Module 3 : Section 3 - Transpiration Flashcards
what is transpiration
- the evaporation of water from a plant’s surface, especially in the leaves
- happens as result of gas exchange
what is meant by ‘transpiration is a consequence of gas exchange
- a plant needs to open its stomata to let in CO2, so that it can produce glucose (by photosynthesis)
- this lets water out, there is a higher concentration of water inside the leaf than in the air outside. so this moves water out of the leaf down the water potential gradient when the stomata open
what factors affect transpiration rate
- light intensity
- temperature
- humidity
- wind
how does light intensity affect transpiration rate
- the higher the light intensity the faster the transpiration rate
- this is because the stomata open when it gets light, so CO2 can diffuse into the leaf for photosynthesis
- when its dark the stomata are usually closed, so there’s little transpiration
how does water move
from areas of higher water potential to area of lower water potential - it moves down the water potential gradient
how does temperature affect transpiration rate
- the higher the temperature the faster the transpiration rate
- warmer water molecules have more kinetic energy so they evaporate from the cells inside the leaf faster
-this increases the water potential gradient between inside and outside the leaf making water diffuse out of the leaf faster
how does humidity affect transpiration rate
- the lower the humidity the faster the transpiration rate
- if the air around the plant is dry, the water potential gradient between the leaf and air is increased which increases transpiration
how does the wind affect transpiration rates
- the windier it is, the faster the transpiration rate
- lots of air movement blows away water molecules from around the stomata
- this increases the water potential gradient which increases the rate of transpiration
what factors alter the water potential gradient
wind
temperature
humidity
what are xerophytic plants
- plants that are adapted to reduce water loss
- adapted to live in dry conditions
- their adaptations prevent them losing water by transpiration
give examples of xerophytes
cacti
marram grass
how is marram grass adapted to reduce water loss
- has stomata which are sunk in pits, so they are sheltered from wind. this slows down transpiration
- has a layer of hairs on the epidermis, traps moist air round the stomata which reduces water potential gradient therefore slowing transpiration down
- in hot or windy conditions marram grass plants roll their leaves, traps moist air slowing down transpiration. it also reduces exposed surface area for losing water and protects the stomata from wind
- thick waxy layer on the epidermis, reduces water loss by evaporation because the layer is waterproof
how is cacti adapted to reduce water loss
- thick waxy layer on the epidermis, reduces water loss by evaporation because the layer is waterproof
-cacti have spines instead of leaves, reduces surface area for water loss - cacti close their stomata at the hottest times of the day when transpiration rates are the highest
what are hydrophytes
plants such as water lilies, which live in aquatic habitats
what do hydrophytes need adaptations for
- they don’t need adaptations for reducing water loss
- they need adaptations to help them cope with a low oxygen level
