Comparative Vertebrate Physiology - PowerPoint PPT Presentation
1 / 21
Title:
Comparative Vertebrate Physiology
Description:
Comparative Vertebrate Physiology Vertebrate Respiration Systems Respiration systems Gill External invagination High surface area Patterns of air flow Amphibians ... – PowerPoint PPT presentation
Number of Views:133
Avg rating:3.0/5.0
Title: Comparative Vertebrate Physiology
1
Comparative Vertebrate Physiology
- Vertebrate Respiration Systems
2
Respiration systems
- Gill
- External invagination
- High surface area
- Lung
- Internal invagination
- Ventilation
3
Patterns of air flow
- Amphibians
Fishes
Countercurrent flow
4
Patterns of air flow
- Mammals
Birds
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
(ml/L)
11
Aquatic respiraton
- Aquatic 1L water for 1 ml O2
- Terrestrial 25 ml of air for 1 ml O2
- Its harder to breathe under water
12
Amphibians
- Varied respiratory systems
- 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
