Jumping Spider Mimic Planthoppers In The Genus Rhotana

these are the miserable remains of a chestnut weevil (Curculio elephas) who will never again feel the joy of a freshly drilled acorn after unspeakable atrocities were perpetrated upon her by me

this is her thirty seconds later. the atrocities that she miraculously recovered from included "being gently scooped up from a branch"

(September 1st, 2024)

Garden snails (Cornu aspersum) with scalariform shells, a rare genetic mutation.

Typical shell formation:

Photo 1 via The Malacological Society of London, 2-4 by saber_animal, 5 by joknight_nz, and 6 (typical shell) by benanna

important anomalocaris dorsal carapace representation... the anomalocarapace...

sick and tired of inaccurate anomalocaris paleoart ,, decided to take matters into my own hands

Conch snails actually do have some of their own tricks up their shells— their foot bears a sharpened operculum that they use to push themselves around much faster than a lot of slow predators (including cone snails) can move, or even to fight back. It's believed that their high-resolution vision, which is some of the best among all known gastropods, allows them to detect and react to predators in advance (source 1, 2)

Here's a video of a conch snail in action:

How are conchs even real

Penis worms is serious business! been no-joke half-considering making an account to make a PSA about it (and other invertebrate stuff) for a while ^^; I like priapulids a lot, they’re a really underrated (and understudied) phylum

Hi, created an account just to let you know the photo you posted earlier is not a priapulid but a spawning sea cucumber, likely genus Paracaudina. It was misidentified on iNaturalist and went viral before it got corrected, and now it comes up on the search results along with a bunch of other worms like spoon and peanut worms that people misidentify as priapulids. The only priapulid that there’s good photos of is P. caudatus which is very distinctive if you know what it looks like. Love the blog!

Ah!!! Thank you very much for letting me know friend (even going as far as to make an account about it), sucks that these incorrect images have spread so far x(

this isn't related to cephalopods at all, but re: bilateral symmetry, there's actually some fairly recent (like, last 15 years) evidence that cnidarians actually evolved from bilaterally symmetric ancestors! Contrary to popular belief, a lot of sea anemones and coral polyps, though externally radial, actually have a bilateral digestive system. This could be a case of convergent evolution, but what's really remarkable is that embryonically, cnidarians develop this bilateral symmetry the same way as bilaterians, *using the same regulatory genetic pathways*! The polyp body plan is considered to be the ancestral state for cnidarians, while the "simplified" swimming jellyfish body plan probably is a secondary development, as suggested by the cnidarian fossil record and evidence of loss of body patterning genes in jellyfish. Together, this suggests the really exciting hypothesis that bilateral symmetry is actually the original ancestral state for the common ancestor of cnidarians and bilaterians, and rather than bilaterians being the ones who made the innovation of bilateral symmetry from radial, cnidarians would be the group that altered their symmetry instead! Sources: 1, 2, 3

(Echinoderms like starfish also are secondarily radial; they have bilateral larvae who undergo a very weird metamorphosis into their pentaradial adult form. Search "brachiolaria", "pluteus larva", or "auricularia larva" for pics!)

It's also a common misconception that cnidarians don't have central nervous systems. They're often said to have merely diffuse "nerve nets," and they do, but they also have a condensed ring-shaped nerve that integrates signals from across the body, basically constituting a central nervous system in all respects besides not actually having a singular "brain". In particular, there's been a lot of research into the nervous systems of box jellyfish, which are probably the most specialized among cnidarians due to their unique possession of true image-forming eyes, which they use for navigating both long and short distances as well detecting prey. One study from just last year even found evidence that box jellies display associative learning! Sources: 1, 2, 3, 4

(I believe there's also been research into the learning capabilities of echinoderms but I'm not as familiar with the literature. I know starfish do actually have image-forming eyes on their arms, which at least one species uses to navigate, though they also definitely do a lot of smelling and stuff as well. Source: 1)

Imagine yourself submerged in the prehistoric ocean. There are no fish, instead the only life forms consist of feather-like sessile organisms that sit on the seabed, filtering the current. The early organisms that evolved out of this, such as Jellyfish and Starfish, had radial anatomy. Their body structure entails a central axis from which you can split everything else. These bodies are simple, not designed for active mobility, lacking a ‘forwards’ or ‘backwards’. They didn’t even have eyes, instead interacting with and responding to the world via photoreceptive cells. What emerged from this were two developments: the evolution of complex eyes and the emergence of bilateral anatomy in early vertebrates and arthropods. In contrast to radial anatomy, bilateral anatomy entails an organism that can be split down the middle with rough symmetry. This is to say that they are built for direction. A body that is built for mobility entails significantly more complex behaviour behind its operation. Behaviour, in this sense, also becomes significantly more directed. These creatures now living in the ocean or on the sea-floor now begin to directly interact with one another. The mechanisms facilitating this interaction become pretty apparent in the fossil record; eyes, claws and antennae. The evolutionary consequences of this are the emergence of a complex nervous system alongside the presence of predation and, as Godfrey-Smith puts it “[From this point on] The mind evolved in response to other minds”. 

we all know people who go out of their way to be rude on bug appreciation posts are annoying as heck but sometimes they manage to read the room so absurdly poorly that it's just funny. You'll see a photo with 200 notes by someone called "flylover4ever" with the caption "look at this beautiful blowfly I found on my morning bug hunt 😊" and every comment note and tag is something like "look at that coloring!" "what beautiful eyes you have 😍" "KISSING HER ON THE TERGAL PLATE" and then there's just one rando person being like "EWWW kill it with fire 🤮". And it's like how did you even get here. are you lost, where did you even come from

been getting really into rockhounding lately and the subreddits are great

This was from a 2015 study by Fossette et al. which observed wild Rhizostoma octopus jellyfish, aka barrel or dustbin lid jellfish, and found that they actively orient themselves and swim against the current, contrary to the popular image of scyphozoan jellies as passive directionless drifters! Based on these observations, they (the scientists) ran computer simulations of virtual jellyfish moving through ocean currents demonstrating that this active swimming is probably really really important for allowing them (the jellyfish) to form and maintain large blooms while avoiding getting stranded alone or ashore

thinking about that time scientists put tracking collars on jellyfish

Met this cool guy outside and then he broke into my house later that night

This is a robber fly known as a hanging thief so you know what he was doing in your home!! (Thieving)