6000 Selecting a Beef Breed | UGA Cooperative Extension
beef calves

Revised by Carole H. Knight, County Extension ANR Agent – Bulloch County
and Ted G. Dyer, Former Extension Animal Scientist – Beef Cattle

New cattle producers frequently ask, "Which breed should I choose?" This question brings cold chills to many knowledgeable cattle producers and excitement to just as many enthusiastic breeders. The diversity of resources and management capabilities of any operation makes this question difficult to answer. This publication provides accurate, unbiased information to guide the decision-making process. After reading this publication, you should understand why the only correct answer is, "It depends!"

The two fundamental categories of beef cattle operations are purebred and commercial. The purebred operation requires more time, record keeping and initial input. The commercial operation is generally a lower-input, lower-risk type of venture. When choosing a breed for either a commercial or purebred operation, base your decision on profitability. Table 1 illustrates that while production can be increased by selection for growth, the increased production from crossbreeding is more rapid and cost-effective.

Unfortunately, one of the more influential factors on breed selection is coat color. How many times have you heard someone say, "I like 'em because they're black"? Coat color, whether it is red, black, white, yellow, gray or mixed, has little to do with performance, but it does affect how people perceive cattle. A herd of purebred cattle will generally be more uniform in coat color than a herd of crossbred cows. There are breeds that will produce all of the colors mentioned above and more. As a producer, you must be satisfied with the color and its uniformity or lack of uniformity. Productivity will suffer, however, if coat color is a primary selection trait. If your breed selection is more dependent on production and return on investment, make coat selection low on the list of criteria.

Traits used in the final selection process should not be affected by the type of operation (commercial or purebred). The one unique aspect of the purebred industry is the high-profile advertising and educational programs, such as field days. The purebred cattle market often provides a higher return per cow unit, but at the expense of higher maintenance costs, higher breeding costs, more management inputs and greater risks.

Table 1. Comparison of Production and Profitability between Crossbred Cows, Selected and Unselected Purebred Hereford Cows
  Crossbred Unselected Selected*
Pregnancy Rate 83% 86% 79%
Avg. Cow Weight 1,234 lbs 953 lbs 1,168 lbs
Adj. Weaning Wt. 612 lbs 402 lbs 494 lbs
Calf Crop Weaned per Cow Wintered 87% 84% 73%
Weaning Wt. per Cow Wintered 530 lbs 338 lbs 358 lbs
Return over Feed Cost $21.67 -$9.72 -$32.42
Adapted from Ritchie, 1986, MSU Research Report FS-473.
* Selection was for increased growth rate.

Start with the Basics

The factors that influence returns to a commercial operation are calf crop percentage, weaning weight, market price and annual cow costs. The following formula outlines how these factors must balance in order to optimize profitability.

Annual Cost per Cow
Feed (grain and mineral)
Herd Health

Hay (purchase vs. custom)
Depreciation (cow purchase)

Must Equal

Weaning Weight

Growth Rate
Milk Production

X Calf Crop Percentage X

Bull Fertility

Market Price

Mgt. Ability

The factors that influence weaning or market weight and calf crop percentage are most affected by breed selection.

The weaning or market weight of the calves is affected by genetics, milk production of the brood cow, availability of pasture and / or creep feed, and environmental conditions such as temperature, etc. Work toward calving 30 to 60 days prior to the best forage season in your area. Cow milk production declines after three months; therefore, supplement the nutrient requirements of the growing calf by making high-quality forage available. If your forage system lacks high-quality forages, the selection of a fast-growing, heavy-milking breed would be detrimental to optimum productivity.

Researchers evaluated breed types using varying percentages of European x British and beef x dairy crossbred cows. When maintained in similar environments, the larger-framed, higher-milking cows had poor reproductive performance. Thus, when genetic potential for milk is high a cow?s re-breeding percentage will be reduced. The growth potential of the calves will only be met when adequate milk production is available. When milk supply is abundant and forage quantity and quality are marginal, the result is a reduced calf crop percentage due to low cyclicity and pregnancy rates; therefore, make sure to match your forage production system to the genetic potential of your brood cow herd.

With this "optimum philosophy" in mind, we can look at general trends in milk production, growth and reproduction of several breeds in the United States.


In the early 1970s, a research project was started at the Meat Animal Research Center (MARC) in Clay Center, Nebraska. The project was designed to evaluate the "recently" imported breeds from Europe and provides the most complete, comprehensive data available. All breeds were not compared, so some information is not available. Breeds may perform differently in Georgia. The project does provide a valid comparison of the cattle in one common environment.

Table 2 outlines how the breeds compare to the Angus x Hereford crossbred (used as a standard). The values in the table are listed in ratios. A ratio of 105 indicates a value of 5 percent above the standard of 100; a ratio of 95 indicates a value 5 percent below the standard. The actual percentage is in parenthesis for the percent of cows pregnant after the first breeding season and percent calf crop weaned. Calving difficulty was reported in actual percentage.

Since there are more than 70 recognized cattle breeds, it is impossible to compare them all at once. The breeds are generally grouped into three types: British, European and Zebu-influence. The Zebu-influence breeds were developed in the Gulf Coast region of the United States.

Table 2. Comparison of Production Traits of Several Breeds
  Calves Heifers Cows
  Percent Calving Difficulty Growth Rate to Weaning Growth Rate to Yearling Age at Puberty % Preg. after first breeding season Ratio (%) % Calf crop weaned Ratio (%) % Calving Difficulty

12 001A hr. milk production 5FF4

Weaning wt. per cow exposed
Angus x Hereford 3 100 100 100 100 (87) 100 (84) 13 100 100
Red Poll 4 98 96 106 98 (85) 95 (79) 14 123 99
South Devon 12 102 103 102 91 (79) 102 (85) 15 107 105
Tarentaise 6 103 103 102 111 (96) 102 (85) 10 130 112
Pinzaguer 6 104 103 106 114 (99) 102 (85) 13 132 108
Gelbvieh 8 107 105 109 107 (93) 104 (87) 11 137 116
Simmental 15 105 106 100 93 (80) 99 (83) 17 137 108
Maine Anjou 20 105 108 100 109 (94) 103 (86) 11 105 112
Limousin 9 101 102 92 88 (76) 98 (82) 12 91 100
Charolais 18 107 106 92 86 (75) 96 (80) 15 91 101
Chianina 12 106 105 92 99 (86) 103 (86) 8 100 113
Brahman 10 107 103 80 113 (98) 103 (98) 1 150 116
Adapted from USDA MARC Beef Research Progress Reports, No. 1 (1982) and No. 2 (1985)

The American Brahman is composed of three Zebu breeds, while others such as Brangus, Santa Gertrudis, etc. , are composites of the American Brahman and either British or European breeds. The derivative breeds are usually 3/8 Zebu and 5/8 British or European. Some of the breeds within the three categories may be atypical and may not possess all the advantages or disadvantages.

The MARC project was designed to evaluate as many of the more prominent breeds as possible. There was also an attempt to compare bulls that were representative of the breed. It is possible to select a bull of one of the breeds that would be an exception to the averages. This bull could perform either better or worse than the bulls used in the MARC project. The MARC study, however, did provide useful information about relative differences among many of the European and Brahman cattle. In selecting a beef breed, use the MARC information to select breeds that have higher genetic potential for meat and milk. The specific search for a bull would be for one of the breed exceptions in a weak area. For example, the faster growing cattle are generally larger at birth and calving difficulty is higher. If your program needs more growth, select a bull from one of the growth breeds that has a light birth weight and low birth weight EPD.

When selecting a breed or individuals within a breed, be aware also of a phenomenon called "genetic-environmental interaction. " The term simply means that cattle developed under certain conditions will perform best under those same or similar conditions. Florida researchers did a classic project to illustrate this effect. Hereford cattle from a similar genetic base were relocated from Montana to Florida and vice versa. One-half of the herds were kept at the original location. Based on the reproductive and growth information, the cattle performed best in the "home" location. According to this evidence, base the selection of a breed on the level of performance in your environment. The breeds that excelled in the MARC comparison may not fit your program exactly.

Cattle generally perform at a higher level in northern climates. Heat and humidity are detrimental to most production traits. In a more recent Florida report, Florida bulls gained almost a pound more per day in Montana than their counterparts in Florida. Nevertheless, the Florida bulls out-performed the Montana bulls in Florida and the Montana bulls performed better than the Florida bulls in Montana. Cattle developed in northern climates with free choice corn silage during the winter months will do poorly when brought to the humid South and turned out on stockpiled fescue and trace-mineral salt for the winter. If your program has been designed to provide limited winter feeding, the calving season should be in the spring and the breed should be moderate in both growth and milk production. If you decide to select a fast-growing, heavy-milking breed, provide the necessary feed requirements to achieve optimum performance.

Breed Types Advantages Disadvantages
Low birth weight
High fertility
Moderate milk production
Moderate frame size
Lower growth rate
South Devon
High growth rate
Larger frame size
High milk production
Increased dystocia
Increased maintenance
American Brahman
British Derivatives
European Derivatives
Adaptability to adapt to adverse environments
Moderate to high milk production
Maximum heterosis in crossbreeding
Lower growth rate
Poor carcass quality

General Trends

The following generalities hold true within and across breeds:

    Faster growth rates = larger birth weights
    Larger birth weights = increased potential for calving difficulty
    More milk production and large frame size = higher feed requirements for equal reproductive performance

Whether your choice is purebred or commercial, or red, black, white or spotted, keep production and profitability high on your priority list. Select a breed or breeds that your operation can manage and you can feel confident about marketing.

Other breeds fit certain specialty markets. If you are leaning toward a specialty breed that is selected for some trait other than beef production, you must accept the risk of a limited market for the chance at the higher prices sometimes received for the product. You may decide to select a breed that is amply available, so replenishing the herd is easier. On the other hand, you may select a breed that is relatively unavailable in your area in order to offer a unique alternative for other breeders. For commercial production, it is important to recognize that the premium is paid for uniformity. In this case, being dramatically different can mean more difficult marketing.

Original publication prepared by Rick Hardin, Former Extension Animal Scientist
Previous revisions by Dan T. Brown, Extension Animal Scientist

Status and Revision History
Published on Feb 19, 2003
In Review for Major Revisions on Jan 26, 2009
In Review for Major Revisions on Feb 03, 2009
Published with Major Revisions on Oct 18, 2010
Published with Full Review on Oct 01, 2013
Published with Full Review on Aug 09, 2016

Carole Hicks Knight County Extension Agent, Southeast District Ted G. Dyer Extension Animal Scientist - Beef Cattle, Animal & Dairy Science
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