gas exchange in fish

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lani !!

Cards (14)

Gas exchange surface in fish
Large surface area to volume ratio
Short diffusion distance
Mechanism to maintain concentration gradients
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Fish are waterproof because of their scales and they have a relatively small surface area to volume ratio, so they can't simply diffuse oxygen across their surface
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Gills 
The gas exchange surface in fish
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Water contains 30 times less oxygen compared to air, so fish have adaptations to help maintain concentration gradients and overcome this challenge
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Diffusion rate calculation 
Diffusion is proportional to surface area x concentration difference / diffusion path length
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Structure of fish gills
Four layers of gills on both sides of the head
Gill filaments aligned in stacks
Gill lamellae positioned at right angles to gill filaments
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Gill filaments 
The long parts sticking out from the gills
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Gill lamellae 
The very thin structures that run horizontally across the gill filaments
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Water flows over the gills
Enters through the mouth and exits through a gap in the side of the head
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Adaptations of fish gills
Large surface area to volume ratio
Short diffusion distance
Mechanism to maintain concentration gradients
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Capillary network 
Inside each gill lamellae, provides a short diffusion distance
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Counter-current flow 
Water flows in the opposite direction to the blood flow in the capillaries
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Counter-current flow 
Ensures equilibrium is not reached, maintaining a diffusion gradient across the entire length of the lamellae
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In an exam question, key points about the counter-current exchange principle would be: 1) It ensures equilibrium is not reached, 2) The water flows in the opposite direction to the blood in the capillaries
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