When is the best time to spread manure to optimize crop production and minimize nutrient losses?
MSU EnviroImpact – a new tool for Michigan livestock producers to use when deciding on manure applications.
April 11, 2017 - Author: Shelby Burlew, Michigan State University Extension
When is the best time to spread manure for optimal crop production and minimize environmental losses? The simple answer is it depends on many factors. While not exactly a satisfying answer to a complex scenario, it truly depends on the manure handling system, cropping system, field conditions, weather forecasts, time and labor available, volume of manure in the pit and many more factors. What is the right decision when there are so many factors out of our control? The best answer is to know the risk factors during the time of manure application and minimize those risks while optimizing crop production with those additional manure nutrients (Figure 1).
To help solve this complex scenario, a new tool is available for Michigan livestock producers to use when making decisions on when and where to spread manure. The Michigan State University EnviroImpact Tool is part of the Michigan Manure Management Advisory System that was been developed through a partnership between National Weather Service/NOAA, Michigan Department of Agriculture and Rural Development (MDARD), Michigan Agriculture Environmental Assurance Program (MAEAP), Michigan State University (MSU) Institute of Water Research, Michigan Sea Grant and Michigan State University Extension. The MSU EnviroImpact Tool provides maps showing short-term runoff risks for daily manure application planning purposes; taking into account factors including precipitation, temperature, soil moisture and landscape characteristics. Anyone handling and applying livestock manure in Michigan can use this tool to determine how risky it will be spread manure on their fields.
Figure 2: This map shows day-to-day risk of runoff occurring across Michigan using National Weather Service forecast methods that consider precipitation, soil moisture, landscape characteristics and more. (Photo Courtesy of Michigan State University)
Key features of this tool include:
- Ability to sign up for e-mail or text message alerts specific to your field locations for high-risk runoff days.
- Easy visualization of the short-term risk of manure runoff (Figure 2).
- Ability to zoom in on the map to your field(s) and click on the location to determine the potential risk of runoff from manure application.
- Capability to login to the tool to draw and save your fields on the map to determine risk of runoff at any time.
- Automatic daily runoff risk forecast updates from the National Weather Service.
- Access to additional resources on manure management.
While the purpose of these maps are to help reduce the risk of applied manure leaving the fields, it is very important to follow your farm’s Manure Management Plan and to assess the risk for each field prior to manure applications. Always apply your own knowledge of your fields and landscapes when assessing the risk of runoff from manure applications. Remember this tool is just one of many in your own toolbox.
Additional Manure Application Considerations:
Risk increases with soil moisture. If you know that your fields are particularly wet, you should know that the risk of runoff from your fields would be higher than what is shown on the risk map. The opposite may hold true if you estimate that your soil moisture values are lower.
Even if the map shows low risk of runoff, your fields may not be dry enough to spread manure. Applying liquid manure (typically equivalent to 1/3 to 1 inch or more of rainfall) to wet fields could lead to a direct manure runoff, even if the field is otherwise a low risk site due to low slope, etc. Make sure your fields are dry enough to accept additional moisture. Additionally, operating field equipment on wet fields could lead to soil compaction.
Liquid manure applications increase soil moisture. An application of 27,000 gallons per acre of liquid manure is the equivalent of adding approximately 1 inch of water to your fields. A liquid manure application effectively increases your soil moisture, and therefore the risk of runoff from fields receiving liquid manure could be higher than what is shown on the risk map.
Snow-covered and frozen fields are high risk. If you have snow on your fields, the risk of runoff from your fields could be higher especially if spreading manure in the later winter months of February or March (due to snowmelt or rainfall).
Some fields are always higher risk areas. These are areas of concern on your farm, and might include fields with higher slopes, tighter soils (clay), poor drainage or close to sensitive areas such as surface waters, etc. Many of these areas should be identified in your Manure Management Plan and/or sensitive area maps. Use caution when applying manure in these areas, regardless of what the risk map indicates.
Livestock producers and manure applicators should contact their local Conservation District MAEAP technician for help in developing a Manure Management Plan that takes into account a manure-spreading plan, sensitive area field maps and alternatives to spreading if necessary. Another great resource for making manure application decisions is MDARD’s Right to Farm Generally Accepted Agricultural Management Practices (GAAMPs) specific to Manure Management and Utilization.
The MSU EnviroImpact Tool is currently under development and will be available soon. Livestock producers, manure applicators and others are encouraged to preview the tool and provide feedback. If you interested in accessing the tool and providing feedback, please contact either Shelby Burlew, MSU Extension, at email@example.com or Jason Piwarski, MSU Institute of Water Research, at firstname.lastname@example.org for access to the tool’s website.
This article was originally published in the April issue of the Michigan Farmer Magazine.