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Related Experiment Video

Updated: Jul 6, 2026

A Protocol for Collecting and Constructing Soil Core Lysimeters
13:23

A Protocol for Collecting and Constructing Soil Core Lysimeters

Published on: June 6, 2016

Managing broiler litter application rate and grazing to decrease watershed runoff losses.

K R Sistani1, G E Brink, J L Oldham

  • 1USDA-ARS, Animal Waste Management Research Unit, Bowling Green, KY 42104, USA. karamat.sistani@ars.usda.gov

Journal of Environmental Quality
|April 10, 2008
PubMed
Summary
This summary is machine-generated.

Pasture management affects nutrient runoff. Grazed pastures increase runoff, especially when broiler litter is applied based on nitrogen, leading to higher phosphorus loss.

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Area of Science:

  • Agronomy
  • Environmental Science
  • Soil Science

Background:

  • Nutrient runoff from pastures is a significant environmental concern.
  • Broiler litter application rates and pasture management are key factors influencing nutrient loss.

Purpose of the Study:

  • To investigate the impact of pasture management (grazed vs. hayed) and broiler litter application rate (N-based vs. P-based) on nutrient runoff.
  • To analyze nutrient and sediment concentrations in runoff water from bermudagrass pastures.

Main Methods:

  • Conducted a factorial experiment on 21 large paddocks of bermudagrass.
  • Collected runoff water from natural rainfall events over three years (2001-2003).
  • Analyzed runoff water and soil samples for various nutrients and sediments.

Main Results:

  • Runoff volume was 29% greater from grazed pastures compared to hayed pastures.
  • Higher inorganic nitrogen (N) was observed in runoff from grazed paddocks with N-based litter application.
  • Total phosphorus (P) loss was highest in grazed treatments with N-based litter application, with total dissolved P dominating.

Conclusions:

  • Broiler litter application rates should be P-based for grazed pastures to minimize P loss.
  • N-based litter application may be suitable for hayed pastures with low soil P levels.
  • Pasture management significantly influences nutrient transport via runoff.