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Mammalian Digestive Systems

Overview

  • Contains an alimentary canal or gastrointestinal (GI) tract, plus accessory structures

    • May include tongue, teeth, salivary glands, liver, gallbladder, and pancreas

  • Not all vertebrates share identical features

    • Some fish lack a stomach, some birds (parrots and pigeons) lack a gallbladder

Functional Regions

  • Anterior end: functions primarily in ingestion

    • Oral cavity, salivary glands, pharynx (throat), and esophagus

  • Middle portion: functions in storage and initial digestion

    • Stomach, upper part of small intestine and associated organs (liver, gallbladder, pancreas)

  • Posterior part: functions in final digestion, absorption, and elimination

    • Remainder of small intestine and large intestine

Mouth

  • Mouth: saliva begins initial processing of food

    • Moisten and lubricate food to facilitate swallowing

    • Dissolve food particles to facilitate taste

    • Kill ingested bacteria

  • Initiate digestion of polysaccharides with amylase

Pharynx and Esophagus

  • Pharynx/Esophagus: pathway to stomach only

  • Do not contribute to digestion or absorption

  • Swallowing begins in esophagus as voluntary action

  • Action continues by involuntary peristalsis

Stomach

  • Stomach: saclike organ evolved for storing food

  • Muscular nature helps break up food

  • Partially digests proteins

  • Regulates rate of emptying into small intestine

  • Glands secrete

    • Hydrochloric acid: kills microbes, dissolves particulate matter

    • Pepsinogen: converted to pepsin to begin protein digestion

  • No lipid or carbohydrate digestion

  • Food reduced to chyme

  • Rugae: folds of stomach with deep pockets, or gastric pits, contain

    • Mucous cells: secrete mucus for protection

    • Parietal cells: secrete HCl (pH 1.5-2.5) HCL kills most bacteria & living cells; erodes plant materials; initiates change of pepsinogen to pepsin

    • Chief cells: secrete pepsinogen (inactive) which is converted by HCL into active pepsin

  • Stomach hormone: gastrin

    • Produced in the presence of protein-containing food in the stomach

      • stimulates the release of gastric juices and muscular contractions of stomach & intestine

Herbivore Stomach

  • Many herbivores have fermentation chambers, where mutualistic microorganisms digest cellulose

    • Herbivores must digest cellulose but lack cellulase

    • Rely on microbes to digest cellulose into monosaccharides

    • Simple stomach: uses cecum at connection between small and large intestine

  • The most elaborate adaptations for an herbivorous diet have evolved in the animals called ruminants

Ruminant Stomach

  • Has 4 compartments

    • Reticulum: form food bolus and initiate regurgitation

    • Rumen: digestive and fermentation vat, contains anaerobic microbes, site of fatty acid absorption

    • Omasum: lined by muscular folds, reduces particle size, absorbs water (and any leftover fatty acids)

    • Abomasum: true glandular stomach where bacteria and pathogens are killed

  • Microbes provide ruminants:

    • Digestion of cellulose

    • Provision of organic acids

    • Provision of protein

    • Provision of B vitamins

  • Ruminants provide microbes:

    • Place to stay

    • Adequate nutrition

    • Waste elimination

Small Intestine

  • Small intestine: nearly all digestion of food, and absorption of food and water

    • Hydrolytic enzymes found on luminal surface or secreted by pancreas into lumen

    • Products of digestion absorbed across epithelial cells and enter blood

      • Vitamins, mineral and water also absorbed

    • Specialized for increased surface area

      • Mucosa is folded

      • Villi: finger-like projections

      • Epithelial cells with microvilli create brush border

    • Increases surface area 600-fold

    • Increases likelihood of encountering digestive enzyme and being absorbed

  • Each villus has a capillary and lacteal.

    • Capillary: nutrients other than fat absorbed into blood

    • Lacteal (lymphatic vessel): allows for larger fat particles to enter, eventually dumped into blood

  • Length of small intestine varies

    • Herbivores have much longer intestines than carnivores

      • Added time for digesting plant material

    • Even within an individual animal, the length of the small intestine can change

      • Intestine can grow to increase surface area

Large Intestine

  • Large intestine: primary function to store and concentrate fecal matter and absorb some salt and water

  • Bacteria will produce vitamins

  • Cecum

    • Chyme enters through sphincter

    • Appendix

  • Colon

    • Ascending, transverse, and descending

  • Anus

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BiologyAnatomy

Mammalian Digestive Systems

Overview

  • Contains an alimentary canal or gastrointestinal (GI) tract, plus accessory structures

    • May include tongue, teeth, salivary glands, liver, gallbladder, and pancreas

  • Not all vertebrates share identical features

    • Some fish lack a stomach, some birds (parrots and pigeons) lack a gallbladder

Functional Regions

  • Anterior end: functions primarily in ingestion

    • Oral cavity, salivary glands, pharynx (throat), and esophagus

  • Middle portion: functions in storage and initial digestion

    • Stomach, upper part of small intestine and associated organs (liver, gallbladder, pancreas)

  • Posterior part: functions in final digestion, absorption, and elimination

    • Remainder of small intestine and large intestine

Mouth

  • Mouth: saliva begins initial processing of food

    • Moisten and lubricate food to facilitate swallowing

    • Dissolve food particles to facilitate taste

    • Kill ingested bacteria

  • Initiate digestion of polysaccharides with amylase

Pharynx and Esophagus

  • Pharynx/Esophagus: pathway to stomach only

  • Do not contribute to digestion or absorption

  • Swallowing begins in esophagus as voluntary action

  • Action continues by involuntary peristalsis

Stomach

  • Stomach: saclike organ evolved for storing food

  • Muscular nature helps break up food

  • Partially digests proteins

  • Regulates rate of emptying into small intestine

  • Glands secrete

    • Hydrochloric acid: kills microbes, dissolves particulate matter

    • Pepsinogen: converted to pepsin to begin protein digestion

  • No lipid or carbohydrate digestion

  • Food reduced to chyme

  • Rugae: folds of stomach with deep pockets, or gastric pits, contain

    • Mucous cells: secrete mucus for protection

    • Parietal cells: secrete HCl (pH 1.5-2.5) HCL kills most bacteria & living cells; erodes plant materials; initiates change of pepsinogen to pepsin

    • Chief cells: secrete pepsinogen (inactive) which is converted by HCL into active pepsin

  • Stomach hormone: gastrin

    • Produced in the presence of protein-containing food in the stomach

      • stimulates the release of gastric juices and muscular contractions of stomach & intestine

Herbivore Stomach

  • Many herbivores have fermentation chambers, where mutualistic microorganisms digest cellulose

    • Herbivores must digest cellulose but lack cellulase

    • Rely on microbes to digest cellulose into monosaccharides

    • Simple stomach: uses cecum at connection between small and large intestine

  • The most elaborate adaptations for an herbivorous diet have evolved in the animals called ruminants

Ruminant Stomach

  • Has 4 compartments

    • Reticulum: form food bolus and initiate regurgitation

    • Rumen: digestive and fermentation vat, contains anaerobic microbes, site of fatty acid absorption

    • Omasum: lined by muscular folds, reduces particle size, absorbs water (and any leftover fatty acids)

    • Abomasum: true glandular stomach where bacteria and pathogens are killed

  • Microbes provide ruminants:

    • Digestion of cellulose

    • Provision of organic acids

    • Provision of protein

    • Provision of B vitamins

  • Ruminants provide microbes:

    • Place to stay

    • Adequate nutrition

    • Waste elimination

Small Intestine

  • Small intestine: nearly all digestion of food, and absorption of food and water

    • Hydrolytic enzymes found on luminal surface or secreted by pancreas into lumen

    • Products of digestion absorbed across epithelial cells and enter blood

      • Vitamins, mineral and water also absorbed

    • Specialized for increased surface area

      • Mucosa is folded

      • Villi: finger-like projections

      • Epithelial cells with microvilli create brush border

    • Increases surface area 600-fold

    • Increases likelihood of encountering digestive enzyme and being absorbed

  • Each villus has a capillary and lacteal.

    • Capillary: nutrients other than fat absorbed into blood

    • Lacteal (lymphatic vessel): allows for larger fat particles to enter, eventually dumped into blood

  • Length of small intestine varies

    • Herbivores have much longer intestines than carnivores

      • Added time for digesting plant material

    • Even within an individual animal, the length of the small intestine can change

      • Intestine can grow to increase surface area

Large Intestine

  • Large intestine: primary function to store and concentrate fecal matter and absorb some salt and water

  • Bacteria will produce vitamins

  • Cecum

    • Chyme enters through sphincter

    • Appendix

  • Colon

    • Ascending, transverse, and descending

  • Anus