Go Web, Go! Spiders May Use Silk to Sail On Electric Fields

By Erika K. Carlson | July 5, 2018 10:01 am
A ballooning spider

Spiders “tiptoe” to release silk into the air before ballooning away. (Credit: Michael Hutchinson/naturepl.com)

Spidey-senses tingling? It’s time to fly.

Though those of us without arachnid superpowers might not notice, we are constantly surrounded by electric fields. The ground carries a slight negative charge and the atmosphere is slightly positive, and, as a consequence, negatively charged particles can be borne up into the air. Some kinds of spiders may be taking advantage of the effect to hitch rides on the fields using negatively charged spider silk as an electric buoy to get as high as two and a half miles in the air.

Sensory biologist Erica Morley found that Erigone spiders can sense the electric fields that naturally occur in Earth’s atmosphere. They use the information to guide airborne voyages that can go for hundreds of miles, suspended from wisps of silk that act as sails, in a process scientists have playfully dubbed “ballooning.” These spiders join bees as the only arthropods we know of that can detect electric fields in the air. The results are described today in the journal Current Biology.

Up, Up, and Away, Web!

Scientists have puzzled over ballooning spiders since at least the early 1800s, when they proposed two possible explanations for how the arthropods might get airborne. One sensible possibility was that drag forces from wind blowing on the silks could lift the spiders into the air. The other, wackier idea was that the silks were electrically charged and could carry the spiders through the natural electric fields in Earth’s atmosphere.

“This is the heyday of electricity in the early 1800s and it was at the forefront of a lot of people’s minds,” says Morley, a sensory biophysics researcher at the University of Bristol.

However, it looks like electric spider flight fell to the back of scientists’ minds for a long while. Several studies in the past few decades found that wind could lift spiders, while the electric field hypothesis went untested. But the wind explanation still left some questions unanswered, and in 2013, physicist Peter Gorham published calculations that showed ballooning on atmospheric electric fields was theoretically possible and might complete the picture.

This was Morley’s cue. She had been studying electric field detection in bees and vibrational communication in spiders when she saw Gorham’s paper and realized she could actually do the experiments to test whether spiders would respond to electric fields.

She placed spiders in boxes that minimized air movement and shielded them from natural electric fields so she could control the electric fields they were exposed to. When she generated electric fields similar to the natural ones spiders would encounter in the wild, the spiders raised their rears to spin silk into the air. The behavior is called tiptoeing, and the spiders only do it when they are about to balloon, a strong suggestion that the spiders use electric fields as a cue to take flight.

Sensory hairs on spider with scanning electron microscope

A scanning electron microscope image pointing out an Erigone spider’s sensory hairs (white arrows). (Credit: Erica Morley)

Spider Senses

Morley was also curious about how the spiders detected electric fields. She knew that bumblebees have hairs that let them sense electric fields and that spiders hairs’ sense air motion and sound — so sensory hairs seemed like a good bet. Sure enough, she found that sensory hairs on the spiders moved in response to changing magnetic fields.

Interestingly, the way the sensory hairs respond to electric fields is different from how they respond to air motion. A breeze will provide a constant push, but electric fields only move the hairs when they are first encountered — the hairs gradually go back to their original positions even when the field is still present. This means that the spiders might be able to differentiate between wind and electric fields.

Now that we know spiders and bees can sense the Earth’s atmospheric electric fields, it’s natural to wonder what other creatures might be able to do the same. “If these are both capable of detecting electric fields in nature, perhaps more invertebrates are capable of this as well,” Morley says. Of course, we’ll have to wait for more discoveries to find out.

“It’s a very new discovery — that invertebrates are able to detect electric fields.”

CATEGORIZED UNDER: Living World
MORE ABOUT: animals, spiders
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  • Arttai

    Does anyone seeing the potential here for reaching space with 0 fuel? This is a missing link, the only non air depended mode of levitating available to us, so you can get with it to space, and with the same mode, deep space.

  • John Thompson

    The spiders using the electric fields to help them stay in the air are tiny/baby spiders.
    Adult spiders are not able to use it.
    It’s about like how you can rub to balloons together and they stick due to static electricity – but the entirety of the force is just barely enough to hold up a the weight of a single balloon.
    Mostly the wind is the biggest factor in spider flight. I am not aware of any that just use the electrical filed to rise straight up off the ground.
    The electrical filed can help them stay aloft. It’s a very weak force so you can’t expect much more.

  • jonathanpulliam

    There are a lot more spiders proximate to you, at any given time, than most folks would be keen to know.

    Better to not think about it.

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