Edexcel IGCSE Biology 复习笔记 2.8.4 Practical: Factors Affecting Transpiration

Edexcel IGCSE Biology 复习笔记 2.8.4 Practical: Factors Affecting Transpiration

Practical: Factors Affecting Transpiration


  • We can investigate the effect of different environmental conditions (such as temperature, humidity, light intensity and wind movement) on the rate of transpiration using a piece of apparatus called a potometer
  • There are 2 types of potometer
    • mass potometer measures a change in mass of a plant as a measure of the amount of water that has evaporated from the leaves and stem
    • bubble potometer measures the uptake of water by a stem as a measure of the amount of water that is being lost by evaporation consequently pulling water up through the stem to replace it






There are 2 different types of potometer that could be used to investigate the effect of environmental conditions on transpiration




Investigating the effect of light intensity on transpiration using a bubble potometer



  • Potometer (bubble or mass potometer)
  • Timer
  • Lamp
  • Ruler
  • Plant




  • Cut a shoot underwater
    • To prevent air entering the xylem and place in tube


  • Set up the apparatus as shown in the diagram and make sure it is airtight, using Vaseline to seal any gaps
  • Dry the leaves of the shoot
    • Wet leaves will affect the results


  • Remove the capillary tube from the beaker of water to allow a single air bubble to form and place the tube back into the water
  • Set up a lamp 10cm from the leaf
  • Allow the plant to adapt to the new environment for 5 minutes
  • Record the starting location of the air bubble
  • Leave for 30 minutes
  • Record the end location of the air bubble
  • Change the light intensity
  • Reset the bubble by opening the tap below the reservoir
  • Repeat the experiment
  • Calculate the rate of transpiration by dividing the distance the bubble travelled by the time period
    • The further the bubble travels in the same time period, the greater the rate of transpiration







Calculating the rate of transpiration using a bubble potometer






Investigating transpiration rates using a potometer




  • Other environmental factors can be investigated in the following ways:
    • Airflow: Set up a fan or hairdryer
    • Humidity: Spray water in a plastic bag and wrap around the plant
    • Temperature: Temperature of room (cold room or warm room)





  • As light intensity increases, the rate of transpiration increases
  • This is shown by the bubble moving a greater distance in the 30 minute time period when the lamp was placed closer to the leaf
  • Transpiration rate increases with light intensity because more stomata tend to be open in bright light in order to maximise photosynthesis
  • The more stomata that are open, the more water can be lost by evaporation and diffusion through the stomatal pores




  • The potometer equipment has a leak
    • Solution: Ensure that all equipment fits together rightly around the rubber bungs and assemble underwater to help produce a good seal


  • The plant cutting has a blockage
    • Solution: Cut the stem underwater and assemble equipment underwater to minimise opportunities for air bubbles to enter the xylem


  • The potometer has shown no change during the experiment
    • Solution: Use the plant cuttings as soon as they have been cut, transpiration rates may slow down when the cuttings are no longer fresh





Applying CORMS to practical work

  • When working with practical investigations, remember to consider your CORMS evaluation




CORMS evaluation




  • In this investigation, there are several different variations of the method depending on which environmental factor you are testing. However, if testing the effect of light intensity, your evaluation should look something like this:
    • Change - We will change the intensity of the light
    • Organisms - The plants used in each repeat should be the same species, size, age, number of leaves
    • Repeat - We will repeat the investigation several times to ensure our results are reliable
    • Measurement 1 - We will measure the distance travelled by the bubble
    • Measurement 2 - ...in 30 minutes (calculate the rate of transpiration)
    • Same - We will control the temperature, wind speed and humidity of the environment



Exam Tip

Remember that calculating the 'rate of transpiration' provides both M1 and M2 in the CORMS evaluation as the rate is calculated based on a distance (M1) and time period (M2)