Wednesday, 25 May 2016

The simple act of water droplets landing on a leaf causes an elaborate response inside of plants, scientists at The University of Western Australia have found.

A similar reaction is seen when plants are patted or touched, suggesting that they are highly aware of what is happening to them. The study, published in the journal Plant Physiology, suggests that this touch response may prepare a plant to defend itself from danger or take advantage of changes in the weather.

Lead researcher Dr Olivier Van Aken from the ARC Centre of Excellence in Plant Energy Biology at UWA said while nothing visibly happened to plants when they were touched, their ‘touch response’ launched a cascade of signals inside leaves that prepared them for the future.

A change in the expression of thousands of plant genes was initially observed by researchers when plants were sprayed with water. The dramatic response occurred within minutes of spraying and stopped in half an hour.

“We were able to show that this response was not caused by any active compounds in the spray but rather by the physical contact caused by water drops landing on the leaf surface,” Dr Van Aken said.

Curious, the researchers examined what else could trigger such a response in plants. They found the results could also be produced by gently patting the plants or touching them with tweezers. A similar response was also triggered by a sudden shadow falling over the plant, limiting their supply of light.

“Unlike animals, plants are unable to run away from harmful conditions. Instead, plants appear to have developed intricate stress defence systems to sense their environment and help them detect danger and respond appropriately,” Dr Van Aken said.

“Similar reactions can be triggered by rain drops falling, the wind blowing, an insect moving across a leaf or even by clouds casting a shadow over a plant.

“Although people generally assume plants don’t feel when they are being touched, this shows that they are actually very sensitive to it and can redirect gene expression, defence and potentially their metabolism because of it.”

The study also identified two proteins, AtWRKY15 and AtWRKY40, which help switch off the plant’s touch response.

“Switching off the response signal is very important. It allows plants to get on with life as normal, forgetting about the signal and treating it as a false alarm,” Dr Van Aken said.

“The findings may cause us to think differently about our interactions with the plants around us. While plants don’t appear to complain when we pinch a flower, step on them or just brush by them while going for a walk, they are fully aware of this contact and are rapidly responding to our treatment of them.”

Media references

Olivier Van Aken (+61 8) 6488 2112 / (+61 4) 34 942 389 (ARC Centre of Excellence in Plant Energy Biology at UWA)
David Stacey (UWA Media and Public Relations Manager) (+61 8) 6488 3229 / (+61 4) 32 637 716


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