Rumen microbes ferment feed and produce volatile fatty acids, which is the cow’s main energy source. Rumen microbes also produce B vitamins, vitamin K and amino acids. Show In calves, the esophageal grooves allows milk to bypass the rumen and directly enter the abomasum. Rumen development occurs following a change in diet and microbial growth. The digestive tract of the adult cow The cow's digestive tract consists of the following. Open all | Close all Plus sign (+) if content is closed, 'X' if content is open. Stomach compartments The rumenThe rumen (on the left side of the animal) is the largest stomach compartment and consists of several sacs. It can hold 25 gallons or more of material depending on the size of the cow. Because of its size, the rumen acts as a storage or holding vat for feed. Aside from storage, the rumen is also a fermentation vat. The rumen’s environment favors the growth of microbes. These microbes digest or ferment feed within the rumen and make volatile fatty acids (VFAs). The rumen absorbs most of the VFAs from fermentation. A good blood supply to the rumen walls improves absorption of VFAs and other digestion products. Tiny projections (papillae) line the rumen, which increases the rumen’s surface area and the amount it can absorb. The reticulumThe reticulum is a pouch-like structure in the forward area of the body, close to the heart. The tissues in the reticulum form a network similar to a honeycomb. A small tissue fold lies between the reticulum and rumen, but the two aren’t separate compartments. Together they’re called the rumino-reticulum. Heavy or dense feed and metal objects eaten by the cow drop into this compartment. Nails and other sharp objects may work into the tissue and cause “hardware disease.” You can use magnets to prevent disease or correct the problem through surgery. Leaving it untreated may lead to infection and possibly death. The omasumThe omasum is a globe-shaped structure containing leaves of tissue (like pages in a book). It absorbs water and other substances from digestive contents. Feed material (ingesta) between the leaves will be drier than ingesta found in the other compartments. The abomasumThe abomasum is the only compartment lined with glands. These glands release hydrochloric acid and digestive enzymes, needed to breakdown feeds. The abomasum is similar to a nonruminant stomach. Plus sign (+) if content is closed, 'X' if content is open. The small intestine The small intestine consists of three sections: the duodenum, jejunum and ileum. It measures about 20 times the length of the animal. Secretions from the pancreas and gallbladder aid in digestion within the small intestine. The small intestine completes most of the digestive process and absorbs many nutrients through villi (small finger-like projections). From the villi the nutrients enter into the blood and lymphatic systems. Plus sign (+) if content is closed, 'X' if content is open. Cecum The cecum is the large area where the small and large intestine meet. The cecum breaks down some previously undigested fiber, but the exact importance of the cecum remains unknown. Plus sign (+) if content is closed, 'X' if content is open. Large intestine The large intestine is the last section of the tract that undigested feedstuffs pass through. Microbes digest some undigested feed here, but the main digestive function of the large intestine is to absorb water.
Open all | Close all Plus sign (+) if content is closed, 'X' if content is open. Belching (eructation) Digestion produces 30 to 50 quarts of gas per hour in the rumen. Carbon dioxide and methane are the main gases present. Cows must release this gas to avoid bloating. Under normal conditions, swelling from gas formation causes the cow to belch and release the gas. Plus sign (+) if content is closed, 'X' if content is open. Rumination Cows may spend 35 to 40 percent of each day ruminating (cud chewing). The amount of time spent ruminating depends on the diet. Little ruminating occurs when cows eat grain or finely ground rations. But when eating long hay, cows may ruminate for several hours. Mature cattle spend little time chewing while eating feed. Thus, during rest periods, cows regurgitate (bring up) soft feed wads (cud) to re-chew and break into smaller pieces. They also re-salivate the feed and re-swallow it. This process makes the feed easier for the microbes to digest. Plus sign (+) if content is closed, 'X' if content is open. Feed movement in the rumen The rumen contracts and moves continuously. Healthy cows have one to two rumen contractions each minute. Poor rumen movement may indicate a sick animal. When the rumen contracts it
Plus sign (+) if content is closed, 'X' if content is open. Saliva production A cow’s salivary glands can make and add 50 to 80 quarts of saliva to the rumen daily. Saliva has several functions in cows.
Plus sign (+) if content is closed, 'X' if content is open. Vomiting Cattle rarely vomit. Sometimes certain feeds will induce vomiting. A few pasture plants, usually weeds, contain compounds called alkaloids that can cause vomiting. Work with a veterinarian if this problem continues. Plus sign (+) if content is closed, 'X' if content is open. Energy feed digestion in the rumen Rumen microbes digest simple and complex carbohydrates (fiber) and convert them into VFAs. VFAs mainly consist of acetic, propionic and butyric acids and provide 50 to 70 percent of the cow’s energy, see figure 1. Diet can affect the amounts of each VFA microbes produce.
Such changes in VFA production usually relate to a reduction in milk fat test. Microbes digest about 30 to 50 percent of the fiber units, cellulose and hemicellulose, in the rumen. Sixty percent or more of the starch is degraded depending on the amount fed and how fast ingested materials move through the rumen. Most sugars get completely digested within the rumen. VFAs absorb into the bloodstream from the rumen and move to the body tissues including the udder. Once in the tissues, the cow uses VFAs as a source of energy for
Plus sign (+) if content is closed, 'X' if content is open. Protein and nonprotein nitrogen use in the rumen Not all consumed proteins get broken down in the rumen, (see figure 2). Through fermentation, protein is converted to ammonia, organic acids, amino acids and other products. About 40 to 75 percent of the natural protein in feed gets broken down. The amount of breakdown depends on many factors including:
Aside from protein breakdown, nonprotein nitrogen (NPN) sources also provide ammonia. NPN sources include urea, ammonium salts, nitrates and other compounds. Many rumen microbes need ammonia to grow and build protein. Rumen microbes convert ammonia and organic acids into amino acids to use for building protein. Most of the extra ammonia absorbs into the bloodstream from the rumen. But small amounts may pass into the lower digestive tract and absorb there. Feed protein (not broken down in the rumen) and microbial protein pass to the abomasum and small intestine for digestion and absorption. Plus sign (+) if content is closed, 'X' if content is open. Vitamin production Rumen microbes make vitamin K and all B vitamins. Microbes make enough of these vitamins for cattle growth and maintenance. Thus, under most conditions, cattle with healthy rumens don’t need added B vitamins or vitamin K in their diet. Cows under stress may need added niacin (B3) and thiamine (B1). Plus sign (+) if content is closed, 'X' if content is open. Fat digestion Most fat digestion and absorption occurs in the small intestine. Cows absorb more saturated fat than simple-stomach animals. This is because rumen microbes change unsaturated fatty acids to saturated fatty acids by adding hydrogen molecules. Feeding a lot of unsaturated fatty acids can be toxic to rumen bacteria, slow fiber digestion, and lower rumen pH. The rumen, reticulum and omasum remain undeveloped at birth and during the first few weeks of life. The calf’s largest stomach compartment is the abomasum. At this stage of life, the rumen doesn’t function and thus some feeds that mature cows can digest, calves can not. Open all | Close all Plus sign (+) if content is closed, 'X' if content is open. Esophageal groove During nursing or bucket feeding milk bypasses the rumen and directly enters the abomasum via the esophageal groove. Reflex action (e.g. when the calf nurses) closes the groove to form a tube-like structure. This prevents milk or milk replacer from entering the rumen. If the calf drinks milk rapidly, some may overflow into the rumen. Plus sign (+) if content is closed, 'X' if content is open. Rumen development The rumen will remain undeveloped as long as the calf stays on milk. Once the calf begins eating grain and forage, a microbial population will develop in the rumen and reticulum. The end products from microbial fermentation are responsible for developing the rumen. Calves don’t need cud inoculation to start rumen development. Feeding grain with or without forage during the first few weeks of life will result in larger and heavier papillae growth in the rumen. Thus, the rumen will begin functioning like the adult’s when the calf is three months old. Authors: James Linn, former Extension educator; Donald Otterby, College of Food, Agriculture and Natural Resource Sciences; W. Terry Howard and Randy Shaver, University of Wisconsin; Michael Hutjens, University of Illinois; Lee Kilmer, Iowa State University |
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