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Caterpillars Can Detect Predatory Wasps by Static Electricity They Emit, Study Suggests

by News7

Predatory wasps are charged, thus emit electric fields, and that caterpillars respond to such fields with defensive behaviors, according to new research from the University of Bristol.

Sam J. England & Daniel Robert found that some terrestrial animals can detect the electric field emanating from their electrostatically charged predators and use this sense to initiate defensive behaviors. These photographs show four species investigated in the study: (A) the caterpillar of the cinnabar moth (Tyria jacobaeae) assuming a defensive coiling posture; (B) the caterpillar of the scarce vapourer moth (Telochurus recens) assuming a defensive coiling posture; (C) the caterpillar of the European peacock butterfly (Aglais io), midway through a defensive flailing motion; (D) the predatory common wasp (Vespula vulgaris). Image credit: Sam J. England & Daniel Robert, doi: 10.1073/pnas.2322674121.

“We knew that many animals naturally accumulate static electricity on their bodies as they move around their environment, and that static electricity can push and pull on other charged objects,” said University of Bristol researcher Sam England.

“In particular, we knew that the hairs of insects can be moved around by the electric field emitted from statically charged objects, in the same way that a charged-up balloon can move the hair around on your head.”

“This made us wonder, what if a prey animal, like a caterpillar, could detect its predators by feeling the electric field coming off of them?”

“Would the static charge of a predator, like a wasp, push and pull on the sensory hairs of a caterpillar enough to inform the caterpillar of the wasp’s approach?”

Dr. England and his colleague, University of Bristol’s Professor Daniel Robert, measured how much static charge wasps and caterpillars carry by having them pass through a static charge sensor.

The researchers then inputted these charge values into computational models to mathematically predict how strong the electric field would be when a wasp approaches a caterpillar on a plant.

When the caterpillars responded defensively to these conditions, there were able to use a laser to detect tiny vibrations to investigate whether it was the sensory hairs that were detecting the electricity, by measuring how much they move in response to different frequencies of electric field.

The results are concerning because they show that caterpillars are also sensitive to the frequencies of electric field emitted by powerlines and other electronic equipment.

This means that humans may be hindering the ability of animals to detect their predators by filling the environment with electrical ‘noise’.

Dr England continued: “I would say it feels quite urgent now to assess whether we are hampering the ability of caterpillars and other animals to detect their predators by introducing a new type of sensory pollution — electrical noise.”

Almost all animals on land appear to accumulate static charge meaning this static electric sense may be widespread, and the discovery that static electricity plays a role in these ecological interactions stands to open up entirely new dimensions to our understanding of how animals sense each other, and more generally how and why they evolve in certain ways.

“Our study shows that it is possible for terrestrial animals to use static electricity as a predator detection cue,” Dr. England said.

“This is very likely a widespread ability, especially amongst insects and other small animals like spiders and scorpions.”

“This study presents the first example of an animal detecting its predators by sensing the static electricity being emitted by the predator.”

“This unveils a new dimension to predator-prey interactions on land, but also hints at a previously unnoticed way in which we might be negatively impacting wildlife — by introducing sources of electrical sensory pollution.”

The study was published in the Proceedings of the National Academy of Sciences.

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Sam J. England & Daniel Robert. 2024. Prey can detect predators via electroreception in air. PNAS 121 (23): e2322674121; doi: 10.1073/pnas.2322674121

Source : Breaking Science News

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