Chapter basic animal form and other improtant
- 1. The Basics of Animal Form and Function Ch. 33
- 2. For your notes Key concepts are underlined New vocabulary is in green
- 3. Objective Content: Describe how living things use free energy to maintain homeostasis Skill: Connect and relate knowledge across domains
- 4. Period 1 I forgot to tell you I have to do an observation today Please take turns delivering the slides (we really can’t afford to fall behind at this point!)
- 5. Life exists in all parts of the world Animals inhabit every part of the Earth Amazing diversity of habitat, form, and function Natural selection favors individuals who can meet the demands of their particular environment
- 6. Physical Laws & the Environment Constrain Animal Size & Shape Flying animals can only get so big… Physics of flight would never allow a flying dragon Water is 1000x more dense than air Any bump on the body causes drag Fast swimmers all have torpedo shaped bodies An example of convergent evolution
- 7. all cells must have access to an aqueous environment single-celled organisms - very small and flat Maximizes surface area to volume ratio In multicellular animals: branching and folding of internal parts help accomplish this
- 8. Example 1: Microvilli in intestinal cells
- 9. Example 2: Root hairs in plants
- 10. Example 3: branching and folding of cell membrane in amoeba
- 11. Example 4: long flat body of a tapeworm
- 12. Example 5: flat body of Platyhelminthes
- 13. Quick Think How does a large surface area contribute to the functioning of the small intestine? How does a large surface area of organs benefit larger organisms like blue whales and humans?
- 14. Levels of Organization in complex animals Cells - smallest functional unit Tissues - groups of cells with a common structure and function 4 types of tissue: 1. Epithelial - sheets of tightly packed cells; covers the body and lines the organs 2. Connective tissue - supports & binds other tissues; made up of scattered cells in the ECM; examples - cartilage, tendons, ligaments; bone; blood 3. Nervous tissue - made up of neurons; senses & transmits info 4. Muscle tissue - made up of long cells called muscle fibers; can contract when stimulated; 3 types: cardiac, skeletal, smooth
- 16. Organs - organized groups of tissues Organ systems - groups of organs that work for a common purpose Example: digestive system
- 17. Animals use the chemical energy in food to maintain homeostasis, grow, & reproduce Metabolic rate - the amount of energy an animal uses in a given amount of time measured in calories or kcal 2 basic “strategies” Endotherms - bodies warmed by heat generated through metabolism Ectotherms - bodies warmed by environment - metabolism does not produce enough heat to warm the body Lizard sunning itself on a rock to warm up
- 18. Endotherms Birds and mammals Body temp maintained by metabolism Much energy required Permits intense, long duration activity In general, the smaller the endotherm, the higher the metabolic rate
- 19. Ectotherms Fish, amphibians, reptiles, invertebrates Body temp controlled by environment Less energy required Move more slowly when cold
- 20. Quick Think If a mouse and a small lizard of the same mass were placed in a respirometer under identical environmental conditions, which animal would consume oxygen at a higher rate? Explain.
- 21. Maintaining a constant internal environment Homeostasis - the state of internal balance 2 main strategies: Regulator - some animals are this type - they moderate internal change in the face of external fluctuations (keeping body temp constant by sweating, shivering) Conformer - some animals are this type - allow their internal conditions to vary with the environment These are the 2 extremes - most animals use some of both Regulator or Conformer? - Can drop it’s body temp 50 degrees at night to deal with freezing overnight conditions
- 22. Mammals are endotherms - use metabolism to adjust for fluctuations in environment Fish & aquatic inverts. are conformers - they live in stable environments and can adjust bodies for slight changes in environment
- 23. Modes of heat exchange Conduction - the transfer of heat between objects in direct contact with each other Example - animal sitting in cool water Convection - transfer of heat through the movement of air or liquid past a surface Example - a cool breeze Radiation - the emission of electromagnetic waves by warm objects(anything warmer than absolute zero) Evaporation - removal of heat from the surface of a liquid as molecules leave the surface as gas Example - as sweat evaporates off skin it cools the skin
- 24. Thermoregulation How animals maintain their internal temperature Takes place through the following processes: 1. Adjustment of the rate of heat exchange between the animal and its environment through hair, feathers, fats - is accomplished through: 1. vasodilation (blood vessels expand near skin, cools the blood) 2. vasoconstriction (blood vessels contract away from skin, keeps blood warm)
- 25. 2. Evaporation across the skin (panting or sweating) 3. Behavioral responses like changing location or body position 4. Alteration in the rate of metabolic heat production in endotherms 2. 3.
- 26. Mechanisms of Homeostasis Negative feedback - a change in one variable (the output) triggers a change in the control center which turns the system off Example - human body temperature Positive feedback - a change in one variable (the output) triggers the control center to amplify the output Example - nursing by babies (the more the baby nurses, the more milk is produced by the mother)
- 27. Quick Think Describe the difference between positive and negative feedback mechanisms. Which one is more common in living things?
- 28. Energy Budgets For most animals – the majority of food energy goes to making ATP Very little goes toward growth or reproduction There is great variety in how animals “spend” their energy budget
- 29. Reproduction and the rearing of offspring are “expensive” These activities require extra energy Animals use different strategies depending on energy availability Seasonal reproduction when food is available
- 30. Quick Think Can ectotherms have stable body temperatures? Explain.
- 31. So in summary… What did you learn today about the main mechanisms for how living things use free energy to maintain homeostasis?
- 32. Animal Nutrition
- 33. 4 main feeding mechanisms Suspension feeders: sift small food particles from water - ex: humpback whales, clams Substrate feeders: live on or in their food source - ex: maggots, many insect larvae Fluid feeders: take nutrient rich fluid from a living host - ex: mosquitos Bulk feeders: eat relatively large pieces of food - ex: most animals
- 34. Homeostatic mechanisms manage an animal’s energy budget Example: glucose regulation Animals store excess calories as glycogen in the liver & muscles & as fat Animal can tap into these energy stores when it needs ATP Blood glucose levels maintained within a narrow range by negative feedback Fat cells
- 35. Diet must supply carbon skeletons & essential nutrients Essential nutrients - must be obtained in preassembled organic form because animal cannot produce them About 1/2 of the amino acids needed for protein synthesis are essential amino acids - must be taken in through food Vitamins (B, E, C (in humans, birds, snakes)) Minerals (Ca, P) Caribou eating shed antlers to get needed phosphorus
- 36. Processing Food 4 main stages: Ingestion - taking food in Digestion - breaking down food into small molecules that cells can absorb (by enzymatic hydrolysis) Absorption - body cells take up nutrients from digestive tract Elimination - undigested material passes out of digestive tract
- 37. 2 main types of digestion Intracellular - occurs within cells enclosed by a protective membrane - sponges do this Extracellular - food is broken down outside of cells - most animals do this Simple animals have a gastrovascular cavity for digestion with a single opening for food & waste Complex animals have complete digestive tracts (alimentary canals), one way flow, 2 openings One way flow
- 38. The organs of the mammalian digestive system Mouth - food in the mouth triggers the secretion of saliva Saliva lubricates the food to aid in swallowing Saliva contains amylase - breaks down carbs Chewed food called a bolus Swallowed food enters the pharynx - tube that opens into esophagus & trachea Epiglottis (flap of cartilage) covers the opening to the trachea so food goes down the esophagus
- 39. Esophagus - uses peristalsis (wave like contractions) to move food to stomach Stomach - stores food, secretes very acidic (pH 2) gastric juices Juices break down the ECM of meat and plants; kills most bacteria Pepsin -enzyme in gastric juices; secreted as pepsinogen (inactive form) then activated by HCl Esophagus - uses peristalsis (wave like contractions) to move food to stomach Stomach - stores food, secretes very acidic (pH 2) gastric juices Juices break down the ECM of meat and plants; kills most bacteria Pepsin -enzyme in gastric juices; secreted as pepsinogen (inactive form) then activated by HCl Result of stomach digestion is a substance called acid chyme This is moved into the small intestine via the pyloric sphincter
- 40. Small intestine - first section called duodenum Here the acid chyme mixed with secretions from pancreas, gallbladder Rest of small intestine responsible for absorbing nutrients Lining of small intestine has lots of little folds called villi Villi has folds called microvilli These greatly increase SA for absorption
- 41. Large intestine - AKA colon Connected to small intestine by a sphincter where the cecum is found Cecum is a small pouch with the appendix Main function of colon is to absorb water & compact waste Colon ends at rectum - feces stored here until eliminated
- 42. Dentition We can tell what an organism eats based on its teeth (dentition) Herbivores usually have longer digestive tracts - since vegetation takes longer to digest