Water quality benefits of weather-based manure application timing and manure placement strategies

The timing of manure application and placement of manure significantly affects manure nutrient use efficiency and the amount of nutrient lost from a field. Application of manure prior to a minimal precipitation period, and manure application through incorporation, reduces risks associated with nutrient loss through surface runoff. The current study aims to explore potential water quality impacts related to manure application strategies on the timing of application and approach (surface broadcasting or incorporation). The Soil and Water Assessment Tool (SWAT) was used to represent manure application scenarios and quantify potential water quality impacts in Susquehanna River Basin located in the Mid-Atlantic region of the United States. A baseline (business-as-usual) scenario was developed with manure application based on crop planting date and manure storage availability, and surface broadcasting as the application approach. The baseline was compared with a strategically timed manure application considering weather forecasting and manure incorporation. The strategic, weather-based manure application approach reduced TN and TP loading at the outlet by 4% and 6%, respectively. Manure incorporation simulations considering low-disturbance injection showed significant reduction of about 19% for TN and 44% for TP at the watershed outlet. Winter closure of manure application could reduce organic nutrient loss. Winter application of manure in 21% of row cropped areas (2% of whole watershed area) increased organic N and P loading by 10% and 4%, respectively, at watershed outlet.

Automated summary

The timing and placement of manure application have a significant impact on nutrient use efficiency and nutrient loss from fields. Application of manure before a minimal precipitation period and incorporation of manure can reduce nutrient loss through surface runoff. This study aimed to assess water quality impacts of manure application strategies on timing and approach using the Soil and Water Assessment Tool. Results showed that strategically timed manure application and low-disturbance incorporation significantly reduced TN and TP loading at the watershed outlet. Winter closure of manure application could reduce organic nutrient loss, but winter application of manure in certain areas increased organic N and P loading at the outlet.