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(Isfahan University of Technology)

(Isfahan University of Technology). Animal nutrition on the rangeland (Part 2). Prepared by: Dr A. Riasi ariasi@cc.iut.ac.ir http://riasi.iut.ac.ir. Digestive system of ruminants. Proper care of the land and its grazing animals requires a sound understanding of ruminant nutrition.

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(Isfahan University of Technology)

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  1. (Isfahan University of Technology) Animal nutrition on the rangeland (Part 2) Prepared by: Dr A. Riasi ariasi@cc.iut.ac.ir http://riasi.iut.ac.ir

  2. Digestive system of ruminants • Proper care of the land and its grazing animals requires a sound understanding of ruminant nutrition. • Ruminant comes from the word “rumen”.

  3. Ruminant digestive physiology Small intestine Rectum Cecum Rumen Esophagus Reticulum Omasum Colon Abomasum

  4. Digestive system of non-ruminants Rectum Colon Stomach Esophagus Small intestine Cecum

  5. Digestive system of non-ruminants Rectum Small intestine Esophagus Stomach Cecum Colon

  6. Digestive system of ruminants

  7. Digestive system of ruminants

  8. Advantage of pregastric fermentation • Make better use of alternative nutrients • Cellulose • NPN • Ability to detoxify some poisonous compounds • Oxalates, cyanide, alkaloids

  9. Advantage of pregastric fermentation • More effective use of fermentation end products • Volatile fatty acids • Microbial protein • B vitamins • Decrease in handling undigested residues • In wild animals, it allows animals to eat and run

  10. Disadvantage of pregastric fermentation • Fermentation is inefficient • Energy • Loss Amount (% of total caloric value) • Methane 5-8 • Heat of fermentation 5-6

  11. Disadvantage of pregastric fermentation • Fermentation is inefficient • Protein • Some ammonia resulting from microbial degradation will be absorbed and excreted • 20% of the nitrogen in microbes is in the form of nucleic acids

  12. Disadvantage of pregastric fermentation • Ruminants are susceptible to toxins produced by rumen microbes • Nitrates Nitrites • Urea Ammonia • Nonstructural carbohydrates Lactic acid • Tryptophan Methyl indole • Isoflavonoid estrogens Estrogen

  13. Ruminant digestive process • Nutrients absorbed from the digestive tract include volatile fatty acids, amino acids, fatty acids, glucose, minerals, and vitamins. • These are used in the synthesis of the many different compounds found in meat, milk and wool, and to replace nutrients used for maintaining life processes including reproduction.

  14. Ruminant digestive process • Digestion begins when an animal takes a bite from the pasture. • As the animal chews the feed is formed into a bolus (a packet of food capable of being swallowed). • Saliva is excreted, which further aids in swallowing and serves as a pH buffer in the stomach.

  15. Ruminant digestive process • Ammonia can be absorbed into the animal’s system through the rumen wall, or can be consumed by bacteria to become microbial protein. • If adequate and suitable VFAs are present, NH3 is incorporated into microbial protein; otherwise, it is absorbed, particularly if the rumen pH is alkaline.

  16. Ruminant digestive process • Once in the rumen, the feed begins to undergo fermentation. • Millions of microorganisms ingest the feed, turning out end products which serve as a major source of nutrients for the animal.

  17. Ruminant digestive process • Some of the principle products formed are ammonia, methane, carbon dioxide, and volatile fatty acids (VFAs).

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