Study could advance the field of beef production

While it's long been said "you are what you eat," a team of animal scientists in the University of Tennessee Institute of Agriculture is taking an in-depth look at how what you are is influenced by your ability to eat, at least in cattle.

Phillip Myer, an assistant professor and microbiologist in the Department of Animal Science, is leading a new study to determine how the rumen, the largest compartment of the cattle stomach, and the microbes that inhabit it affect the conversion of low-quality feedstuffs into usable energy for ruminants.

Funded by the USDA National Institute of Food and Agriculture, the $500,000 study seeks to identify whether the genetics of a particular cow influences the rumen microbiome and whether that influence can be passed on to future generations.

The overarching hypothesis of this project, is that host beef cattle genetics are associated with the variation of microbes in the rumen, producing an individualized rumen microbiota among animals."

Phillip Myer, Assistant Professor and Microbiologist, Department of Animal Science, University of Tennessee Institute of Agriculture

Myer believes that if certain microbes are significant for feed efficiency, disease resistance, and other desirable production traits in cattle, then ruminal microbes represent the greatest opportunity to rapidly improve beef cattle nutrition and influence growth to help producers meet future global protein demands.

Specifically, the three-year project seeks to determine the microbes and microbial interactions in the rumen of Angus cattle as well as the microbes' relation to feed efficiency.

The scientists--including Jonathan Beever, director of the UTIA Genomics Center for Advancement of Agriculture; Brynn Voy, also a professor in the UT Department of Animal Science; and Larry Kuehn and James Wells, both with the USDA U.S. Meat Animal Research Center--also seek to estimate the heritability of the rumen microbes and microbial features and to identify host genomic markers that ensure heritability.

The goal is microbiome manipulation to enhance agricultural production.

Says Myer, "This project will ultimately provide a means to increase food availability while lowering environmental impacts, develop more sustainable cow-calf production systems, and enhance Angus breeding programs."

The project will dramatically advance the field of beef production agriculture to sustainably meet the protein requirements of an ever-increasing global population.

The award is one of 23 that NIFA announced last month that should lead to better management strategies for animal production systems, enhance production efficiency, and further develop high quality animal products for human use. Each of the grants is part of NIFA's Agriculture and Food Research Initiative.

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