1. Chapter 41
Animal Nutrition

2. Overview: The Need to Feed
Herbivores eat mainly autotrophs (plants and algae)
Carnivores eat other animals
Omnivores regularly consume animals as well as plants or algal matter

3. There are four classes of essential nutrients:
Essential amino acids
Essential fatty acids
Vitamins
Minerals

4. Animals require 20 amino acids and can synthesize about half
Essential Amino Acids
Animals require 20 amino acids and can synthesize about half
Essential amino acids- must be obtained from food in preassembled form
“Complete” proteins- provides all the essential amino acids (meat, eggs, and cheese)
Most plant proteins are incomplete in amino acid makeup

5. Essential amino acids for adults
Methionine
Beans and other legumes
Valine
Threonine
Phenylalanine
Leucine
Corn (maize) and other grains
Isoleucine
Tryptophan
Lysine

6. Animals can synthesize most of the fatty acids they need
Essential Fatty Acids
Animals can synthesize most of the fatty acids they need
The essential fatty acids are certain unsaturated fatty acids

7. Vitamins are organic molecules required in the diet in small amounts
13 essential vitamins
Two categories: fat-soluble and water-soluble

10. Minerals
Minerals are simple inorganic nutrients, usually required in small amounts

12. Dietary Deficiencies
Undernourishment- diet with less chemical energy than the body requires
Malnourishment- absence from the diet of one or more essential nutrients

13. An undernourished individual will
Undernourishment
An undernourished individual will
Use up stored fat and carbohydrates
Break down its own proteins
Lose muscle mass
Suffer protein deficiency of the brain
Die or suffer irreversible damage

14. Malnourishment
Malnourishment can cause deformities, disease, and death

15. The main stages of food processing are ingestion, digestion, absorption, and elimination
Ingestion is the act of eating

16. Suspension Feeders
Many aquatic animals are suspension feeders, which sift small food particles from the water

17. Substrate Feeders
Leaf miner caterpillar, a substrate feeder
Substrate feeders are animals that live in or on their food source
Caterpillar Feces

18. Fluid feeders suck nutrient-rich fluid from a living host
Mosquito, a fluid feeder

19. Bulk feeders eat relatively large pieces of food
Rock python, a bulk feeder

20. Absorption is uptake of nutrients by body cells
Digestion is the process of breaking food down into molecules small enough to absorb
Enzymatic hydrolysis splits bonds in molecules with the addition of water
Absorption is uptake of nutrients by body cells
Elimination is the passage of undigested material out of the digestive compartment

21. Nutrient molecules enter body cells Mechanical digestion
Small molecules
Pieces of food
Chemical digestion (enzymatic hydrolysis)
Nutrient molecules enter body cells
Mechanical digestion
Food
Undigested material 1
Ingestion 2
Digestion 3
Absorption 4
Elimination

22. Digestive Compartments
Intracellular Digestion- food is engulfed by endocytosis and digested within food vacuoles
Extracellular Digestion- food particles are broken down outside of cells

23. Tentacles
Food
Gastrovascular cavity
Mouth
Epidermis
Gastrodermis

24. Crop
Gizzard
Esophagus
Intestine
Pharynx
Gastrovascular cavity- functions in both digestion and distribution of nutrients
Complete digestive tract (alimentary canal)- digestive tube with two openings, a mouth and an anus
Anus
Mouth
Typhlosole
Lumen of intestine
(a) Earthworm
Foregut
Midgut
Hindgut
Esophagus
Rectum
Anus
Crop
Mouth
Gastric cecae
(b) Grasshopper
Stomach
Gizzard
Intestine
Mouth
Esophagus
Crop
Anus
(c) Bird

25. Crop
Gizzard
Esophagus
Intestine
Pharynx
Anus
Mouth
Typhlosole
Lumen of intestine
(a) Earthworm

26. Foregut
Midgut
Hindgut
Esophagus
Rectum
Anus
Crop
Mouth
Gastric cecae
(b) Grasshopper

27. Stomach
Gizzard
Intestine
Mouth
Esophagus
Crop
Anus
(c) Bird

28. Organs of the mammalian digestive system
Peristalsis- rhythmic contractions of muscles to push along food
Sphincters regulate the movement of material between compartments

29. Salivary glands
Mouth
Esophagus
Gall- bladder
Stomach
Small intestine
Liver
Pancreas
Large intestine
Rectum
Anus
A schematic diagram of the human digestive system

30. Duodenum of small intestine
Tongue
Sphincter
Oral cavity
Salivary glands
Pharynx
Esophagus
Sphincter
Liver
Stomach
Ascending portion of large intestine
Gall- bladder
Duodenum of small intestine
Pancreas
Small intestine
Small intestine
Large intestine
Rectum
Anus
Appendix
Cecum

31. The Oral Cavity, Pharynx, and Esophagus
Salivary glands
Mouth
Oral cavity- mechanical digestion takes place
Salivary glands deliver saliva to lubricate food
Amylase- initiates breakdown of glucose polymers
Esophagus
Gall- bladder
Stomach
Small intestine
Liver
Pancreas
Large intestine
Rectum
Anus
A schematic diagram of the human digestive system

32. The Oral Cavity, Pharynx, and Esophagus
Salivary glands
Mouth
The tongue shapes food into a bolus and provides help with swallowing
Pharynx (throat)- opens to both the esophagus and the trachea (windpipe)
Esophagus
Gall- bladder
Stomach
Small intestine
Liver
Pancreas
Large intestine
Rectum
Anus
A schematic diagram of the human digestive system

33. The Oral Cavity, Pharynx, and Esophagus
Salivary glands
Mouth
Esophagus conducts food from the pharynx down to the stomach by peristalsis
Swallowing causes the epiglottis to block entry to the trachea
Esophagus
Gall- bladder
Stomach
Small intestine
Liver
Pancreas
Large intestine
Rectum
Anus
A schematic diagram of the human digestive system

34. Food
Epiglottis up
Tongue
Epiglottis up
Pharynx
Esophageal sphincter contracted
Epiglottis down
Glottis
Glottis down and open
Esophageal sphincter contracted
Larynx
Trachea
Esophagus
Esophageal sphincter relaxed
Glottis up and closed
Relaxed muscles
To lungs
To stomach
Contracted muscles
Relaxed muscles
Sphincter relaxed
Stomach

35. Digestion in the Stomach- Chemical Digestion in the Stomach
Gastric juice is made up of hydrochloric acid and the enzyme pepsin
Parietal cells secrete hydrogen and chloride ions separately
Chief cells secrete inactive pepsinogen, it is activated to pepsin when mixed with HCl
Mucus protects the stomach lining from gastric juice

36. Esophagus
Sphincter
Stomach
Sphincter
5 µm
Small intestine
Folds of epithelial tissue
Interior surface of stomach

37. Interior surface of stomach Epithelium3 1
Pepsinogen
Pepsin
Pepsinogen and HCl are secreted. 2
HCl
Gastric gland 2
HCl converts pepsinogen to pepsin. 1 3
Pepsin activates more pepsinogen.
Mucus cells H+
Cl–
Chief cells
Chief cell
Parietal cells
Parietal cell

38. Stomach Dynamics
Coordinated contraction and relaxation of stomach muscle churn the stomach’s contents
Sphincters prevent chyme from entering the esophagus and regulate its entry into the small intestine
Esophagus
Sphincter
Stomach
Sphincter
5 µm
Small intestine
Folds of epithelial tissue
Interior surface of stomach

39. Carbohydrate digestion Protein digestion Nucleic acid digestion
Fat digestion
Oral cavity, pharynx, esophagus
Polysaccharides
Disaccharides
(starch, glycogen)
(sucrose, lactose)
Salivary amylase
Smaller polysaccharides, maltose
Stomach
Proteins
Pepsin
Small polypeptides
Lumen of small intes- tine
Polysaccharides
Polypeptides
DNA, RNA
Fat globules
Pancreatic amylases
Pancreatic trypsin and chymotrypsin
Pancreatic nucleases
Bile salts
Maltose and other disaccharides
Fat droplets
Nucleotides
Smaller polypeptides
Pancreatic lipase
Pancreatic carboxypeptidase
Glycerol, fatty acids, monoglycerides
Amino acids
Epithelium of small intestine (brush border)
Small peptides
Nucleotidases
Nucleosides
Disaccharidases
Dipeptidases, carboxypeptidase, and aminopeptidase
Nucleosidases and phosphatases
Monosaccharides
Amino acids
Nitrogenous bases, sugars, phosphates

40. Digestion in the Small Intestine
Salivary glands
Mouth
Major organ of digestion and absorption
Duodenum (first part of small intestine)- acid chyme from the stomach mixes with digestive juices from the pancreas, liver, gallbladder, and the small intestine itself
Esophagus
Gall- bladder
Stomach
Small intestine
Liver
Pancreas
Large intestine
Rectum
Anus
A schematic diagram of the human digestive system

41. Liver
Gallbladder
Bile
Stomach
Secretin and CCK –
Gastrin +
CCK +
Pancreas
Duodenum of small intestine
Secretin +
Key
CCK +
Stimulation Inhibition + –

42. Pancreatic Secretions
Salivary glands
Mouth
The pancreas produces proteases trypsin and chymotrypsin, protein-digesting enzymes that are activated after entering the duodenum
Its solution neutralizes the acidic chyme
Esophagus
Gall- bladder
Stomach
Small intestine
Liver
Pancreas
Large intestine
Rectum
Anus
A schematic diagram of the human digestive system

43. Bile Production by the Liver
Salivary glands
Mouth
Aids in digestion and absorption of fats
Bile is made in the liver and stored in the gallbladder
Esophagus
Gall- bladder
Stomach
Small intestine
Liver
Pancreas
Large intestine
Rectum
Anus
A schematic diagram of the human digestive system

44. Secretions of the Small Intestine
The epithelial lining of the duodenum produces several digestive enzymes
Most digestion occurs in the duodenum; the jejunum and ileum function mainly in absorption of nutrients and water

45. Absorption in the Small Intestine
The small intestine has a huge surface area, due to villi and microvilli that are exposed to the intestinal lumen
The enormous microvillar surface greatly increases the rate of nutrient absorption

46. Vein carrying blood to hepatic portal vein
Muscle layers
Large circular folds
Villi
Key
Nutrient absorption
Intestinal wall

47. Microvilli (brush border) at apical (lumenal) surface
Blood capillaries
Epithelial cells
Basal surface
Epithelial cells
Lacteal
Lymph vessel
Villi
Key
Nutrient absorption

48. Absorption in the Large Intestine
Colon of the large intestine is connected to the small intestine
Cecum aids in the fermentation of plant material and connects where the small and large intestines meet
Appendix- an extension off the cecum, which plays a very minor role in immunity
The colon recover waters that has entered the alimentary canal and houses E. coli strains, some of which produce vitamins

49. Small intestine Large intestine Anus
Ascending portion of large intestine
Small intestine
Small intestine
Large intestine
Rectum
Anus
Appendix
Cecum

50. All snakes can unhinge their jaws to swallow prey whole
Dental Adaptations
Incisors
The teeth of poisonous snakes are modified as fangs for injecting venom
All snakes can unhinge their jaws to swallow prey whole
Molars
Canines
Premolars
(a) Carnivore
(b) Herbivore
(c) Omnivore

51. Stomach and Intestinal Adaptations
Herbivores have longer alimentary canals than carnivores, they need more time to digest vegetation
Small intestine
Stomach
Small intestine
Cecum
Colon (large intestine)
Carnivore
Herbivore

52. Mutualistic Adaptations
Many herbivores have fermentation chambers, where symbiotic microorganisms digest cellulose (ruminants)

53. 1
Rumen 2
Reticulum
Intestine
Esophagus 4
Abomasum 3
Omasum

54. Energy Sources and Stores
Animals store excess calories primarily as glycogen in the liver and muscles
Energy is secondarily stored as adipose, or fat, cells

55. Overnourishment and Obesity
Overnourishment causes obesity, which results from excessive intake of food energy with the excess stored as fat
Obesity contributes to diabetes (type 2), cancer of the colon and breasts, heart attacks, and strokes
The problem of maintaining weight partly stems from our evolutionary past, when fat hoarding was a means of survival

56. Ghrelin
Insulin
Leptin
PYY

57. Obese mouse with mutant ob gene (left) next to wild- type mouse.