When you’re about to have a nice meal, nothing worse than a noisy neighbor. Even if the meal is made up before it liquefies the inside of the prey.
New research shows that some spiders living in cities somehow weave soundproofing designs into the web structure to manage unnecessary noise.
“The University of Nebraska Lincoln” has announced that Irene Hebetz, author of the paper led by University of Nebraska-Lincoln biologist and university postdoctoral researcher Brandi Pessman.
Funnel web spiders are becoming more common in North America. These quarter-sized spiders, with their legs stretched, attach nets to everything, whether they are rocks, grass or human objects. They weave a kind of funnel into a web that usually hides from predators. Their silk is not sticky, so they rely on speed and ambush. After detecting prey into their nets, they burst and attacked, injected the victim with venom, then liquefying the inside for easy digestion.
Spiders don’t have human ears, so they don’t necessarily listen to things in the traditional way. However, sound produces vibrations that travel through the ground into the net through the chains of silk.
“They really rely on those exact vibrations to determine where their prey is, what their prey is, and whether they’re going to attack,” Dr. Pessman said.
“The sense of vibration tends to be forgotten in nature,” added Beth Mortimer, a biologist who studied noise pollution and was not involved in the study at Oxford University. This species builds both urban and rural nets at home. And Dr. Pessman began to wonder whether noise pollution might plague spiders enough to change their web weaving strategies.
in study Presented in the Journal Current Biology last week, Dr. Pessman and Dr. Hebets rounded up Arachnid City Slickers and Country Bumbkins and took them to the lab. They placed each spider in a container with the speakers on the bottom and played loud or quiet white noise for four days.
The researchers then analyzed the webs constructed by each spider by transmitting measured vibrations at different points.
Dr. Hebbets and Dr. Pessmann could not find any major differences in the way urban spiders and farm spiders communicate vibrations when they play quiet noises.
When they played loud noises on urban spiders, they discovered that their web was less sensitive and less vibrations to the funnel. “Their web was inherently quiet,” Dr. Pessman said. Researchers didn’t know how the web differed structurally, but Dr. Pessman said it was clear that “it reduces the constant noise approaching where they sit.”
Conversely, when the country’s spiders heard a loud noise, they created a more sensitive web. Researchers speculated that they were not used to such rackets and were desperately trying to feel the incoming prey. It’s like turning up a TV as the lawnmower passes by the window.
Meanwhile, city spiders essentially filled the wall because everything was boring. This is an adaptation that puts you at a disadvantage to hear your prey and potential companions, using vibrations to communicate availability. But it may help animals save their energy and not respond to all the city sounds they detect.
“If you have masking noise, that means you’re less likely to detect small items coming into your web,” said Dr. Mortimer, who said the study “doesn’t really well.”
The study highlights the refinement of spiders, Hebbets said, because despite the problems with big cities, he came up with solutions to find food and companions.
“Animal sensory systems can certainly adapt to changes in environmental conditions over time, but this takes time,” Dr. Hebbets said. “However, behavioral changes can be immediate.”
Source: www.nytimes.com