I am hiring a PhD student to join our group in Lund, Sweden working on an ERC-funded project to untangle color and polarization vision in some amazing crustaceans – minute water fleas and pugnacious mantis shrimp!
Please forward this to promising students. Apply here: lu.varbi.com/en/what:job/...
New paper in Royal Society Interface! With fantastic engineering colleagues, we’re learning more and more about how snapping shrimp are protected from shock waves! royalsocietypublishing.org/rsif/article...
First post! New paper published in JEB! Really fun snapping shrimp work with folks from my lab at TU and Dan Speiser's lab at USC! Always great working with JEB! journals.biologists.com/jeb/article/...
@jexpbiol.bsky.social @utulsa.bsky.social @sc.edu
So proud of the Toebiter team Tanner @tannermierow.bsky.social, Kate @drkatefeller.bsky.social, Jess, and Rick for our paper out in @royalsociety.org Proceedings B. Check out how we learned about the optics and performance of the eyes of amphibious insects: doi.org/10.1098/rspb...
Heard from Tanner Mierow at #SICB2026 about the mutualisms between snapping shrimp and gobies.
Gobies need shrimp to dig holes. Shrimp need gobies to keep a lookout.
But who asks who out here?
Gobies initiate- they’re *desperate* for a shrimp. But once initiated, shrimp maintain the relationship.
Michael Bok
🚨🚨TOE-BITER TIME🚨🚨 Interested in how the eyes of amphibious insects transition from an aquatic to amphibious ecology? Check out my new paper with @drkatefeller.bsky.social and @alexcnkingston.bsky.social! Super psyched to have published on my beloved toe-biters!
doi.org/10.1098/rspb...
Alex Kingston
Alex Kingston
Abstract. The visual systems of amphibious animals must perform in two optically distinct environments: air and water. Little is known about how diffractio
www.sc.edu/uofsc/posts/... check out this cool piece out of our and @alexcnkingston.bsky.social lab!
New paper on seeing in air and water with compound eyes!
The problem: physics
The solution: physics
Elegantly described with the dream team @tannermierow.bsky.social and @alexkingston.bsky.social
royalsocietypublishing.org/rspb/article...
Alex Kingston
Abstract. The visual systems of amphibious animals must perform in two optically distinct environments: air and water. Little is known about how diffractio
Like professional football players, snapping shrimp shield their brains and eyes from concussive forces with protective headgear, according to a new study.
Learn more: https://scim.ag/4quFGG6
tannermierow.bsky.social
Maddy Janakis
Science Magazine
Dr. Kate Feller
Abstract:. Snapping shrimp damp the shock waves they produce and use as weapons with a helmet-like structure termed the orbital hood. Here, we ask how stru
Summary: The helmet-like orbital hoods of snapping shrimp are primarily protective and neither impair spatial vision nor make meaningful contributions to it.
Snapping shrimp can create shockwaves strong enough to stun prey. But how do they survive each other’s blasts? USC biologist Dan Speiser and his team discovered that a special “orbital hood” — a helme...
