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Protein substitutes in feed can help reduce carbon footprint of swine production

Nitrogen compounds in swine manure can oxidize into nitrous oxide (N2O)

By Fred Miller – May 12, 2020

INPUT-OUTPUT — Division of Agriculture research has shown that substituting feed grade amino acids for crude protein in swine feed reduces both the costs and carbon footprint of swine production. (Photo courtesy of Charles Maxwell)

Media Contact

Fred Miller

U of A System Division of Agriculture
Arkansas Agricultural Experiment Station
(479) 575-5647 | fmiller@uark.edu

FAYETTEVILLE, Ark. — Animal scientists at the University of Arkansas System Division of Agriculture have demonstrated that replacing crude proteins in hog diets with feed grade amino acids can reduce the carbon footprint of swine production.

Commercially available amino acid supplements also help reduce feed costs while maintaining animal health and production, said Charles Maxwell, professor of swine nutrition and management for the Arkansas Agricultural Experiment Station, the research arm of the Division of Agriculture, and the Dale Bumpers College of Agricultural, Food and Life Sciences at the University of Arkansas.

Nitrogen compounds derived from excess amino acids in crude protein ingredients in swine feed end up in the manure and urine, Maxwell said. Those excreted nitrogen compounds can be oxidized by soil and air, and some of it is released into the atmosphere as nitrous oxide.

“Nitrous oxide has a greenhouse gas effect that is 298 times that of carbon dioxide,” he said. “It has the next largest impact on global warming after CO2 and methane.”

Hogs and pigs add $56 million to Arkansas’ agricultural economy, according to the 2019 Arkansas Agricultural Profile , published by the Division of Agriculture. Maxwell thought reducing its carbon footprint was worth studying.

Maxwell and research associate Tsung Cheng Tsai devised experiments to evaluate whether reformulating swine feed with amino acid supplements could mitigate greenhouse gas emission from swine production systems and still meet the nutrition requirements of nursery and grow-finish diets.

Nitrogen production is the result of excess amino acids introduced to animal metabolisms by crude protein in feed, Maxwell said. These sources in swine feed are typically corn and soybean meal.

Amino acids are essential for proper tissue development in animals, Maxwell said. A number of these are particularly critical, including lysine, valine, isoleucine and histidine, among others. They are called “limiting amino acids” because insufficient concentrations of them can impair growth performance. They are present in naturally occurring concentrations in crude protein but are not balanced for swine and other animals.

When crude proteins are mixed in feed to provide sufficient lysine, for example, they will also add excessive amounts of other amino acids. Those excesses are converted to nitrogen by the animal’s metabolism and excreted in urine and manure.

“Replacing some of the crude protein ingredients with feed grade amino acids allows us to balance limiting amino acid requirements more precisely, and that can reduce the amount of nitrogen that would be excreted,” Maxwell said.

He added that the cost of these supplements is relatively low, helping to reduce feed costs.

The trick, Maxwell said, is to replace as much of the crude protein as possible with supplements of limiting amino acids without disrupting the total nutritional needs of the pigs.

Maxwell and Tsai designed five experiments — two nursery studies and three grow-finish studies —in an attempt to define the practical limits for replacement of crude proteins in swine diets with feed grade amino acids without impairing growth performance or carcass composition. The experiments were carried out at the Division of Agriculture wean-to-finish swine facilities at the Savoy Research Complex in Washington County.

The studies showed successful ratios for replacing crude protein with feed grade amino acids at multiple stages of pig growth from nursery through finishing, Maxwell said. “It saves money on feed costs as well as reducing excreted nitrogen.”

“The goal was to develop high inclusion of amino acids in diets that would achieve the same gain and efficiency as feeding protein-based diets,” Maxwell said. “We think we have achieved that up to the seventh limiting amino acid.”

To learn more about the Division of Agriculture Research, visit the Arkansas Agricultural Experiment Station website. Follow us on Twitter at @ArkAgResearch and Instagram at ArkAgResearch.

 

About the Division of Agriculture

The University of Arkansas System Division of Agriculture’s mission is to strengthen agriculture, communities, and families by connecting trusted research to the adoption of best practices. Through the Agricultural Experiment Station and the Cooperative Extension Service, the Division of Agriculture conducts research and extension work within the nation’s historic land grant education system.

The Division of Agriculture is one of 20 entities within the University of Arkansas System. It has offices in all 75 counties in Arkansas and faculty on five system campuses.

The University of Arkansas System Division of Agriculture offers all its Extension and Research programs and services without regard to race, color, sex, gender identity, sexual orientation, national origin, religion, age, disability, marital or veteran status, genetic information, or any other legally protected status, and is an Affirmative Action/Equal Opportunity Employer.

Media Contact

Fred Miller

U of A System Division of Agriculture
Arkansas Agricultural Experiment Station
(479) 575-5647 | fmiller@uark.edu