Response to Stimuli: Plants (Edexcel IGCSE Biology)

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Lára

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19 September 2024

Response to Stimuli: Plants

Plants need to be able to grow in response to certain stimuli
For example, plants need to be able to grow in response to light, to ensure their leaves can absorb light for photosynthesis
They also need to be able to grow in response to gravity, to ensure that shoots grow upwards and roots grow downwards
The directional growth responses made by plants in response to light and gravity are known as tropisms
If the growth is towards the stimulus, the tropism is positive and if the growth is away from the stimulus, the tropism is negative

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Geotropic & Phototropic Responses of Plants

A response to light is a phototropism and a response to gravity is a geotropism (or gravitropism)
As shoots grow upwards, away from gravity and towards light (so that leaves are able to absorb sunlight), shoots show a positive phototropic response and a negative geotropic response
As roots grow downwards into the soil, away from light and towards gravity (in order to anchor the plant and absorb water and minerals from the soil), roots show a negative phototropic response and a positive geotropic response

Geotropism and phototropism table

Stimulus	Name of response	Definition	Positive response	Negative response
Light	Phototropism	Growth towards or away from the direction of the light source	Growth towards the light source (e.g. by shoots)	Growth away from the light source (e.g. roots)
Gravity	Geotropism	Growth towards or away from the source of gravity	Growth towards the source of gravity (e.g. by roots)	Growth away from the source of gravity (e.g. shoots)

Parsley phototropism

Plant shoots display a positive phototropic response by growing towards a light source

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The Role of Auxin in Phototropism

Plants produce plant growth regulators (similar to hormones in animals) called auxins to coordinate and control directional growth responses such as phototropisms and geotropism
Auxin is mostly made in the tips of growing shoots and then diffuses down to the region where cell division occurs (just below the tip)
- This is an important point - only the region behind the tip of a shoot is able to contribute to growth by cell division and cell elongation
Auxin stimulates the cells in this region to elongate (get larger); the more auxin there is, the faster they will elongate and grow
If light shines all around the tip, auxin is distributed evenly throughout and the cells in the shoot grow at the same rate - this is what normally happens with plants growing outside
When light shines on the shoot predominantly from one side, the auxin produced in the tip concentrates on the shaded side, making the cells on that side elongate and grow faster than the cells on the sunny side
This unequal growth on either side of the shoot causes the shoot to bend and grow in the direction of the light

Phototropism in plants

Positive phototropism in plant shoots is a result of auxin accumulating on the shaded side of a shoot

Examiner Tip

Make sure you are specific with your use of the term 'cell elongation' when answering exam questions on this topic. If you just say that the shoot 'grows towards the light' then that could imply that cell division takes place when it does not. Auxin causes the cells that already exist to get longer, it does not cause the overall number of cells to increase.

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