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American Focus > Blog > Tech and Science > How Velvet Worm Slime Hardens in Seconds to Trap Prey
Tech and Science

How Velvet Worm Slime Hardens in Seconds to Trap Prey

Last updated: June 6, 2025 4:50 am
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How Velvet Worm Slime Hardens in Seconds to Trap Prey
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Velvet Worm Slime: A Potential Solution for Recyclable Bioplastics

The velvet worm, a fascinating and unique creature, has long been known for its extraordinary slime. This goo, with its sticky and adhesive properties, has caught the attention of scientists for over a century. Recent research suggests that this slime could hold the key to developing a new generation of recyclable bioplastics.

In the dark, damp leaf litter of tropical and temperate forests worldwide, velvet worms can be found hunting for their prey. These squishy predators, resembling elongated caterpillars, rely on their sense of touch rather than sight to locate their next meal. When they come across a potential victim, such as a cricket or woodlouse, they use nozzles on their faces to eject jets of sticky slime at high speed.

The transformation of the watery liquid into jelly-like ropes midair ensnares the unsuspecting prey, immobilizing it on the ground. As the struggling creature triggers the formation of fibrous threads, the slime quickly hardens into a glass-like solid. This rapid phase shift is what makes velvet worm slime so intriguing to scientists.

Researchers, led by biochemist Matthew Harrington from McGill University, have made significant progress in understanding the properties of velvet worm slime. By studying the proteins present in the slime, they have discovered that it has the potential to inspire the development of recyclable bioplastics. By soaking the hardened fibers in water, they were able to revert them to a liquid state, and with some manipulation, form strong fibers akin to nylon.

The challenge lies in isolating and understanding the proteins responsible for these unique properties. The sensitivity of the slime to touch makes traditional laboratory techniques difficult to use. To overcome this obstacle, the researchers sequenced the RNA of proteins from velvet worms collected in various locations and utilized artificial intelligence to predict protein shapes. The resulting horseshoe-shaped protein, rich in the amino acid leucine, showed promise in its ability to bind strongly but reversibly to other proteins.

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Although this discovery is a significant advancement in materials science, there is still much to learn about velvet worm slime. Researchers like Yendry Corrales Ureña from Costa Rica’s National Laboratory of Nanotechnology emphasize that these proteins are just one piece of the puzzle. The slime’s toughness and elasticity remain key aspects that require further investigation.

Julian Monge Najera, an ecologist from the University of Costa Rica, highlights the ancient origins of velvet worms and their remarkable chemical adaptations. With a fossil record dating back over 300 million years, velvet worms have remained largely unchanged, showcasing the longevity of their unique traits.

As scientists continue to unravel the mysteries of velvet worm slime, the potential for harnessing its properties for sustainable materials is promising. While milking velvet worms for slime may not be a practical solution, the hope is to replicate their chemical innovations in developing environmentally friendly alternatives to traditional plastics. The research conducted by Harrington and his team is a testament to the endless possibilities that nature’s creations hold for a greener future.

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