I came here hoping to read more about this worm and its slime guns but no one did much yet so i had to look it up and now I’ve become the commenter i hoped to find? I hope the mildly interested people following after me find this cool:
The slime is incredible stuff. It leaves the worm’s nozzles as twin streams of sticky liquid. But once it touches the target, it hardens almost immediately into a stiff, hard gel that is neither sticky nor soluble in water. It’s an incredible transformation and for the prey, it’s a fatal one. By ‘milking’ an Australian velvet worm called Euperipatoides rowelli and studying its slime, Haritos has discovered that its properties come from a special type of chaotic protein.
Its been a bit since i read it now but i think hitting the air makes it dry very quickly (something having to do with the chaotic shape of the proteins in the “beam”). Its a quick read if you want to check my memory
I came here hoping to read more about this worm and its slime guns but no one did much yet so i had to look it up and now I’ve become the commenter i hoped to find? I hope the mildly interested people following after me find this cool:
Chaos Bolt! Man this worm is cool.
National geographic (2 minute read)
Thank you for being the commenter you hoped to find but couldn’t and are instead the commenter i hoped to find and did.
Exactly, thanks, dude.
We need more people like you. Thx g, appreciate the link as well 🙌
What makes it harden? Is it nonnewtonian? Does it impale its prey?
Its been a bit since i read it now but i think hitting the air makes it dry very quickly (something having to do with the chaotic shape of the proteins in the “beam”). Its a quick read if you want to check my memory