G AS EXCHANGE IN A NIMALS Biology ATAR Unit 2 Chapter 11 275-277.
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Transcript of G AS EXCHANGE IN A NIMALS Biology ATAR Unit 2 Chapter 11 275-277.
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GAS EXCHANGE IN ANIMALSBiology ATAR Unit 2
Chapter 11275-277
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Tracheal systemSpiracles
Lungs Air sacs Alveoli
Gills Diffusion Concentration
gradient Counter-current
system
All multicellular organisms need systems for gas exchange
The type of system an organism has is dependent its size and on the environment it lives in
All systems have common characteristics that increase the efficiency of gas exchange
Keywords Making connections
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GAS EXCHANGE
Gas exchange in animals is by diffusion
The 2 main gases exchanged is O2 into the body and CO2 out of the body
A high concentration of CO2 is more dangerous to organisms than a low concentration of O2
Oxygen
Carbon dioxide
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GAS EXCHANGE SURFACESCharacteristics of effective exchange surfaces:
1. Large surface area to volume ratio
2. Thin & permeable3. Moist – enables the
dissolution of O2 for diffusion into the blood stream
4. High concentration gradient is maintained across the membranes
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TYPES OF GAS EXCHANGE SYSTEMS
System Animal ExampleMoist skin Adult amphibians
CnidariansFrogs Jellyfish
Tracheal system
Insects Arachnids
GrasshopperRedback spider
Lungs MammalsReptiles
HumansLizards
Lungs with air sacs
Birds Chickens
Gills FishCrustaceanJuvenile amphibians
GoldfishCrabsTadpoles
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MOIST SKIN
CNIDARIANS
Cnidarians are aquatic animals
Gases continually diffuse across the membranes
AMPHIBIANS (FROGS)
Tadpoles have external gills
Frogs rely on their lungs and their moist skin for gas exchange
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TRACHEAL SYSTEMS Insects have holes (spiracles) which lead
into tubes (tracheas) The O2 diffuses through these from the
outside air and CO2 leaves by diffusion in the opposite direction
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GILLS The amount of
dissolved O2 in water is a lot less than it is in air
Therefore, gills have a greater surface area as compared to the lungs of a similarly sized mammal
Gills are highly convoluted structures with a very high surface area.
Blood flows in the opposite direction to the water (counter-current) increasing the efficiency of gas exchange
Gills rely on water flowing over them to ensure maximum O2 uptake
Gills are the most efficient gas exchange system out of all 3 types of systems
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LUNGS WITH AIR SACS
Birds have lungs with air sacs
They are inflated and deflated by the muscles of the rib cage
The air sacs force air through very fine tubes where the gas exchange takes place
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LUNGS Mammals and reptiles
have lungs. The air travels:1. In through the
nostrils2. Down the trachea3. Into the alveoli of
the lungs Gas exchange takes
place in the alveoli Alveoli dramatically
increase the surface area of the lungs
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