There are 2 types of vascular (transport) tissue found throughout the plant.
Xylem tissue consists of
1. Xylem vessels
Xylem vessels are dead.
They are long hollow tubes allowing water to easily move up through the plant.
They are strengthened by rings or spirals of lignin. This helps to support the plant.
2. Tracheids
Tracheids are also dead.
They are hollow spindle shaped cells whose ends overlap with neighbours. They have lignified walls which make them ideally suite for support.
All phloem tissue is alive.
There are 2 types of cells.
1. Cells belonging to a sieve tube.
The end walls of these cells are perforated to allow cytoplasm to move from one cell to another carrying food. These perforated end walls are called sieve plates.
2. Companion cells
The companion cells contain a nucleus which controls the sieve tube.
The root has several tissues including xylem and phloem.
The epidermis has some of its cells elongated to provide root hairs.
This provides a large surface area for absorption of water.
The epidermis cell are box like which allow cells to fit together.
This is needed for protection.
There are 2 types of cell in mesophyll tissue.
The palisade mesophyll cells have chloroplasts present. They also have columnar shape which provides a maximum surface area for absorption of light.
This is where most photosynthesis takes place.
The spongy mesophyll cells have a round shape which allows moist air to be present between cells of the tissue. These cells also have chloroplasts.
More photosynthesis takes place here. In addition the moist air spaces llow carbon dioxide to reach the cells.
There are 2 types of epidermal tissue.
The first type is the upper epidermis tissue. These cells are all identical to each other. They fit closely together for protection although they allow light to pass through to reach the mesophyll.
The second type of epidermal tissue is the lower epidermis.
There are 2 types of lower epidermis tissue. The epidermal cells are irregular shape allowing the cells to fit together into a strong layer. This provides protection.
The guard cells surround the stomata. The guard cells are sausage shaped with a thick inner cell wall facing stoma..There are chloroplasts present
The guard cells control gas exchange by changing shape and opening or closing stomata.
What to do.
1. Collect diagram sheet.
2. Copy and complete the following table.
Cell type Specialised features
How structure suits function
Cell type Specialised Features How structure suits function
Xylem vessels
Tracheids
Phloem
Spongy Mesophyll
Guard Cells
Palisade Mesophyll
Hollow tubes which are lignified and dead
Allows water transport and gives stem support
Hollow spindle shaped lignified cells
Gives stem extra supportAllows cytoplasm to move carrying food
Contains large nucleus
Allows control of itself and sieve cell
Round shape and chloroplasts
Produces air spaces for gas diffusion and can do secondary photosynthesis
Columnar and packed with chloroplasts
Produces a tightly packed layer of photosynthetic cells
Sausage shaped with thicker inner wall
Allows stomata to open and close for gas exchange
Companion cells
Epidermal cells
Root Hair Cells
Perforated end walls and no nucleus
Sieve cells
Box or irregular shape that fit tightly together
Produce a strong protective “coat”
Long extension into the soil
Produces a large surface area for water absorption