Download - GAS EXCHANGE IN ANIMALS
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GAS EXCHANGE IN ANIMALS
We will be studying the diversity of adaptations for this process in four animal groups:
MammalsFish Birds Insects
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AN OVERVIEW• Cellular respiration
requires O2 and produces CO2 :
C6H12O6 + 6O2 6CO2 + 6H2O
• Gas exchange provides a means of supplying an organism with O2 and removing the CO2
glucose + oxygen carbon dioxide + water
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Organism level
Cellular level
Resp
iration
ATP
Gas exchange medium (air or water)
Fuel molecules from food
CO2
Gas exch
ang
e surface
O2
CO2
Circu
latory system
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THE SOURCE OF OXYGENAir• about 21% oxygen• thinner at higher altitudes• easy to ventilate
Water• amount of oxygen varies but is always
much less than air• even lower in warmer water• harder to ventilate
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GAS EXCHANGE SURFACESGases move by diffusion. Diffusion
Diffusion is greater when:
• the surface area is large
• the distance travelled is small
• the concentration gradient is high
Gas exchange also requires a moist surface
• O2 and CO2 must be dissolved in water to diffuse across a membrane
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GAS EXCHANGE SURFACESTherefore, an efficient gas exchange surface will…• have a large surface area• provide a small distance for gases to diffuse
across• be moist…and will be organised or operate in a way that
maintains a favourable concentration gradient for the diffusion of both gases.
A circulatory system may operate in tandem with the gas exchange system to maintain the concentration gradient
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Depends on:
• the size of the organism
• where it lives – water or land
• the metabolic demands of the organism – high, moderate or low
STRUCTURE OF THE GAS EXCHANGE SURFACE
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TYPES OF GAS EXCHANGE SURFACE
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WATER AS A GAS EXCHANGE MEDIUM
No problem in keeping the cell membranes of the gas exchange surface moist
BUT
O2 concentrations in water are low, especially in warmer and/or saltier water
SO
the gas exchange system must be very efficient to get enough oxygen for respiration
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GETTING OXYGEN FROM WATER: FISH GILLS• Gills covered by an
operculum (flap)• Fish ventilates gills by
alternately opening and closing mouth and operculum water flows into mouth over the gills out under the operculum
• Water difficult to ventilate gills near surface of body
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GETTING OXYGEN FROM WATER: FISH GILLS• Each gill made
of four bony gill arches.
• Gill arches lined with hundreds of gill filaments that are very thin and flat.
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GETTING OXYGEN FROM WATER: FISH GILLS
• Gill filaments are have folds called lamellae that contain a network of capillaries.
• Blood flows through the blood capillaries in the opposite direction to the flow of water.
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ENHANCING THE EFFICIENCY OF FISH GILLS
• Gills have a very large surface area: four arches with flat filaments with lamellae folds
• Gills are thin-walled and in close contact with water: short distance for diffusion
• Gills have a very high blood supply to bring CO2 and carry away O2 dark red colour
• Gills are moist: fish live in water!
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ENHANCING THE EFFICIENCY OF FISH GILLS
Fresh water flows over gills in one direction.
COUNTER-CURRENT FLOW: water and blood in the gills flow in opposite directions
maintains a favourable concentration gradient for diffusion of both gases
Concurrent flow animation
Countercurrent flow animation
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CONCURRENT FLOW
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COUNTER-CURRENT FLOW
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GETTING OXYGEN FROM AIR: MAMMALS, BIRDS & INSECTS
As a gas exchange medium, air has many advantages over water:
• Air has a much higher oxygen concentration than water
• Diffusion occurs more quickly so less ventilation of the surface is needed
• Less energy is needed to move air through the respiratory system than water
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BUT
as the gas exchange surface must be moist, in terrestrial animals water is continuously lost from the gas exchange surface by evaporation
SO
the gas exchange surface is folded into the body to reduce water loss.
GETTING OXYGEN FROM AIR: MAMMALS, BIRDS & INSECTS
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WARM-BLOODED ANIMALSWarmth speeds up body’s reactions
enables faster movement etc
BUT
increases evaporation of water from lungs
AND
increases demand for energy to stay warm
SO
higher demand for gas exchange to provide O2 for and remove CO2 from respiration
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MAMMAL LUNGS: VENTILATIONTwo lungs ventilated by movement
of diaphragm and ribs
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MAMMAL LUNGS: STRUCTURE
• Air enters via trachea (windpipe)
• Trachea branches into two bronchi (one bronchus to each lung)
• Bronchi branch into bronchioles
System of tubes (held open by rings of cartilage) allow air to flow in and out of lungs
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MAMMAL LUNGS: STRUCTURE
Rubber cast of human lungs
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MAMMAL LUNGS: STRUCTURE
Healthy lungs Smoker’s lungs
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MAMMAL LUNGS: STRUCTUREMany alveoli at the end of the bronchioles• walls made of flat cells; only one cell thick• each alveolus lined with moisture• surrounded by capillary network carrying blood
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GAS EXCHANGE IN MAMMALSInhaled air: 21% O2 and 0.04% CO2
Blood arriving: low in O2 and high in CO2
O2 in lung air
dissolves in moist lining
diffuses into blood
CO2 in blood
diffuses into moist lining
diffuses into lung air
Exhaled air: 17% O2 and 4% CO2
Blood leaving: high in O2 and low in CO2
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GAS EXCHANGE IN MAMMALS
Gas exchange animation
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GAS EXCHANGE IN MAMMALS
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Large surface area• many tiny alveoli• area as big as a tennis court in humans!Short distance for diffusion• alveoli and capillary walls only one cell thick• cells are flattened so very thin• capillaries pressed against alveoli
Moist• wet lining of alveolus• system internal to reduce water loss by evaporation
ENHANCING THE EFFICIENCY OF MAMMAL LUNGS
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Maintaining a concentration gradient
• air (with depleted O2 and excess CO2) is exhaled replaced with fresh inhaled air
• blood (having lost CO2 and been enriched with O2) returns to heart to get pumped around body replaced with blood collected from body
ENHANCING THE EFFICIENCY OF MAMMAL LUNGS
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BIRD LUNGSBirds have a high demand for oxygen:• warm-blooded so metabolism is high• flight requires a lot of energy
Additional challenge:• air at higher altitude is
thinner lower in O2
…yet some species have been seen flying over Mt Everest!
Birds have a very efficient gas exchange system to cope with low O2 supply & high O2 demand
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BIRD LUNGS
Birds have lungs and air sacs:
• air sacs are not sites of gas exchange
• air sacs enable a one-way flow of air through lungs
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BIRD LUNGS: VENTILATIONPassage of air through lungs:in trachea rear air sacs rear bronchi
parabronchi in lungs
out trachea front air sacs front bronchi
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BIRD LUNGSMain air tubes through lungs are the parabronchi.
Tiny air capillaries loop away from and back to parabronchi one way flow of air
Blood capillaries run alongside air capillaries
BUT
blood flows in opposite direction to air flow
COUNTER-CURRENT EXCHANGE of gases
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ENHANCING THE EFFICIENCY OF BIRD LUNGS
Large surface area
• many tiny air capillaries
Short distance for diffusion
• air and blood capillary walls made of flattened, thin cells
• air & blood capillaries alongside each otherMoist
• lining of air capillaries is wet
• system is internal to conserve moisture
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ENHANCING THE EFFICIENCY OF BIRD LUNGS
Maintaining a concentration gradient
• Air flows in one direction through lungs regardless of whether the bird is inhaling or exhaling
• One way passage in both parabronchi and air capillaries; other way in blood capillaries
COUNTER-CURRENT EXCHANGE
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INSECT TRACHEAL SYSTEMCompletely different system!
Air tubules (trachea & tracheoles) throughout the body which open to the environment via spiracles
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INSECT TRACHEAL SYSTEM• Trachea kept open by circular bands of chitin• Branch to form tracheoles that reach every cell• Ends of the tracheoles are moist• Oxygen delivered directly to respiring cells –
insect blood does not carry oxygen
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• Oxygen delivered directly to respiring cells
• Can pump body to move air around in tracheal system
BUT• Size of animal limited by
relatively slow diffusion rate
ENHANCING THE EFFICIENCY OF INSECT TRACHEAE
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DIVERSITY
fishgills
mammallungs
birdlungs
insecttracheae