Have you ever walked face first into a spiderweb? If you have, you know how sticky they can be. That stickiness is useful for one of the main functions of the web, catching prey. But how do spiderwebs get so sticky?
It turns out there are a few ways spiders can make their webs so hard to escape. Some spiders produce a sticky, glue-like substance from one of the glands in their stomach to help them catch whatever insect might be passing by. Others rely on woolly silk that works like a bur: The thin strands snag an insect's legs or hair, trapping it in the process.
Spiders that make sticky silk include orb weavers, which are the arachnids we are most familiar with because of their intricate webs. Have you ever read "Charlotte’s Web?" Charlotte is a barn spider, which is a type of orb weaver. All told, there are about 4,000 known species of orb weavers in the world.
So how do spiders avoid getting stuck in their own sticky silk? Do they have a superpower that makes them immune to the stickiness of the substance? Scientists are still studying how they avoid becoming stuck on their own silk, but it seems as though their solution is pretty basic. They simply don't walk on the sticky silk and move about on the nonsticky threads instead.
Words to know
Immune: Protected or exempt from.
Intricate: Very complicated or detailed.
Secrete: To produce and discharge a substance.
Traction: The grip of something on another object.
Orb weavers use both sticky and non-sticky silk in their webs. If you think of a spiderweb as the wheel of a bike, the "spokes" of the web are not sticky. The strands that circle around the spokes are made from sticky silk. Insects — and other unfortunate creatures, humans included — get stuck in the sticky silk, but as spiders make their way around their web, they use the strands that aren’t sticky.
Spiders can also rely on a third claw on their web-spinning feet that can help them gain traction as they move along their silk. At one time it was thought they secreted oil that helped them avoid getting trapped by their silk, but that's never been proven.
Spider silk is the subject of much study in the scientific community for many reasons. For starters, it's strong — stronger than steel by some measures. Being able to produce it by genetic engineering or by farming it could have useful applications for humans, such as for making skin grafts or making body armor stronger.
Scientists are also interested in how the silk transforms from a water soluble liquid while it's in the spiders' silk-making organs into a non-water soluble thread once it is spun. Exposure to air seems like an obvious cause for the transformation, but scientists now believe it is actually the result of how the spiders pull the silk, which causes the molecules in it to become rearranged as a solid.
While spiderwebs are the most well-known use of silk by spiders, they aren't all that common in the spider universe. Most spiders don't make webs, although all spiders do make silk. Instead of webs, some spiders spin their silk into nests and cocoons, and some wrap their prey in silk. They can also use silk for transportation, using the strong strands as anchor lines and drop lines. Some spiders even eat their silk, which helps them make more.
All spiders are capable of making multiple different kinds of silk, as many as seven different types used for different purposes. Most spiders can make four or five different types of silk.
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