Leaf Adaptations for Gas Exchange (Edexcel IGCSE Biology)
Revision Note
Leaf Structure
The structure of the leaf is adapted to carry out both photosynthesis and gas exchange
The different cell types (palisade mesophyll, spongy mesophyll etc.) and tissues are arranged in a specific way to facilitate these processes
The cross-section of a leaf
Leaf structure and gas exchange
The leaf is specifically adapted to maximise gas exchange
There are 3 key gases which we must consider
Carbon dioxide - released in respiration but used in photosynthesis
Oxygen - released in photosynthesis but used in respiration
Water vapour - released in respiration and transpiration
The route of diffusion of carbon dioxide into the leaf can be seen in the diagram below
Gases will always diffuse down a concentration gradient (from where there is a high concentration to where there is a low concentration)
Pathway of carbon dioxide from atmosphere to chloroplasts by diffusion.
atmosphere → air spaces around spongy mesophyll tissue → leaf mesophyll cells → chloroplast
Adaptations of the whole leaf for gas exchange
Adaptations of leaves to maximise gas exchange:
They are thin which gives a short diffusion distance
They are flat which provides a large surface area to volume ratio
They have many stomata which allow movement of gases in and out of the air spaces by diffusion
Other adaptations of the internal leaf structure/tissues include:
Air spaces to allow gas movement around the loosely packed mesophyll cells
Many stomata in the lower epidermis open in sunlight to allow gas movement in and out of the leaf
Thin cell walls allow gases to move into the cells easily
Moist air which gases can dissolve into for easier movement into and out of cells
The close contact between the cells and the air spaces allows efficient gas exchange for photosynthesis and respiration
Stomata
Stomata are spaces found between two guard cells predominantly on the lower epidermis of the leaf
The guard cells are responsible for the opening and closing of the stomatal pore which controls gas exchange and water loss
Stomata open when water moves (by osmosis) into the guard cells causing them to become turgid
This allows gases to diffuse in and out of the leaf through the stomatal pore
Stomata tend to open when there is plenty of water and sunlight
Stomata close when the guard cells lose water (by osmosis) to the neighbouring epidermal cells and they become flaccid
This prevents any diffusion into or out of the leaf
Stomata tend to close due to low water availability or low sunlight
The guard cells control the opening and closing of the stomata
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