Transport in plants - 3 Flashcards
What is the function of the xylem
Transports water and minerals up the plant from the roots to the leaves
Describe the structure of the xylem vessels
long cells with thick walls
Impregnated with lignin
Xylem cells die and their end walls die and decay
Leaves long columns of hollow dead cells
What is the function of xylem pits
Permits the lateral movement of water from vessel to vessel as well as out the vessels
Explain the function of lignin within the xylem
lignification permits the xylem to stretch as the plant grows and enables the stem or branch to bend
Prevents the collapse of the vessel when its under tension
Provides adhesion for water molecules
waterproofing
what is the function of the phloem
Transports sucrose
What does the phloem consist of
Sieve tube elements
Companion cells
Describe the structure of the sieve tube elements
Very little cytoplasm
No nucleus
Contain mitochondria and RER
No vacuole
How are the sieve tube elements adapted
Sieve plates contain sieve pores to allow the flow of water and solutes
Very few organelles so large surface area
What is the structure of the companion cells
Large nucleus
Dense cytoplasm
Lots of mitochondria
How does water enter the roots
Mineral ions are actively transported into the root hair cell
This lowers the water potential of the cytoplasm
Water enters root hair cell via osmosis down a water potential gradient
What are the possible pathways water can enter the xylem
Apoplast
Symplast
Vacoular
What is the apoplastic route
Around cell walls
Does not go through plasma membrane
What is the symplastic root
Water enters through the plasma membrane into cytoplasm
Passes through the plasmodesmata
What is the vacuolar root
Travels through the cytoplasm and the vacuoles
How does water enter the xylem vessels
mineral ions actively transported into the xylem by cells in the endodermis
This lowers the water potential in the xylem
Water enters the xylem by osmosis
Ions cannot leak back due to the casparian
What is transpiration
The process of water movement through a plant and its evaporation from aerial parts
How is water moved up the xylem from the roots to the leaves
Root pressure: Minerals actively transported into the xylem lower the water potential in the xylem
This causes water to move in via osmosis, this creates a high hydrostatic pressure and the bottom of the xylem
Transpiration pull: Cohesion as water molecules evaporate from leaves water molecules are pulled up because they form hydrogen bonds with other water molecules and stick together
capillary action: water molecules attracted to the walls of the xylem, because xylem are very narrow the forces of attraction pull up the water via the sides of the xylem
How does water leave the leaf
Water moves from a xylem
vessel…
… to a spongy mesophyll cell
via a pit
Water evaporates from
mesophyll cells to form water
vapour
Water vapour diffuses down
water vapour potential
gradient across the airspace
and out of the stomata
Water vapour is taken away
by air currents
What does the plant use the transpiration stream for?
Photosynthesis
Plant growth
Keeps the plant turgid
what is a potometer
A device used to measure the rate of transpiration
Describe three steps a student you use when setting up a potometer
Set the potometer up underwater
Use healthy shoots
Make sure there are no leaks
Explain why transpiration cannot be avoided during the day
Plants need to open the stomata so that gases such as oxygen and CO2 can be diffused in for photosynthesis, meaning that water vapour will be lost through the stomata
What type of plants are able to live in arid conditions
Xerophytes
What adaptations do xerophytes have to reduce water loss
Hairs on the surface trap water vapour
sunken stomata trap water vapour in the pits
Rolled leaves reduce the surface area of where water vapour can be lost, traps water vapour as well
Very few stomata, to reduce the amount of water vapour lost when they are open
