Stay up to date with notifications from The Independent

Notifications can be managed in browser preferences.

Swarming insects can ‘produce as much electricity as thunderstorm clouds’

‘Exciting new area of empirical research’ reveals atmospheric electric charge helps bees find food and lifts spiders into the air to migrate long distances

Harry Cockburn
Environment Correspondent
Monday 24 October 2022 16:39 BST
Comments
Bees have a closer relationship with electricity than previously recognised
Bees have a closer relationship with electricity than previously recognised (Ellard Hunting)

Your support helps us to tell the story

From reproductive rights to climate change to Big Tech, The Independent is on the ground when the story is developing. Whether it's investigating the financials of Elon Musk's pro-Trump PAC or producing our latest documentary, 'The A Word', which shines a light on the American women fighting for reproductive rights, we know how important it is to parse out the facts from the messaging.

At such a critical moment in US history, we need reporters on the ground. Your donation allows us to keep sending journalists to speak to both sides of the story.

The Independent is trusted by Americans across the entire political spectrum. And unlike many other quality news outlets, we choose not to lock Americans out of our reporting and analysis with paywalls. We believe quality journalism should be available to everyone, paid for by those who can afford it.

Your support makes all the difference.

Swarming insects could produce as much atmospheric electric charge as a thunderstorm cloud, possibly influencing weather events and demonstrating a little-recognised link between organisms and electricity, breakthrough new research has found.

A research team at the University of Bristol said the insects can use their ability to interact with static electric fields to their advantage, helping species such as bees find food and allowing spiders to migrate considerable distances.

The research team measured the electrical fields near swarming honeybees and discovered that the swarms change the atmospheric electricity by 100 to 1,000 volts per metre, increasing the electric field force normally experienced at ground level, a similar change in atmospheric electric charge to that of a thunderstorm cloud.

“We always looked at how physics influenced biology, but at some point, we realised that biology might also be influencing physics,” said first author Dr Ellard Hunting, a biologist at the University of Bristol.

“We’re interested in how different organisms use the static electric fields that are virtually everywhere in the environment.”

He told The Independent that the static electric field “changes for a while if a bee has visited a flower.

“The next visiting bee could [detect] this and associate it with flowers that have little or no nectar present, and assist in their decision-making.”

Elsewhere, spiders’ silk threads contain a particular charge which can respond to the static electric fields and enable spiders to lift themselves into the sky, thereby migrating long distances.

The team then built a model which works out the changes to static electric fields for different insect species.

“How insect swarms influence atmospheric electricity depends on their density and size,” said co-author Liam O’Reilly, a biologist at the University of Bristol.

“We also calculated the influence of locusts on atmospheric electricity, as locusts swarm on biblical scales, sizing 460 square miles with 80 million locusts in less than a square mile.

“Their influence is likely much greater than honeybees,” he said.

Asked whether insects could feasibly impact the weather through the way they interact with electric fields, Dr Hunting said: “A weather radar is influenced by insects, charged or not. How it influences weather, we don’t really know.

“It really depends on which weather phenomena. For instance, insects will probably not influence major weather events like thunderstorms, but they could well be influencing local ion and aerosol dynamics, or perhaps influence clouds in otherwise clean areas.

“But it might be a butterfly effect, we don’t know, and that makes exploring the role of insects in the great atmospheric system worth investigating.”

A key element of the research was how the research team navigated a phenomenon crossing the divide between two branches of science – physics and biology.

“Interdisciplinarity is valuable here,” said co-author Giles Harrison, an atmospheric physicist from the University of Reading.

“Electric charge can seem like it lives solely in physics, but it is important to know how aware the whole natural world is of electricity in the atmosphere.”

Dr Hunting added: “We only recently discovered that biology and static electric fields are intimately linked and that there are many unsuspected links that can exist over different spatial scales, ranging from microbes in the soil and plant-pollinator interactions to insect swarms and the global electric circuit.

“This makes it an exciting new area of empirical research. The true implications of this remain speculative, and whether these dynamics induced by insects affect weather is worth investigating.”

The research is published in the journal iScience.

Join our commenting forum

Join thought-provoking conversations, follow other Independent readers and see their replies

Comments

Thank you for registering

Please refresh the page or navigate to another page on the site to be automatically logged inPlease refresh your browser to be logged in