homehome Home chatchat Notifications


Flying spiders sense the weather and use nanoscale fibers to ride the wind

Spiders ride the wind!

Mihai Andrei
June 14, 2018 @ 9:10 pm

share Share

The technique, called ballooning, allows spiders to travel on the wind for hundreds of kilometers.

The crab spider spins out tens of fine silk fibers for its aerial dispersal. A triangular sheet of fibers is observed at the moment of the takeoff. Image credits: Moonsung Cho, Technical University of Berlin.

Most animals walk, swim or fly if they want to get somewhere. But if you’re a tiny landlocked spider and want to get far away, it can be quite problematic. Instead, many spiders have developed a new technique: they hitch a ride using the wind. Many spiders engage in ballooning to disperse from their birth site, to search for food or mates, or simply to colonize other areas. Although this behavior has previously been studied on several occasions, it’s the first time researchers have actually measured how spiders use fibers to balloon.

[panel style=”panel-default” title=”Spider balloons” footer=””]Through a process called ballooning, spiders (and other small invertebrates) move through the air by releasing one or more gossamer threads to catch the wind, causing them to become airborne. The spider climbs to a high point and takes a stance with its abdomen to the sky, releasing fine silk threads from its spinneret until it becomes aloft.

It’s a very effective technique for traveling great distances, but the spiders are ultimately at the mercy of the winds. Ballooning is very dangerous, and many spiders don’t survive the adventure — yet many species still practice it, and some even partake in mass spider ballooning.[[/panel]

Using a combination of field observations and wind tunnel experiments, researchers found that large crab spiders (Xysticus species), which measure about 5 mm long and weigh up to 25 milligrams, can sense the weather patterns and adjust accordingly. The spiders actively evaluated wind conditions by raising one or both of their front legs and then orienting themselves in the direction of the wind.

Spiderlings ballooning in the Santa Cruz Mountains of the San Francisco Peninsula. Image credits: Little Grove Farms.

When winds are below 3 m/sec (7 mph) and have relatively light updrafts, the spiders spun out multiple ballooning silks averaging 3 meters long. They would hitch a ride and ultimately release themselves from a separate silk line anchored to a blade of grass. A single spider can release up to 60 nanofibers, most of them as thin as 200 nanometers.

It’s impressive that the spiders first evaluate the weather, and only then launch themselves.

“The pre-flight behaviors we observed suggest that crab spiders are evaluating meteorological conditions before their takeoff,” Cho said. “Ballooning is likely not just a random launch into the wind, but one that occurs when conditions most favor a productive journey.”

Journal Reference: Citation: Cho M, Neubauer P, Fahrenson C, Rechenberg I (2018) An observational study of ballooning in large spiders: Nanoscale multifibers enable large spiders’ soaring flight. PLoS Biol 16(6): e2004405. https://doi.org/10.1371/journal.pbio.2004405

share Share

This 5,500-year-old Kish tablet is the oldest written document

Beer, goats, and grains: here's what the oldest document reveals.

A Huge, Lazy Black Hole Is Redefining the Early Universe

Astronomers using the James Webb Space Telescope have discovered a massive, dormant black hole from just 800 million years after the Big Bang.

Did Columbus Bring Syphilis to Europe? Ancient DNA Suggests So

A new study pinpoints the origin of the STD to South America.

The Magnetic North Pole Has Shifted Again. Here’s Why It Matters

The magnetic North pole is now closer to Siberia than it is to Canada, and scientists aren't sure why.

For better or worse, machine learning is shaping biology research

Machine learning tools can increase the pace of biology research and open the door to new research questions, but the benefits don’t come without risks.

This Babylonian Student's 4,000-Year-Old Math Blunder Is Still Relatable Today

More than memorializing a math mistake, stone tablets show just how advanced the Babylonians were in their time.

Sixty Years Ago, We Nearly Wiped Out Bed Bugs. Then, They Started Changing

Driven to the brink of extinction, bed bugs adapted—and now pesticides are almost useless against them.

LG’s $60,000 Transparent TV Is So Luxe It’s Practically Invisible

This TV screen vanishes at the push of a button.

Couple Finds Giant Teeth in Backyard Belonging to 13,000-year-old Mastodon

A New York couple stumble upon an ancient mastodon fossil beneath their lawn.

Worms and Dogs Thrive in Chernobyl’s Radioactive Zone — and Scientists are Intrigued

In the Chernobyl Exclusion Zone, worms show no genetic damage despite living in highly radioactive soil, and free-ranging dogs persist despite contamination.