Most people don't give a second thought when tucking into a plate of salad.
But
perhaps we should be a bit more considerate when chomping on lettuce,
as scientists have found that plants actually respond defensively to the
sounds of themselves being eaten.
The researchers at the University of Missouri (MU) found that plants can identify sounds nearby, such as the sound of eating, and then react to the threats in their environment.
Researchers at the University of Missouri have
determined that plants respond to the sounds that caterpillars make when
eating and that the plants then respond with more defenses. Here a
cabbage butterfly caterpillar feeds on an Arabidopsis plant with a piece
of reflective tape helping to record vibrations
'Previous
research has investigated how plants respond to acoustic energy,
including music,' said Heidi Appel, senior research scientist in the
Division of Plant Sciences in the College of Agriculture, Food and
Natural Resources and the Bond Life Sciences Center at MU.
PLANTS CAN 'TALK' TOO...
Researchers in Bonn, Germany, found plants give off a gas when under 'attack'.
Super-sensitive microphones picked up a 'bubbling' sound from a healthy plant.
But this rose to a piercing screech when it was under threat.
Even a tiny insect bite could have an effect.
'The more a plant is subjected to stress, the louder the signal,' said Dr Frank Kühnemann.
Plants do not actually scream in pain. But different sounds are heard when the gas they emit, ethylene, is bombarded with lasers.
The research could help to work out which pieces of fruit and vegetables are likely to stay fresh longer, as a cucumber which is starting to go off produces a squealing sound.
It could then be separated from the fresher ones.
Super-sensitive microphones picked up a 'bubbling' sound from a healthy plant.
But this rose to a piercing screech when it was under threat.
Even a tiny insect bite could have an effect.
'The more a plant is subjected to stress, the louder the signal,' said Dr Frank Kühnemann.
Plants do not actually scream in pain. But different sounds are heard when the gas they emit, ethylene, is bombarded with lasers.
The research could help to work out which pieces of fruit and vegetables are likely to stay fresh longer, as a cucumber which is starting to go off produces a squealing sound.
It could then be separated from the fresher ones.
'However, our work is the first example of how plants respond to an ecologically relevant vibration.
'We
found that "feeding vibrations" signal changes in the plant cells'
metabolism, creating more defensive chemicals that can repel attacks
from caterpillars.'
Appel collaborated with Rex Cocroft, professor in the Division of Biological Sciences at MU.
In the study, caterpillars were placed on Arabidopsis, a small flowering plant related to cabbage and mustard.
Using
a laser and a tiny piece of reflective material on the leaf of the
plant, Cocroft was able to measure the movement of the leaf in response
to the chewing caterpillar.
Cocroft
and Appel then played back recordings of caterpillar feeding vibrations
to one set of plants, but played back only silence to the other set of
plants.
When
caterpillars later fed on both sets of plants, the researchers found
that the plants previously exposed to feeding vibrations produced more
mustard oils, a chemical that is unappealing to many caterpillars.
'What
is remarkable is that the plants exposed to different vibrations,
including those made by a gentle wind or different insect sounds that
share some acoustic features with caterpillar feeding vibrations did not
increase their chemical defenses,' Cocroft said.
'This
indicates that the plants are able to distinguish feeding vibrations
from other common sources of environmental vibration.'
Heidi Appel (left) and Rex Cocroft (right) from
the University of Missouri led the research. In the study, caterpillars
were placed on a plant and, using a laser and a tiny piece of reflective
material on the leaf of the plant, the team measured the movement of
the leaf in response to the chewing caterpillar
Appel
and Cocroft say future research will focus on how vibrations are sensed
by the plants, what features of the complex vibrational signal are
important, and how the mechanical vibrations interact with other forms
of plant information to generate protective responses to pests.
'Plants
have many ways to detect insect attack, but feeding vibrations are
likely the fastest way for distant parts of the plant to perceive the
attack and begin to increase their defenses,' Cocroft said.
'Caterpillars
react to this chemical defense by crawling away, so using vibrations to
enhance plant defenses could be useful to agriculture,' Appel said.
'This
research also opens the window of plant behavior a little wider,
showing that plants have many of the same responses to outside
influences that animals do, even though the responses look different.'
The
study, 'Plants respond to leaf vibrations caused by insect herbivore
chewing,' was funded in part by the National Science Foundation and was
published in Oecologia.
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