Comparative Physiology Biology 3320courses.biology.utah.edu/carrier/3320/lecture1.pdf · Themes in...
Transcript of Comparative Physiology Biology 3320courses.biology.utah.edu/carrier/3320/lecture1.pdf · Themes in...
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Comparative PhysiologyBiology 3320
David CarrierSpring, 2007
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http://courses.biology.utah.edu/carrier/3320/
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What is comparative physiology?- Study of how animals work.
- Study of how species are adapted to their environment.
- Study of why animals came to be the way they are.
- Evolutionary history
- Evolutionary processes
- Innovations and constraints
Science:- exploration- testing- application
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I have found you an argument;but I am not obliged to find you anunderstanding.
Samuel Johnson
Science is not defined by its product.It is a process.
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Themes in comparative physiology:- Relationship between structure and function- Adaptation and Acclimatization- Constraint and Tradeoff- Integration- Homeostatsis- Effects of size
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ICHTHYOSAUR
Structure/Function Relationships
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Leading edge tubercles on humpback whale (Megaptera novaeangliae) flippers?
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Fluid—whether liquid or gaseous—passing over a wing (blue arrows)creates lift (upward-pointing arrow). But what distinguishes thehumpback’s flipper from an ordinary wing is the presence of tubercles,or bumps, on the flipper’s leading edge (above left). The tuberclesenable the flipper to create lift at angles as steep as roughly seventeendegrees, because the water gets accelerated into an organized, rotatingflow behind the troughs formed by the tubercles. A flipper with asmooth leading edge (above right) would stall, or cease to provide lift,at such an angle, because the water would be spun into a disorganizedseries of eddies.
Humpback whale attacks its prey by encircling them in a "bubblenet"—a turbulent cylinder of bubbles the whale creates by expelling airthrough its blowhole as it spirals upward toward the ocean surface. Thepath of the whale has been traced for clarity by a series of columns ofbubbles. The bubble net can be as small as five feet in diameter. Suchtight turning is made possible by the hydrodynamic lift generated by thewhale’s long pectoral flippers.
http://biomechanics.bio.uci.edu/_html/nh_biomech/whaleturn/whaleturn.htm
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Acclimation
Hypobaric (Decompression) Chamber
Adaptation
Acclimatization
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Optimal versus good enough?
Constraint
Functional tradeoff
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1. convective
heart
tissue
Lung VO2=Vβgas(PIO2-PEO2)=Gvent(ΔPO2)
2. diffusiveVO2=DLO2 (PAO2-PcapO2)=Gdiff(ΔPO2)
VO2=Qβblood(PaO2-PvO2)=Gperf(ΔPO2)
3. convectivePpa
Pv Pa
Ppv
Oxygen Cascade
4. diffusiveVO2=DMO2(PaO2-PmitO2)=Gdiff(ΔPO2)
Integration
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Homeostasis - The tendency of organisms to regulate and maintainrelative internal stability.
TemperatureGlucose concentrationpHOsmotic pressureOxygen levelIon level
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Effects of size
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What is this animal?Where did it come from?And why is it still here?
The Human Portrait
Robert Mapplethorpe
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Life span
Body mass
mammalsTspan = 11.8 Mb
0.20
primates
human