Feeding Wheat to Beef Cattle

Greg Lardy, NDSU Animal and Range Sciences Department, NDSU Extension Service, Fargo
John Dhuyvetter, NDSU Extension Service, North Central Research Extension Center, Minot

Wheat remains the leading crop produced in North Dakota. Most wheat in North Dakota is either hard red spring wheat (HRSW) or durum. Small acreages of hard red winter wheat and, more recently, hard white wheat are also planted in the state. Wheat is not traditionally used as a feed grain because its milling properties make it desirable for use in breads, pastas, and noodles. At certain times, however, wheat is competitively priced with other feed grains due to damage from disease, drought, or sprouting. Feed grade wheat is a palatable, digestible source of nutrients which can be used in beef cattle diets if fed with caution to avoid digestive upsets.

Nutrient content of wheat, wheat byproducts, and selected feed grains is shown in Table 1. Wheat is low in fiber, high in starch content, and has an energy value (TDN, NE_m, NE_g) similar to corn. Wheat is higher in protein than other common feed grains such as corn, barley, or oats. Within wheat classes, HRSW has the highest protein content, with hard red winter wheat and durum being slightly lower. All cereal grains are deficient in calcium and adequate in phosphorus for all classes of beef cattle.

Table 1. Nutrient Content of wheat, wheat byproducts, and selected feed grains.

Nutrient	HRWW	HRSW	Durum	Wheat Screenings	Wheat Midds	Corn	Barley	Oats
% Dry Matter	88	88	88	89	89	88	88	89
	- - - - - - - - - - - - - - - - - - - - - - - - Dry Matter Basis - - - - - - - - - - - - - - - - - - - - - - - -
Crude Protein, %	14.4	17.2	15.9	15.8	18.4	10.1	13.5	13.3
Fat, %	1.8	2.0	2.0	3.9	4.9	4.2	2.1	5.4
Ash, %	1.9	1.8	1.8	6.1	5.2	1.4	2.6	3.4
Calcium, %	.05	.04	.10	.15	.13	.02	.05	.07
Phosphorus, %	.43	.43	.41	.39	.99	.35	.38	.38
TDN, %	88	89	85	71	69	90	84	77
NE_m, Mcal/lb	.99	1.00	.95	.76	.73	1.02	.94	.84
NE_g, Mcal/lb	.69	.69	.62	.48	.45	.70	.64	.55

Adapted from NRC Nutrient Requirements of Beef Cattle, 1984; NRC United States-Canadian Tables of
Feed Composition, 1982; and Beef Cattle Handbook Bulletin 5112, authored by R. Brandt and G. Kuhl.

Low fiber levels and a rapid rate of starch digestion make wheat more difficult to feed than most other cereal grains. The starch in wheat is fermented more rapidly than the starch in corn, resulting in greater potential for digestive upset, acidosis, bloat, founder, and reduced and/or erratic intake patterns. Figure 1 shows relative rates of fermentation for major feed grains.

Processing Wheat

Processing wheat substantially improves digestibility, due to the hard seed coat associated with the kernel. According to research published in Australia, whole wheat has a digestibility of 60% compared to 86% for wheat which is rolled. However, attention to processing is crucial for best results when feeding wheat. Wheat should be coarsely rolled (breaking the kernel into a few pieces), but not ground, for best results. Excessive fines should be avoided. Small particle size increases the rate of digestion. When excess fines are present, an increase in digestive problems such as bloat, founder, and acidosis can be expected.

Feeding Recommendations

Because of its feeding characteristics, levels of wheat in the ration should be limited. In moderate to high grain rations (50% or more concentrate), wheat should be fed in combination with more fibrous or slowly fermented feed grains and limited to 40% of the diet.

It is important to adapt cattle to wheat so that over-consumption is avoided. Adapt cattle by introducing wheat into the ration at low levels (10 to 15% of the diet) and increasing the level in steps or increments (10, 20, 30, up to 40%) after a period of several days of constant intake and appetite. Figure 2 details research conducted at the University of Nebraska which shows the erratic intakes sometimes experienced by cattle as they adapt to wheat-based finishing diets. To avoid problems with wheat-based diets, cattle should not be moved to higher concentrate levels until intakes are consistent.

Problems with over-consumption (such as bloat, founder, and acidosis) can be minimized by limit feeding, feeding two times or more per day, providing plenty of roughage, and feeding a complete mixed ration. Self-feeding wheat should be avoided.

In addition to limiting the level of wheat fed, feeding with other grains such as corn, coarse processing, adapting cattle slowly, and good bunk management, several other practices have been shown to be helpful when utilizing wheat in the ration. For growing and finishing cattle, including an ionophore will help reduce over consumption and acidosis. Kansas research indicates that the addition of an ionophore/antibiotic combination to wheat-based finishing diets improves feed efficiency.

Using buffers (such as limestone) in the ration, particularly as cattle are being put on feed, is beneficial. Rations should be formulated to contain a minimum of .7% calcium (with the majority of the calcium coming from limestone). Addition of sodium bicarbonate to wheat based rations has, at times, improved daily gain and feed conversions, according to research conducted in Kansas.

Durum vs. Hard Wheats

Research conducted at NDSU which compared durum with HRSW indicated that cattle fed durum consumed less feed and had poorer feed conversions compared with cattle fed barley, corn, or HRSW. Table 2 details the results of this feeding trial, which compared feeding corn, barley, durum, soft wheat, and HRSW to finishing steers. The diets averaged 73% grain for the wheat- and corn-based diets and 81% grain for the barley-based diet. Grains were coarsely rolled prior to feeding. Average daily gains, feed conversions, and intakes were poorer for the durum diet compared with corn or HRSW. This indicates that durum probably should be used at lower levels in the diet (30% or less) compared with HRSW. Rolled or cracked durum can apparently become pasty and sticky. This is related to its gluten strength and may be part of the reason that durum is more difficult to feed than HRSW.

Table 2. Effect of feeding corn, barley, soft wheat, HRSW, or durum on feedlot performance.

	Corn	Barley	Soft Wheat	HRSW	Durum
Average Daily Gain (lb)	2.53	2.27	2.10	2.25	2.02
Dry Matter Intake (lb)	23.3	21.4	20.7	22.0	20.4
Feed to Gain	9.2	9.4	9.9	9.8	10.2

Adapted from Dinusson et al. 1977. NDSU Animal Science Department Annual Report.

Low Test Weight Wheat

Wheat that is economical to feed has often been discounted for a variety of reasons. Test weight in itself is not a good indicator of feed value. Generally, cattle fed wheat with test weights greater than 56 pounds per bushel will have similar conversion rates. Very low test weight wheat (less than 56 pounds) will be useful as feed, but energy values will be lower and feed conversion rates poorer.

Low test weight wheat may be more difficult to properly process compared with higher test weight wheats. In general, kernel size is more variable with low test weight grains, making processing more difficult. When the roller is set properly for larger kernels, many small kernels will pass through the rollers unprocessed. When set properly for smaller kernels, many larger kernels will be processed too finely. In the case of wheat, it is probably better to err on the side of under-processing rather than over-processing.

Wheat Infested with Vomitoxin, Molds, or Other Anti-nutritional Factors

While significant production losses are noted in non-ruminants (particularly swine) when vomitoxin infested grains are fed, research conducted with vomitoxin infested barley indicates no apparent problems when fed to growing and finishing cattle or gestating or lactating beef cows. Research conducted at the University of Minnesota indicates that cattle can tolerate high levels of vomitoxin (21 ppm DON) without noted impacts on performance or health of the cattle.

Caution should be exercised, however, with wheat or any grain which has gone out of condition or has mold damage. The possibility exists that molds and toxins will impact feeding value through reduced feed acceptance, intake and performance, as well as higher incidence of morbidity, possibility of abortion in pregnant cattle, and in some cases even death. Young calves, gestating cows, and animals under nutritional stress are most vulnerable.

High levels of ergot in wheat are also a concern. Ergot concentrations in grain greater than .1% have been shown to affect animal performance.

Sprouted Wheat

Sprouted grains are similar in feeding value to undamaged grain when fed to cattle. Nutrient levels in sprouted grains tend to be slightly higher than non-sprouted grain due to the concentration effect which occurs as certain nutrients are utilized during germination. However, no significant differences in cattle performance were detected when sprouted wheat replaced non-sprouted wheat in the diet. Table 3 gives data on the effect of sprouting on nutrient content of wheat. See NDSU Extension Service publication AS 647, Feeding Value of Sprouted Grains, for more information.

Table 3. Chemical composition and test weight of soft white
winter wheat (Gaines) at various degrees of sprouting.

	Percentage of sprouted kernels
	0	25	50	75
Bushel weight (lb)	59.3	56.2	55.8	54.2
Crude protein (%)	10.5	10.6	10.9	10.9
Crude fiber (%)	2.6	2.7	2.7	2.7
Nitrogen-free extract (%)	74.8	74.4	73.7	73.8
Ether extract (%)	1.32	1.40	1.37	1.42
Ash (%)	1.33	1.53	1.54	1.60

Source: Murray, G.A., and D.M. Huber. 1968. Sprouted and moldy wheat. Current Information Series 95.
Idaho Agricultural Experiment Station, University of Idaho, Moscow.

Frosted Wheat

Little data is available regarding the feeding value of frosted wheat. However, research conducted in Alberta with frosted barley indicates no difference in feeding value of frosted grain compared with sound grain when fed in feedlot diets.

Drought Damaged Wheat

Drought damaged wheat generally has smaller kernels and is lower in starch content than wheat grown without drought stress. Nitrate toxicity should not be a concern with wheat grain. Wheat will not transfer nitrate into the seed during drought stress.

Summary

Significant discounts on wheat not meeting grade standards in traditional markets will at times price wheat very favorably as a feed. Such situations create opportunities to utilize wheat in achieving low cost gains or reduced feeding costs. However, feeding wheat requires careful attention to feed processing, ration formulation, and feeding management for optimum results.