Mass Transport in Plants Flashcards
what is transpiration
water is lost from the leaves via evaporation
what is translocation
the transport of sugars and organic substances from leaves, where they are formed, to where they are needed
give 4 structure features of the xylem and how it helps its function
- no cytoplasm and no organelles = no obstruction to the flow of water
- no end walls = allows continuous columns of water to form
- lignin = strengthens and waterproofs the vessels
- lateral pits in cell wall = allows lateral movements around blockages
what is cohesion
water sticks to water via hydorgen bonds
what is adhesion
water molecules are attracted to the walls of the xylem
explain the cohesion tension theory in the xylem
- water evaporates out the leaves. Known as transpiration
- water lost from the leaf is replaced by the xylem
- the water potentil gradient across the leaf creates tension
- tension pulls water up the xylem, forming a continuous column of water which is held together by hydrogen bonds. This is known as cohesion
- water molcules are also attracted to the walls of the xylem, adhesion, which helps to narrow the walls of the xylem
what are 4 factors that affect the rate of transpiration
- light intensity
- temperature
- humidity
- air movement
explain how light intensity affects the rate of transpiration
- stomata close in the dark
- the rate of transpiration is higher with increasing light intensity
explain how temperature affects rate of transpiration
- increase in kinetic energy which increases movement of water molecules
- this causes the rate of transpiration to increase
explain how humidity affects rate of transpiration
- if there is high humidity that means theres lots of water molcules in the air
- therefore there is a lower water potential gradient
- as humidity increases the rate of transpiration will decrease
explain how air movement affects transpiration
- air movement over a leaf moves water vapour away from the stomata
- this increases the water potential gradient
- the faster the wind speed, the faster the transpiration
what do scientists use to measure the effects of various conditions on the rate of transpiration
potometer
give the method to investigate rate of transpiration
- leafy shoot is cut under water
- potometer is filled completely with water
- using a rubber tube, the leafy shoot is fitted to the potometer under water
- the potometer is removed from under the water and all joints are sealed with waterproof jelly
- an air bubble is introduced into the capillary tube
- as transpiration occurs the water moves through the capillary tube
- the distance moved over a period of time is recorded
give 3 structure features of the phloem and how this has adapted it for its function
- sieve tube elements have no nucleus and few organelles
- sieve tubes are connected through sieve plates
- companion cells contain many mitochondria to produce ATP
explain the mass flow hypothesis
- sucrose is actively transported into the sieve tube by companion cells
- this lowers the water potential in the sieve tubes
- water enters by osmosis
- this produces high hydrostatic pressure inside the sieve tubes
- mass flow to respiring cells
- sucrose is moved into the sinks by active transport or facilitated diffusion
