Xylem & Phloem (OCR GCSE Biology A (Gateway))
Revision Note
Xylem Structure
Plants possess two specialist transport vessels called the xylem and phloem
The xylem and phloem are arranged throughout the root, stem and leaves in groups called vascular bundles
Vascular tissue in a dicotyledonous plant
Structure and function of the xylem
Xylem vessels (pronounced: zi-lem) transport water and minerals from the roots to the stem and leaves in the transpiration stream
The xylem has some key structural features that makes it adapted for the transport of water
It is composed of dead cells joined end to end with no end walls between them
This creates a hole (lumen) down the middle which forms a hollow tube
Xylem cells are strengthened by a woody material called lignin which makes the cell walls strong, waterproof and stiff
Xylem cells lose their top and bottom walls to form a continuous tube through which water moves through from the roots to the leaves
Phloem Structure
Phloem tubes transport nutrients like dissolved sugars (e.g. sucrose) and amino acids both up and down the stem
Nutrients are transported to new growing and storage tissue in a process known as translocation
Phloem tubes are made of columns of living cells called sieve-tube elements which are joined end to end
Sieve tube elements contain end-plates with holes (sieve plates) which allow sugars and amino acids to flow easily through
Sieve tube elements are supported by companion cells that carry out the living functions for the sieve tube elements
This is because sieve tube elements contain no nucleus so can't survive on their own
Phloem cells form tubes similar to xylem vessels, except the cells still retain some subcellular structures and are therefore living
Comparison between Xylem and Phloem Tissue Table
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