Bonine and Oh, Vertebrate Physiology, ECOL 437, spring 2009 EXAM FORMAT AND SAMPLE QUESTIONS FOR REVIEW (EXAM 3) 13 April 2009, Exam 3 will be in lecture on Monday 27 April [review questions from lectures between 12 April and the exam will be revised/posted later] This list of questions is not exhaustive, but should give you an idea as to the range of material and types of questions we are likely to present on the exam. Please refer to your syllabus, text, readings, and lecture and discussion notes (and quizzes) for information relevant to the first exam. Exam will cover text chapters 5-8, maybe 9, 22, 24-29 (lectures from carbon dioxide transport through energetics (Ch8) and perhaps thermal physiology (ch9)). Don’t forget to review the material you covered in lab. Likely Exam Format: True or false and matching (~10 points) Really Short Answer (one word or sentence) (~30 pts) Short Answer (a couple of sentences) (~45 pts) Longer Answer (a paragraph or more) (~15 pts) Note that some of the short answer may involve drawing or interpreting graphs. Jason Pilarski, Respiratory Control 1. Review your notes from this lecture. I will ask Kevin Oh to write questions for the exam from this lecture that I did not attend. Carbon Dioxide Transport (a leftover from material for the 2nd midterm) 2. How is most carbon dioxide transported in vertebrate blood? Is the answer different in different taxa or between endotherms and ectotherms? 3. What is the Haldane Effect? How is it similar or different than the Bohr Effect? 4. What is the role of carbonic anhydrase in carbon dioxide transport? What is the role of hemoglobin in carbon dioxide transport? 5. Why and where is there a chloride shift? Circulation, Heart Function 6. What are four important components of the circulatory system in vertebrates? Why are tissues arranged in parallel instead of in series? 7. How does gravity affect blood pressure? Is the effect different for aquatic organisms? 8. Compare circulatory systems in terrestrial mammals, marine fishes, and air breathing fishes. 9. How is the arterial system a “pressure reservoir” whereas the venous system is a “volume reservoir”? 10. Trace a drop of blood from the right atrium through the heart, lungs, and body until it returns to the right atrium. What if you traced a glucose molecule? Where are some of the places it might end up? How might it have been temporarily in the forming urine? 11. How are amphibian and reptile hearts distinct from each other and from mammalian hearts? 12. How is the “three-chambered” description of the reptilian heart overly simplistic? 13. Explain a situation where a right-to-left cardiac shunt would be adaptive. 14. Do mammalian or avian fetuses have shunt equivalents? Why? How? Do things change after birth/hatching? 15. How is the heart an electric machine? 16. How and why do cardiac muscle action potentials have long plateau periods? Think about both proximate and ultimate explanations. 17. How and why can cardiac cells exhibit intrinsic pacemaker potential? 18. Why does the SA node set the pace of your heart? How can it be modified? 19. Compare cardiac muscle contractile function with skeletal and smooth muscle. Bonine and Oh, Vertebrate Physiology, ECOL 437, spring 2009 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. Understand and be able to explain the Wiggers Diagram. How is an electrocardiogram related? What is the atrial kick? What is the Frank-Starling mechanism? Do you need either to survive? How can cardiac output be measured? How can cardiac output change? Why does stroke volume not change very much even if diastole is cut in half? Does the sympathetic nervous system recruit more cardiac muscle fibers to increase cardiac output? Compare properties of the venous system and the arterial system. How can endothelium in capillaries vary in different tissue types? What is the functional significance of this variation? Explain the role of bulk flow and osmotic gradients in the functioning of capillaries and the role of the lymph system. What is ANP? Compare extrinisc and intrinsic control of arterioles in the circulatory system. Are there exceptions to these general rules? How are Viagra, NO, cGMP, and vasodilation related? How do you calculate flow rate in a vessel? Is this equation always correct for vertebrate vessels? What is the relative effect of a change in vessel diameter? Diving by Marine Mammals 31. What are the challenges imposed on marine mammals that dive in the ocean to forage? 32. Describe three ways these challenges are met physiologically. 33. Explain ‘the bends’. 34. What is the pressure on an organism at 100m below sea level? 35. How do marine mammals deal with their (potential?) oxygen deficit when under water? Osmoregulation & Kidney Function 36. Why can’t we get hydrated by drinking seawater? 37. What are five obligatory osmotic exchanges between a vertebrate and its environment? 38. What are typical values of blood osmolarity in terrestrial vertebrates? What osmolarity is sea water? Fresh water? 39. What energy source do kidneys, gills, and salt glands rely on for their function? What protein typically burns this energy during osmoregulation? Where do chloride cells fit into this discussion? 40. How does body size relate to water balance? Why? 41. How is metabolic water produced? 42. How does behavior mitigate environmental challenges to physiological systems? Can you provide an example? 43. How do frogs and lizards compare with respect to cutaneous water-loss rates? Are there exceptions? 44. How can sharks be hyperosmotic with respect to seawater, but have very different ion concentrations than sea water? 45. What is the ‘job’ of the mammalian kidney? Is this different from the role of the kidney in other vertebrate groups? 46. What is the functional unit of the kidney? How does the anatomy of the kidney and its constituent components contribute to its functional properties? 47. Which three processes in the kidney determine the final, excreted urine composition? 48. What does the U/P ratio tell you? 49. How is filtration regulated both before and at the Bowman’s Capsule? 50. Why does starvation in humans or other vertebrates influence rates of filtration and urine production? 51. Explain how the macula densa cells and the juxtaglomerular cells influence kidney function? How is anatomy finely linked to function for the juxtaglomerular apparatus? Bonine and Oh, Vertebrate Physiology, ECOL 437, spring 2009 52. 53. 54. 55. 56. 57. 58. 59. 60. 61. 62. 63. 64. 65. 66. Explain the role of renin on the circulatory system. How and why does the lung get involved? How is glomerular filtration rate (GFR) changed if a substance is both filtered and secreted into the forming urine? Explain the mechanism by which a person might have glucose in their urine? Why do we not typically have glucose in our urine? You could answer the question from a proximate and from an ultimate point of view. What are the substances most commonly reabsorbed in the proximal tubule? How? What happens in the distal tubule? How do aldosterone and vasopressin (ADH) work together to maintain fluid volume in the body? How are the loop of Henle and collecting duct each involved in creating and maintaining the osmotic gradient that becomes more osmotic in the medial part of the kidney medulla? How does counter-current exchange in the vasa recta facilitate the osmotic gradient in the medulla? What three hormones does ANP help inhibit? Explain how the countercurrent multiplier in the kidney works. How can vertebrates pee out urine that is either hypo or hyper osmotic to plasma? Why is this important? Explain how salt excretion from organs other than kidneys typically works. How are chloride cells involved in fish osmoregulation? What hormones are typically involved, especially in anadromous fishes? How is nitrogenous waste dealt with in different vertebrate groups? How could you argue these differences are adaptive? What is the relationship between length of loops of Henle, arid habitat, and urine osmolarity? Bird Osmoregulation, Eldon Braun 67. What constitutes the internal environment of a vertebrate? 68. In the context of osmoregulation, why are mammals unusual? 69. What organs do birds use for osmoregulation? 70. Why do birds not have concentrated ureteral urine? 71. Why is comparison of U/P ratios between birds and mammals not that informative? 72. How much different is bird GFR from mammal GFR? 73. How much more soluble is urea than uric acid? 74. Why is there a lot of protein in bird urine? What happens to that protein? Where? 75. What is meant by the term “retrograde peristalsis”? 76. How much of the nitrogen in bird uric acid is excreted? 77. Why did Braun argue that birds are perhaps better adapted to desert living than similar-sized mammals? 78. What is a typical value of blood-glucose concentration in a human? In a dove? 79. Why do birds roost in places like saguaro cavities? Feeding, Digestion, Metabolism, Allometry 80. xxTHE QUESTIONS BELOW ARE FROM 2008 AND HAVE NOT BEEN UPDATED AS OF 13 APRIL 2009.XX 81. Describe three categories of feeding? How is morphology correlated? 82. Why does beak-size fluctuate in Darwin’s finches? 83. How is homodont dentition different from heterodont? 84. How did Joe Slowinski die? 85. What is the role of a pit organ in snakes? How precise is the sense? 86. Describe three variations on suction feeding. 87. Explain the proximate (current anatomy) and ultimate (pressure of natural selection) mechanisms behind projectile feeding in some lungless salamanders. 88. Why would you ever put glasses on a chameleon? 89. Compare the digestive physiology of herbivores, omnivores, and carnivores. Bonine and Oh, Vertebrate Physiology, ECOL 437, spring 2009 90. 91. 92. 93. 94. 95. 96. 97. 98. 99. 100. 101. 102. 103. 104. 105. 106. 107. 108. 109. 110. 111. 112. 113. 114. 115. 116. 117. 118. Why eat a relative? Define allometry. a. Explain the implications of the mouse-to-elephant curve. b. How do you linearize a power function? c. Why is isometry rare? d. How does skeleton mass scale with body mass? Why? e. How does cost of locomotion scale with body mass? f. How do the efficiencies of different locomotor modes generally vary? Are there interesting exceptions? g. How much LSD should you give an elephant? What are the several ways you could answer this question? Which do you think is the most accurate? Why? h. How do components of gas-exchange physiology scale with body size? How is metabolism actually measured? What are the units commonly used? How does metabolism change to fuel exercise of different intensities and durations? How does the Q10 effect relate to metabolic rate? Compare the roles of catabolic and anabolic metabolism. What is the ultimate fate of most metabolic processes? How is the 10% Rule related? How does SDA complicate attempts to measure BMR? How are metabolism and reproductive ecology related? Can you provide examples to illustrate your answer? Why are there few aquatic homeothermic endotherms? Compare FMR to BMR? Which is easier to measure? Why? What functions contribute most to BMR? Explain the facultative endothermy in female pythons. Why and how does transit time in the gut differ? If shown a diagram of a vertebrate digestive tract, could you determine if it was carnivore or herbivore? If herbivore, could you tell hindgut from foregut fermenter? What is the selective rationale behind gut plasticity? What exactly is plastic (what actually changes)? xx What are the different parts of the digestive tract? What happens in each of them? Describe the roles of three secretions from the foregut. How are monogastric and digastric anatomies different? What happens in a cow’s stomach? How much gas does a domestic cow produce each minute? Why does this concern Al Gore? What separates the foregut from the midgut? What are the parts of the midgut? What happens in each of them? Where are most bile and pancreatic enzymes delivered to the midgut? Where are the mucosa and submucosa? How are smooth muscles arranged in the gut? Why? Describe the anatomical specializations related to villi and microvilli. What does the glycocalyx do? What commonly is the job of the hindgut? Why do rabbits often eat their feces? Do cows do something similar? Why don’t rabbits do what cows do? How do various substances get absorbed into the blood from the chyme? Why are there different glucose transporters? How are amino acids absorbed? Fats? How is the lacteal involved? What is the role of the hepatic portal vein? What percent of the water and electrolytes secreted into the lumen of the gut are reabsorbed before defecation? Where? Why? Why is there a countercurrent arrangement of arterioles and venules (and even capillaries) in the tips of the villi, and a high concentration of Na+ at the tips of the villi? Bonine and Oh, Vertebrate Physiology, ECOL 437, spring 2009 119. 120. 121. 122. 123. 124. Describe important secretions of the headgut, foregut, and midgut. Where are most midgut secretions made? What do they do? Why is vertebrate feces brown? Explain how gastrin, GIP, and the enterogastric reflex are related to both digestive physiology and homeostasis? What is a pre-enzyme? Why does the vertebrate gut bother making a pre-enzyme? Is the digestive system disconnected from the brain? Why or why not? Give an example of a lipid soluble vitamin that plays an important role in vision. Metabolism & Energetics 125. xx Thermal Physiology? 126. xx Review Questions from Lab/Discussion: 1. What is the main point of each article we have read thus far in lab? Review the questions that Kevin Oh emailed you about each week’s readings. 2. What questions did you address in each of your hands-on labs? What write-up questions were you asked to answer about your findings? 3. What topics were discussed several times, perhaps even in multiple lab meetings?