 for total N. Runoff sediment and particulate N and P concentrations were well related to each other and tended to be greater in rainfall-induced runoff than snowmelt runoff. Conversely, dissolved N and P runoff concentrations were greater in snowmelt runoff. APLE was able to reliably predict annual P loss in runoff, estimating that the average relative contribution to total pasture P loss was about 10% from fertilizer, 15% from soil dissolved P, 30% from dung, and 45% from soil erosion. Our study has increased the ability to develop reliable models for estimating the impact of cattle grazing pastures on nutrient runoff, which will be valuable in estimating whole-farm P loss from dairy production systems and identifying areas on dairy farms where P loss remediation should be targeted.
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ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2014.08.026