Research Highlights -
Enhancing Safe, Resilient Food Systems and Human Nutrition

Cut Matters for Long-Term Beef Storage

Vacuum-sealed beef cuts packed in the freezer of a standard home refrigerator.

Freezing beef for long-term storage can reduce meat quality. To understand the factors that cause frozen beef quality to deteriorate, meat scientists with the Arkansas Agricultural Experiment Station collaborated with researchers in Texas on a project that showed cut size and packaging mattered more than freezer type. The researchers found that larger cuts like roasts retain color quality better than individually frozen steaks, though they lose more moisture. Ultimately, the researchers noted, using proper packaging to limit air exposure is the key to preserving texture, flavor, and juiciness, extending freezer life for up to a year or longer without major quality loss.

The Problem

Consumers wanting to extend the life of their beef purchases face the challenge of maintaining meat quality during frozen storage. Freezing prevents spoilage but can damage meat cells through ice crystal formation, leading to moisture loss, toughness, discoloration, and off-flavors. Understanding how factors like cut size and freezer type affect these outcomes helps support recommendations for maintaining bulk beef quality during storage.

The Work

Derico Setyabrata, Assistant Professor of Meat Science and Muscle Biology with the Dale Bumpers College of Agricultural, Food and Life Sciences and the Arkansas Agricultural Experiment Station, led a project to compare the effects of freezing on different cuts of beef. Published in Meat and Muscle Biology, the study compared three common beef cuts — strip loin, top sirloin, and eye of round — stored as large roasts or as individual steaks. Samples were frozen and thawed using three freezer types: an industrial blast freezer, a standard home refrigerator freezer, and a home chest freezer. Collaborators at Texas Tech University conducted trained consumer panel evaluations to assess sensory traits such as tenderness, juiciness and flavor.

The Results

The study found that product size had a greater impact on final quality than the type of freezer used. Larger sections retained better color and overall quality than smaller steak portions, although they experienced greater moisture loss. Individually frozen strip loin and top sirloin steaks tended to be tougher after thawing, while eye of round cuts were less affected due to higher connective tissue. Consumer panels rated most sensory traits similarly across freezer types, suggesting that typical household freezing practices minimally affect overall eating quality when meat is packaged correctly.

The Value

These findings highlight recommendations that could help consumers reduce waste, improve satisfaction, and extend the shelf life of frozen beef products. Setyabrata compared improperly frozen meat to a popped balloon: Once ice crystals form, the cells “pop,” leading to moisture loss and oxidation that degrade flavor and texture. With stable freezer temperatures and proper packaging, however, beef can be stored for a year or more without significant loss in quality.

Read the Research

Impact of Product Size and Subsequent Consumer Freezing Practices on Meat Quality and Palatability of Different Beef Muscles
Meat and Muscle Biology
Volume 9, Issue 1 (2025)
https://doi.org/10.22175/mmb.19030

Supported in part by

The National Cattlemen’s Beef Association and the Arkansas Beef Council.

About the Researchers

Derico Setyabrata

Assistant Professor of Meat Science and Muscle Biology

Ph.D. in Meat Science, Purdue University
B.S. in Meat Science, Purdue University

Other Collaborators

Co-authors of the study at the University of Arkansas included first author Paul Olaoluwaniyi Dahunsi, graduate research assistant in the Animal Science Department; Ashley Rivera Pitti, meat lab undergraduate research assistant; Palika Dias-Morse, animal science program associate; and Morgan Denzer, Instructor in the Department of Food Science. Kelly Vierck, Extension Meat Specialist and Assistant Professor, now at the University of Tennessee Institute of Agriculture, also contributed to the study.

From Texas Tech, co-authors included Sebastian Hernandez, postdoctoral research associate, Thomas W. Dobbins, graduate research assistant, and Jerrad F. Legako, Associate Professor in the Department of Animal and Food Sciences.