How to replace corn grain in ration
American Agriculturist - May 2007 Dair y & Livestock 20 How to replace corn grain in ration Milk it ! Key Points By Vicky Carson ■ Rumen chemistry requires balance when replacing corn. ■ Alternatives are also tied to corn prices, so push the pencil carefully. ■ Feeding Rumensin can make a difference to the bottom line. VERY dairy producer in the country is painfully aware that the price of corn has skyrocketed since last fall. The price increase has been fueled by an increased demand for ethanol and by speculation. It’s likely that high corn prices are here to stay at least in the short term as demand for ethanol does not seem to be curtailing. It’s equally as likely that planting will increase this spring, and corn prices could be closer to what we consider normal by late fall, depending on growing conditions, harvest and exports of corn grain. E Why feed corn grain at all? Corn grain provides energy and starch. Starch is the preferred energy source for rumen microbes, and many research studies have demonstrated a significant reduction in microbial growth when starch was limited in the diet, resulting in reduced diet digestibility and, ultimately, reduced milk and milk component yields. In the past, with cheap corn grain prices, nutritionists typically balanced diets so that starch content was at the upper limit of requirements plus a little extra as an insurance policy. I think that producers can reduce corn grain in the diet and still meet microbial needs. What can a producer do now? Here are several steps you can take now to balance rations: ■ Calculate starch content of the diet and determine if it is between 21% to 28%. I typically like starch content to be around 25% of the diet dry matter. Diets high in corn silage are likely to be between 22% and 25% without any supplemental corn grain. ■ Feed alternative sources of starch like barley, hominy, wheat middlings, depending on their price. ■ Blend 2 parts corn meal to 1 part barley to balance starch availability in the rumen. ■ Feed sources of corn that are more rumen-available, like steam-flaked corn, fine-ground corn meal, high-moisture ear corn and processed corn silage. Increasing rumen digestibility means that we can reduce the amount of corn Your Livestock Sales Representative for the... 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The addition of Rumensin reduces corn requirements by 1.2 to 1.8 pounds per head per day. Rumensin also increases feed efficiency and can improve the bottom line for the farm. ■ Replace some of the energy from corn grain with rumen inert fat. I prefer Megalac because it has years of laboratory and on-farm research behind it. I usually stick to around 1% to 2% of the diet dry matter as rumen inert fat, depending on the other ingredients. If diets are high in unsaturated or free fatty acids, milk fat may be depressed. ■ Consider planting more acres of corn this spring. Corn silage is a good source of fiber and typically contains 25% to 35% starch. Investigate corn silage hybrids and choose varieties that are more digestible and have higher starch content. It is also worth investigating costs of kernel processing for corn silage harvest. Processing corn silage can reduce the need for corn grain by as much as 5 pounds of dry matter by making the corn silage kernels more digestible. Consider sugar Numerous research trials have looked at the influence of replacing starch with sugar on rumen microbes, milk yield and milk component yields. Glucose and fructose are the two most common simple sugars found in plants, followed by sucrose (molasses) and lactose (whey). During the maturation process, most plants convert sugar to starch — the energy storage form. A typical lactating cow diet contains less than 4% of the diet dry matter as sugar, and the sugar content of feeds varies greatly. Corn silage, corn grain, barley and oats contain very little sugar. Grass hay and pasture have greater concentrations of sugar as do molasses, bakery waste, citrus pulp and almond hulls. Replacing dietary starch with sugar as a source of energy for rumen microbes improves the energy status of the cow. Dietary sugar appears to increase butyric acid in the rumen without effecting acetic or propionic acids. Butyric acid is the volatile fatty acid that is responsible for maintaining the health of the rumen epithelium and growing rumen papillae. Papillae are fingerlike projections along the wall of the rumen that increase the absorptive surface area. By increasing butyric acid, papillae growth increases, resulting in increased absorption of volatile fatty acids from the rumen. Increasing dietary sugar also appears to reduce ammonia concentration in the rumen, likely as a result of increased fermentation rate. Environmentally, a reduction in ruminal ammonia is advantageous, and it also reduces the amount of energy the cow must expend dealing with waste products. Replacing starch with sugar increases diet dry matter and NDF digestibility, suggesting sugars increase the extent of ruminal fermentation as long as ruminally degradable protein is adequate. What about byproduct feeds? The amount of corn grain that can be replaced by byproduct feeds like citrus pulp, beet pulp, bakery products, ground cereal, etc., depends on the total diet. Generally, I like to keep byproduct feeds to around 2% of the diet dry matter. When forage is limiting, this number is likely to be greater and may be as much as 10% of the diet dry matter. Recent research claims that distillers grain can make up as much as 20% of the diet dry matter. Personally, I think 2% to 5% of the lactating cow diet from high-fat byproduct feeds is enough, and I am more comfortable at 2%. Feeding distillers grain to growing animals is certainly a great way to spare corn grain and corn silage on the farm. There are several alternatives to replacing the energy in the diet provided by corn grain, but it takes some creativity to come up with a source to replace the starch corn grain provides in the rumen. Because of this, and the fact that the other ingredient prices follow corn prices, corn grain should not be abandoned completely. With the advanced diet balancing and evaluating computer models (CPM and CNCPS), your nutritionist can mix and match dietary carbohydrates to meet the needs of the rumen and the needs of the cow without compromising milk and milk component yields. Carson and her husband, Steve, partner in Harkdale Farms, Newbury, Vt. She’s also a consulting dairy nutritionist.
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