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Comparative Vertebrate Physiology

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Presentation on theme: "Comparative Vertebrate Physiology"— Presentation transcript:

1 Comparative Vertebrate Physiology
Vertebrate Respiration Systems

2 Respiration systems Gill Lung External invagination High surface area
Internal invagination Ventilation

3 Patterns of air flow Fishes Amphibians Countercurrent flow

4 Patterns of air flow Birds Mammals Crosscurrent flow Tidal flow

5 Cutaneous respiration
Increase skin surface area Ineffective above 1,000g When PO2 low use reduced lungs Lake Titicaca in Peru

6 Lamella gills Anatomy Gill arches, filaments, secondary lamellae

7 Gill ventilation Mouth Buccal cavity (positive pressure) Operculum

8 Countercurrent flow Is it more efficient?

9 Ram ventilation Fast swimmers (i.e., tuna, some sharks)
Forcing water across gill surface

10 Aquatic respiration Physiological consequences Variable Density (Kg/l)
Viscosity (cPi) O2 diffusion coefficient O2 content Water Air 1.0 0.001 1.14 0.02 0.2 1 - 6 210 (ml/L)

11 Aquatic respiraton Aquatic: 1L water for 1 ml O2
Terrestrial: 25 ml of air for 1 ml O2 It’s harder to breathe under water

12 Amphibians Varied respiratory systems Positive pressure buccal pump
Cutaneous, gills, lungs Positive pressure buccal pump IV phases

13 Reptiles Negative intrapulmonary pressure
All have ribs and intercostal muscles (except chelonians) Crocodiles Muscle contraction

14 Reptiles Chelonians Rigid carapace (ribs?) and diaphragm
Breathe by movement of girdles and muscle contraction

15 Birds Air sac system Connected to trachea, lungs and long bones
One way system

16 Birds Two breaths to remove air from pathway

17 Extremes of respiration
1. Increase in altitude PO2 at 5,800 m is 80 mmHg compared with 155 mmHg at sea level Birds migrate at 6,000 m Humans Short-term response: Increase in depth of respiration (not rate), regulated by pH of CSF Long-term response: Increase in erythropoietin and RBC count

18 Extremes of respiration
2. Diving in air-breathing animals e.g.reptiles, mammals

19 Extremes of respiration
2. Diving Cope with hypoxia by using all available oxygen High levels of Hb, myoglobin Blood shunt to brain and heart

20 Extremes of respiration
Preventing “the bends” Nitrogen narcosis caused by an increase in pressure

21 Extremes of respiration
Solution: evacuate lungs of air

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