The Scoop on Poop – Why is Manure Important?

ANALYSIS - For centuries, livestock farmers have used manure as a fertilizer, soil amendment, energy source and even construction material.
calendar icon 22 October 2015
clock icon 4 minute read

With today’s science and technology, we can use manure more efficiently and in new ways like protecting water and air quality and reducing greenhouse gases. When managed improperly, manure can harm the environment. But when properly managed, it can serve as a valuable, renewable resource.

SoilUtilising manure to meet crop nutrient needs is beneficial for many reasons, according to Laura Pepple, Livestock Extension Specialist with the University of Illinois Extension Service in an online presentation

  1. Good source of macronutrients
  2. Complete nutrient package
  3. Improved soil quality
  4. Reduces soil erosion risk
  5. Saves money

Beyond supplying a crop with its Nitrogen (N), Phosphorus (P), and Potassium (K) needs, manure improves soil quality through better water use and increased organic matter and micronutrients.

“This makes manure an ideal soil amendment for fields with low to moderate soil fertility,” said Ms Pepple. “When manure is applied to fields at appropriate agronomic rates, it will also act like field residue and reduce the risk of soil erosion occurring in that field.“

The following manure information details the beneficial uses and importance of manure and demonstrates the ways it can benefit the economy while also being managed in ways which protect the environment. It was created by several US commodity groups in partnership with the US Environmental Protection Agency.

Components of Manure
Nutrients

Manure contains nitrogen, phosphorus, and other nutrients that plants need to grow. Farmers can often save money by properly using manure as a fertiliser. Farmers can also sell manure or manure products to gardeners, landscapers, golf courses, and others who use nutrients to grow plants. Manure can be land-applied in its raw form, or after processing (for example, composting, pelleting, nutrient extraction).

Just like other fertiliser sources, as long as the manure is applied from the right source, at the right rate and time, using the right methods, and in the right place, manure nutrients can be recycled safely through agricultural systems. Land application of manure should be guided by a nutrient management plan (NMP) that outlines how to balance crop needs with manure nutrient concentrations. The NMP includes specifications for manure application based on soil and geographical conditions in order to avoid over-application, prevent runoff, and protect water quality.

Proper use of manure as a fertiliser minimises nutrient pollution to water resources and helps build healthy soils. Manure nutrients can also be used to grow worms, insect larvae, algae, or other living organisms. Through “biomass conversion,” these organisms transfer manure nutrients to their bodies or castings, which can then be harvested and used as fertiliser, animal feeds, or soil amendments.

Organic Matter

Organic MatterAdding manure to soils is an excellent way to increase soil organic matter. Soil organic matter contributes to overall soil health—the soil’s ability and sustainability to function as a living ecosystem. In addition to slowly releasing plant nutrients over time, organic matter improves soil structure and the soil’s ability to hold water.

Healthier soils improve crop yields and reduce soil loss from both wind and water erosion, and protect water quality by reducing contaminated runoff. Land managers can increase soil organic matter by applying raw manure or a manure product like compost, pellets, or biochar — a product of manure combustion. Manure should be utilised appropriately, as noted in the previous section.

Solids

Manure begins as mostly water. Different types of manure can contain from 8 to 26 per cent solids. By separating the liquid and solid portions of manure, the solids can be used for other purposes. Many dairy farms use separated manure solids for bedding. This can save farmers up to $50 per cow every year— savings that can add up for dairy farmers milking hundreds of cows!

Energy

Energy from ManureManure contains a lot of carbon and other elements that can be used to generate different types of biofuels. Anaerobic digestion is a technology that uses microbes to process manure into biogas. Biogas can be used to generate heat or electricity for use on the farm or sale to the local power grid.

Thermal processes can produce liquid bio-oil fuels, including biodiesel, and useful byproducts like biochar. Bio-oils can be used for heating or generating electricity. Biodiesel can be used just like petroleum diesel. Gasification can also be used to convert manure to syngas, a synthetic gas fuel that can power engines, turbines, and fuel cells. Using manure to generate biofuels reduces our reliance on non-renewable fossil fuels. In addition, farmers can save money when biofuels are used on the farm.

Fibre

Manure contains a great deal of fibre. Some of the fibre is from undigested animal feed and some is from straw, sawdust, or other bedding that gets mixed in with the manure. Manure fibre has been used to produce a number of speciality consumer products like plant growth medium (similar to peat moss), seed starter pots, fertiliser garden sculptures, paper, and building materials. Consumer products help turn manure from a potential environmental liability to a commodity.

The fact sheet detailing Beneficial Uses of Manure and Environmental Protection was a collaboration between the Environmental Protection Agency and the National Cattlemen's Beef Association, U.S. Poultry & Egg Association, United Egg Producers, National Pork Producers Council and National Milk Producers Federation. 

Sarah Mikesell, Senior Editor

Sarah Mikesell, Senior Editor

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