1 / 16

Animal Nutrition Variations, Adaptations & Regulation

Animal Nutrition Variations, Adaptations & Regulation. This obese mouse (L) has defect in gene which normally produces leptin , an appetite-regulating protein. Many herbivores have diets deficient in mineral salts. Must find other sources = salt licks, chewing on bones. {. ATP production. {.

barid
Download Presentation

Animal Nutrition Variations, Adaptations & Regulation

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Animal Nutrition Variations, Adaptations & Regulation This obese mouse (L) has defect in gene which normally produces leptin, an appetite-regulating protein. Many herbivores have diets deficient in mineral salts. Must find other sources = salt licks, chewing on bones

  2. { ATPproduction { synthesis { storage Energy budget • basal (resting) metabolism • temperature regulation • activity food intake • repair • growth • reproduction • glycogen • fat

  3. Energy storage • In humans • glycogen storage • glucose polymer • in liver & muscle cells • If glycogen stores are full & caloric intake still exceeds caloric expenditure • excess stored as fat • synthesis pathwayfrom acetyl coA Why isglycogen highlybranched?

  4. Balancing calorie needs with intake • When fewer calories are taken in than are expended, fuel is taken out of storage deposits & oxidized (digested) • breakdown (digest) glycogenfrom liver & muscle cells • metabolize (digest) fat Just do it!

  5. Vegetarian diets • Need to make sure you get enough protein • 20 amino acids to make protein • humans can synthesize 12 of the amino acids • 8 have to be eaten =“essential amino acids” • Grains (like corn) have 6 (missing 2) • Beans (like soybean & red beans) have 6 (missing different 2) • mix beans & grainsfor complete group of amino acids • rice & beans • taco/tortilla & beans • tofu & rice • peanut butter & bread What no fish!

  6. Eating a balanced diet • What happens if an animal’s diet is missing an essential nutrient? • deficiency diseases • scurvy — vitamin C (collagen production) – water soluble • rickets — vitamin D (calcium absorption)- Fat soluble • blindness — vitamin A (retinol production)-Fat • anemia — vitamin B12 (energy production)-water • kwashiorkor — protein

  7. starch cellulose Digesting cellulose • How well you digest cellulose governs life strategy of herbivores bond between the sugars governs digestibility

  8. Cow can digest cellulose well; no need to eat supplemental sugars Gorilla can NOT digest cellulose well; must supplement with sugar source, like fruit

  9. Different diets; different bodies *** • Adaptations of herbivore vs. carnivore • specialization in teeth • length of digestive system • number & size of stomachs

  10. Teeth • Carnivore • sharp ripping teeth • “canines” • Herbivore • wide grinding teeth • molars • Omnivore • both kinds of teeth

  11. Rememberthe rabbits,George! Length of digestive system • Carnivores • short digestive system • protein easier to digest than cellulose • Herbivores & omnivores • long digestive system • more time to digest cellulose • symbiotic bacteria in gut

  12. Symbiotic organisms • How can cows digest cellulose efficiently? • symbiotic bacteria in stomachs help digest cellulose-rich meals • rabbit vs. cow adaptation: eat feces vs. chew cud ruminant caprophagy Ruminants additional mechanical digestion by chewing food multiple times after mixing it with enzymes

  13. pancreas high liver low pancreas liver Feedback: Maintaining Homeostasis ***** Regulation of Blood Sugar insulin body cells takeup glucose from blood liver storesglucose asglycogen reducesappetite blood glucose level (90 mg/100 mL blood) liver releasesglucose triggershunger glucagon

  14. Managing glucose levels • Mammals regulate use & storage of glucose • insulin reduces blood glucose levels • glucose levels rise above set point, pancreas secretes insulin • promotes transport of glucose into cells & storage of glucose (as glycogen) in liver & muscle cells • drops blood glucose levels • glucagon increases blood glucose levels • when glucose levels drop below set point, pancreas secretes glucagon • promotes breakdown of glycogen & release of glucose into the blood • raises blood glucose levels Whoa! Didn’t realizeI was so busy!

  15. + – + + + – + + – Regulation of Digestion Coordination of nervous system & endocrine system Liver Stomach Proteins Gastrin Gallbladder Many systems work together to maintain homeostasis of the body Gastricinhibitory peptide Parietalcells Bile Chiefcells Pepsin Pancreas HCl Duodenum Acinarcells Fats Enzymes CCK Bicarbonate Secretin

  16. Don’t be shy… Ask Questions!!

More Related