Leaf: Structure & Adaptations (Edexcel IGCSE Biology)

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Leaf Structure

  • Plant leaves have complex structures with layers of different tissues containing specially adapted cells

  • The table below describes the different structures in a leaf and their functions

Leaf structures table

Structure

Description

Wax cuticle

Protective layer on top of the leaf, prevents water from evaporating

Upper epidermis

Thin and transparent to allow light to enter palisade mesophyll layer underneath it

Palisade mesophyll

Column-shaped cells tightly packed with chloroplasts to absorb more light, maximising photosynthesis

Spongy mesophyll

Contains internal air spaces that increase the surface area to volume ratio for the diffusion of gases (mainly carbon dioxide)

Lower epidermis

Contains guard cells and stomata

Guard cell

Absorbs and loses water to open and close the stomata to allow carbon dioxide to diffuse in, oxygen to diffuse out

Stomata

Where gas exchange takes place: opens during the day, closes during the night. Evaporation of water also takes place from here. In most plants, found in much greater concentration on the underside of the leaf to reduce water loss

Vascular bundle

Contains xylem and phloem to transport substances to and from the leaf

Xylem

Transports water into the leaf for mesophyll cells to use in photosynthesis and for transpiration from stomata

Phloem

Transports sucrose and amino acids around the plant

Structure of a leaf diagram

Diagram showing the cross-section of a leaf

  • The specialised cells in leaves have adaptive features which allow them to carry out a particular function in the plant

    • Leaves have a large surface area to increase the area for the diffusion of carbon dioxide and absorption of light for photosynthesis

    • Leaves are thin, which allows carbon dioxide to diffuse to palisade mesophyll cells quickly

    • Chlorophyll in the leaf absorbs light energy so that photosynthesis can take place

    • The network of veins in the leaf allows the transport of water to the cells of the leaf and carbohydrates from the leaf for photosynthesis (water is used for photosynthesis, and carbohydrates are a product of photosynthesis)

    • Stomata in the leaf allow carbon dioxide to diffuse into the leaf and oxygen to diffuse out

    • The epidermis is thin and transparent, allowing more light to reach the palisade cells

    • The thin cuticle made of wax protects the leaf without blocking sunlight

    • The palisade cell layer at the top of the leaf maximises the absorption of light as it will hit the chloroplasts in the cells directly

    • The spongy layer contains air spaces that allow carbon dioxide to diffuse through the leaf, increasing the surface area

    • Vascular bundles have thick cell walls, which help to support the stem and leaf

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Lára Marie McIvor

Author: Lára Marie McIvor

Expertise: Biology Lead

Lára graduated from Oxford University in Biological Sciences and has now been a science tutor working in the UK for several years. Lára has a particular interest in the area of infectious disease and epidemiology, and enjoys creating original educational materials that develop confidence and facilitate learning.