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Anatomy of the Ruminant Digestive Tract

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Taste. Taste buds: More numerous than monogastric species ... Properties. No villi. No enzymes. Large intestine functions. Fermentative digestion ... – PowerPoint PPT presentation

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Title: Anatomy of the Ruminant Digestive Tract


1
Anatomy of the Ruminant Digestive Tract
  • References
  • D. C. Church. The Ruminant Animal Digestive
    Physiology and Nutrition
  • Chapter 2. Anatomy of the gastro-intestinal
    tract
  • Chapter 3 (pp 46-62). Normal stomach development
  • Chapter 4 (pp 85-94). Rumination and Eructation
  • Chapter 6. Salivary function and production

2
GI tract fermentation
  • Pregastric
  • Large Intestinal

3
Advantages of pregastric fermentation
  • Make better use of alternative nutrients
  • Cellulose
  • Nonprotein nitrogen
  • Ability to detoxify some poisonous compounds
  • Oxalates, cyanide, alkaloids
  • More effective use of fermentation end-products
    including
  • Volatile fatty acids, microbial protein, B
    vitamins
  • Decrease in handling undigested residues
  • In wild animals, it allows animals to eat and run

4
Disadvantages of pregastric fermentation
  • Fermentation is inefficient
  • Energy
  • Loss Amount ( of total
    caloric value)
  • Methane 5-8
  • Heat of fermentation 5-6
  • Protein
  • 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
  • Ruminants are susceptible to ketosis
  • Ruminants are susceptible to toxins produced by
    rumen microbes
  • Nitrates
    Nitrites
  • Urea
    Ammonia
  • Nonstructural carbohydrates Lactic acid
  • Tryptophan
    3-methyl indole
  • Isoflavonoid estrogens estrogen
  • Coumestans

5
Classes of ruminants
  • Concentrate selectors
  • Very selective
  • Limited fiber digestion
  • Intermediate feeders
  • Seasonally adaptive
  • Roughage grazers
  • Nonselective grazers
  • Good ability to digest fiber

Common Duiker, Deer
Goats, Sheep, Moose
Cattle, Bison
6
The ruminant digestive tract
  • Lips
  • Range from short, relatively immobile in
    nonselective grazing species to very mobile
    (prehensile) in selective grazing or concentrate
    selecting species

7
Ruminant teeth
  • Dental formula for cattle and sheep
  • Jaw
  • Upper Lower
  • Incisor 0 4
  • Canine 0 0
  • Premolar 3 3
  • Molar 3 3
  • Upper jaw is wider than lower jaw

8
Tongue
  • Uses
  • Aid in chewing and forming boluses
  • Aid in drinking
  • Prehension of feed
  • Covered with rough, hook-like (filiform) papillae
    that assist in grasping feed
  • Important in nonselective grazing species
  • Taste
  • Taste buds
  • More numerous than monogastric species
  • More numerous on nonselective grazing species
  • Primarily used for food avoidance

9
Salivary glands
  • 7 groups of glands located around the mouth
  • ½ of total saliva from the paired parotid glands
  • Functions
  • Enzymes
  • No amylase
  • Pregastric esterase in young
  • Moistens and lubricates feed
  • Water balance
  • Bloat prevention
  • Recycling of N and minerals including Na, P, and
    S
  • A 700 kg dairy cow fed a hay-grain diet will
    secrete
  • 190 l saliva/day containing
  • 30-80 gm total N
  • 1100 gm NaHCO3
  • 350 gm Na2HPO4
  • 100 gm NaCl
  • Buffer secretion
  • Normal rumen, pH 5.5 7.0
  • Without salivary buffers, pH 2.8 3.0

10
Factors affecting saliva secretion
  • Dietary fiber concentration
  • Forage to grain ratio of the diet
  • Maturity of the forage
  • Diet particle size
  • Grinding
  • Grain processing by-products
  • Diet moisture level

11
Consequences of inadequate effective fiber in
ruminant diets
  • Reduced rumination
  • Reduced rumen pH
  • Reduced fiber digestion
  • Altered fermentation pattern
  • Milk fat depression
  • Lactic acidosis
  • Ruminal parakeratosis
  • Reduced microbial protein production in rumen
  • Increased hydrogen sulfide production in the
    rumen in animals fed high sulfur diets

12
Pharynx
  • Structure similar to monogastrics
  • Involved in rumination and eructation

13
Esophagus
  • Mucous membrane-lined tube running from mouth to
    rumen
  • Involved in rumination and eructation
  • Differences from monogastric esophagus
  • Circular and longitudinal muscles are striated
    muscle along the entire length
  • Provides greater strength
  • Allows some voluntary control
  • Funnel shaped
  • Positioned between lungs

14
Regions of the ruminant stomach
  • of mature
    ___Volume, l___
  • __volume__ Cattle
    Sheep
  • Rumen 80
    60-100 9-18
  • Reticulum 5
  • Omasum 5-8
    6-10 1-2
  • Abomasum 5-8
    5-8 2
  • Full capacity of the reticulorumen is only used
    in animals fed low quality roughages. Only 60 to
    70 of the total capacity is used in animals fed
    high quality roughages.

15
The ruminant stomach
16
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17
Rumen papillae
  • Finger-like structures (10mm x 2 mm) on the rumen
    wall covered with nonsecretory stratified
    epithelial tissue
  • Particularly well-developed in ventral portion of
    the rumen
  • Function
  • Increase absorptive surface for VFAs.
  • Growth stimulated by
  • Volatile fatty acids
  • Irregular growth and damage (Parakeratosis)
    caused by
  • Excessive volatile fatty acids (particularly
    Butyrate)

18
Omasum
  • Lies to right of rumen
  • Size
  • Large in nonselective grazing species like cattle
  • Small in selective grazing species like sheep
  • Entrance is the reticulo-omasal orifice
  • 1 inch slit in cattle
  • Lined with small papillae
  • Controls particle of digesta leaving
    reticulorumen
  • Round organ containing 100-150 flat parallel
    sheets (laminae) covered with conical papilae
  • Because of sheets, omasum has 1/3 of the surface
    area of the stomach in cattle and 10 of the
    stomach surface area in sheep
  • Covered with nonsecretory stratified epithelial
    tissue
  • Functions
  • Filtering large particles
  • VFA absorption
  • Water absorption

19
Regions of the abomasum
Cardiac
Epithelial
Fundic
Pyloric
20
The abomasum
  • Regions
  • Fundic
  • Contains gastric glands lined with secretory
    columnar epithelium
  • Secrete pepsinogen and hydrochloric acid (Low at
    birth)
  • Secrete rennin in young coagulates and digests
    the milk protein, casein
  • Pyloric
  • Secretes mucus
  • Surface
  • Arranged in 10 to 17 folds
  • Increases surface area
  • Prevents stratification of digesta
  • Regulates flow

21
Motility and digesta flow in the abomasum
  • Filled by contractions of the reticulorumen
  • Empties by contractions confined to the pyloric
    region
  • Outflow controlled by pyloric sphincter
  • Flow from the abomasum
  • Greatest prior to and during feeding
  • Lowest flow occurs immediately after feeding
  • Ingesta remains in abomasum for 1 to 2 hours
  • As much as 10 backflows into abomasum

22
Regions of the small intestine
  • Length, ft
  • Cattle Sheep
    Digesta pH Functions
  • Total 90-150 60-110
  • Duodenum 3-4 2-3
    2.7-4 Enzymes

  • pH change

  • Flow reg.
  • Jejunum 60-100 -
    4-7 Enzymes

  • Absorption
  • Ileum 30-50 -
    7-8 Absorption

  • Variable Fermentation
  • Rate of pH increase slower than monogastrics
  • Better for peptic activity
  • May limit pancreatic protease and amylolytic
    activity

23
Pancreatic secretion
  • Sodium bicarbonate
  • Enzymes
  • Classes
  • Amylase (Low at birth mature levels at 5 6
    months)
  • Lipase
  • Proteases (Low at birth, mature levels by 8
    weeks)
  • Trypsinogen converted to Trypsin
  • Chymotrypsinogen converted to Chymotrypsin
  • Procarboxypeptidase converted to Carboxypeptidase
  • Nucleases
  • Activity
  • Limited by
  • Less pancreatic juice secreted/kg BW than
    monogastrics
  • Low digesta pH
  • High rate of passage
  • Significance
  • Limited ability to digest starch in small
    intestine (1 kg)

24
Bile
  • Composition
  • Sodium bicarbonate
  • Lipids
  • Bile salts (Sodium taurocholate)
  • Phospholipids (Phosphotidylcholine)
  • Intestinal mucosa
  • Enzymes secreted at the brush border (microvilli)
  • Disaccharidases
  • Lactase (in young)
  • Maltase
  • Isomaltase
  • No sucrase
  • Dipeptidases

25
Large intestine structure
  • Size

  • Rumen volumeLI volume
  • Roughage selectors
    15-301
  • Concentrate selectors
    6-101
  • Structure
  • Compartments
  • Cecum
  • Colon
  • Rectum
  • Properties
  • No villi
  • No enzymes

26
Large intestine functions
  • Fermentative digestion
  • Bacteria similar to rumen, but no protozoa
  • LI digestion may account for as much as 40 of
    carbohydrate digestion
  • Only important in conditions that increase the
    amount of fermentative carbohydrate entering the
    LI
  • VFAs are efficiently absorbed, but primarily used
    as energy source for mucosa cells
  • Ammonia-N absorption
  • Allows recycling of N
  • Reduced by increased carbohydrate fermentation
  • Mineral absorption
  • Na, K, Ca, P, Co, Mn, Mg, Cu, Zn, Cl
  • Water absorption
  • 90 of water entering the LI
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