arthropods
Submitted 6 months ago by fossilesque@mander.xyz to science_memes@mander.xyz
https://mander.xyz/pictrs/image/ad75aca4-6357-45e7-aa7e-eed90bf29e8f.jpeg
Comments
naevaTheRat@lemmy.dbzer0.com 6 months ago
outer_spec@lemmy.blahaj.zone 6 months ago
this is the bug equivalent of those memes about wolves becoming pugs
naevaTheRat@lemmy.dbzer0.com 6 months ago
I don’t follow sorry. Could you explain?
I was just making a silly joke and also trying to point out that genetic memory red in tooth and claw stuff is fucking weird.
PrinceWith999Enemies@lemmy.world 6 months ago
I think that peacock spiders and related species can help people get past arachnophobia. They’re cute, they’re intelligent, and they have entertaining behaviors. The fact that they have the two large forward facing eyes makes them look less alien.
If you want to try exposure therapy for arachnophobia, they’re a great starting point imo.
Underwaterbob@lemm.ee 6 months ago
We’ve got some pretty big centipedes around here, and they’re one of very few animals I slaughter ruthlessly without remorse. I have a hammer for the express purpose of braining them. Fuckers don’t need an excuse to bite you, they just do. And, they love bedsheets, clothes, etc. Ironically, we also have house centipedes, and they get a pass. They’re hideous, sure, but anything that eats cockroach eggs (another one I kill without remorse) is A-OK in my book.
Riccosuave@lemmy.world 6 months ago
Where do you live? I’d like to know so I can put that on my list of places to not go.
Underwaterbob@lemm.ee 6 months ago
Sorry to tell you that my particular location is pretty much irrelevant. Centipedes and roaches are just about everywhere. The further north you go, the safer you are.
ArcticAmphibian@lemmus.org 6 months ago
Don’t move to the American Southeast. Look up palmetto bugs.
Neato@ttrpg.network 6 months ago
The are more kinds of beetles in the world than any other animal.
Isoprenoid@programming.dev 6 months ago
I needed a clarification, Wikipedia had your back.
The Coleoptera, with about 400,000 described species, is the largest of all orders, constituting almost 40% of described insects and 25% of all known animal species;[2] new species are discovered frequently, with estimates suggesting that there are between 0.9 and 2.1 million total species.
Source: en.wikipedia.org/wiki/Beetle
HidingUnderHats@lemmy.world 6 months ago
Note that this is described species. Beetles are really easy to preserve and are often super cool. There are likely more species in other orders, but they haven’t had as much work done on them. Hymenoptera, for example, with all of the parasitic wasps probably has more species but they can be so freaking small and difficult to work with.
Sorry, I am like a wanna be entomologist who works with akshual entomologists and this is one of the things that triggers them
maculata@aussie.zone 6 months ago
Wot?
John
Paul
George
Ringo
That’s FOUR. Only four.
Omega_Haxors@lemmy.ml 6 months ago
People see insects as extremely weak but they’re consistently the ones who despite being a thousandth of your size can still ruin your day. Now imagine that scaled up and you’ll start to understand why my insectsona would absolutely fuck up your dragonsona in a fight.
JackGreenEarth@lemm.ee 6 months ago
The can’t be bigger today however, as they are limited by the oxygen concentration in the air. In the past, there was a higher percentage of oxygen in the atmosphere, so so insects could be bigger and thus have a lower surface area to volume ratio, because the air they did intake through their exoskeleton had more oxygen, so it was possible to spread oxygen throughout their body. But when the oxygen level dropped, they had to become smaller so that their surface area to volume ratio dropped, and the oxygen they intook could go further.
More detail
During the Carboniferous period, which lasted from about 359 to 299 million years ago, giant dragonflies and huge cockroaches were common. These prehistoric insects grew to impressive sizes, and one of the leading theories behind their gigantism is the abundance of oxygen in the atmosphere at that time. Here’s how it worked: 1. High Oxygen Levels: The rise of vast lowland swamp forests during the Carboniferous period led to atmospheric oxygen levels of around 30 percent—close to 50 percent higher than current levels. This rich oxygen environment allowed adult bugs to grow to ever larger sizes while still meeting their energy needs. 2. Larval Perspective: However, the new study suggests that it’s not just because oxygen affected the adults. Oxygen had a bigger effect on larvae. Insects like dragonflies and stoneflies have a larval stage where they live in water before becoming terrestrial adults. Larvae typically absorb oxygen directly through their skin, so they have little control over how much gas they take in. When oxygen levels were high, this passive absorption could lead to oxygen poisoning. To decrease this risk, growing bigger was advantageous because large larvae would absorb lower percentages of oxygen relative to their body sizes. 3. Regulating Oxygen Intake: Adult insects, on the other hand, can regulate their oxygen intake. They have valve-like holes called spiracles that allow them to adjust the amount of oxygen they absorb. While oxygen is crucial for life, it can be poisonous in large quantities. Humans exposed to excess oxygen can suffer cell damage, vision problems, difficulty breathing, nausea, and convulsions. Ancient insect larvae likely faced similar risks when oxygen levels were exceptionally high. 4. Dragonflies and Cockroaches: Not all insects responded the same way. For instance, dragonflies grew faster into bigger adults in an oxygen-rich environment (hyperoxia), while cockroaches grew slower and did not become larger adults. Overall, ten out of twelve kinds of insects studied decreased in size in lower oxygen atmospheres. The hollow tracheal tubes insects use to breathe played a crucial role in these responses. 5. Fossil Proxies: Understanding how modern insects respond to varying oxygen levels could help us use fossilized insects as proxies for ancient oxygen levels. By studying the plasticity of modern insects raised in different oxygen concentrations, researchers gain insights into the evolution of insects and the impact of oxygen on their size and growth.
DickFiasco@lemm.ee 6 months ago
Until they evolve lungs
MonkderDritte@feddit.de 6 months ago
Same for dinosaurs. They got so big because more oxygen, couldn’t survive today. One more reason that mammals got dominant.
Enkrod@feddit.de 6 months ago
There’s five million ants for every human, should they decide to fuck us up, they will.
Omega_Haxors@lemmy.ml 6 months ago
🥵
420blazeit69@hexbear.net 6 months ago
I’m from Buenos Aires and I say KILL 'EM ALL
someguy3@lemmy.ca 6 months ago
Fucking fascinating.
Zachariah@lemmy.world 6 months ago
Well now my mild arachnophobia seems a bit insufficient.
pimento64@sopuli.xyz 6 months ago
I am calling for total arthropod death
mihor@lemmy.ml 6 months ago
Endlosung for the arthropod question. 🍲
captainlezbian@lemmy.world 6 months ago
Good news for you
unfnknblvbl@beehaw.org 6 months ago
Make Arthropods Great Again!
HawlSera@lemm.ee 6 months ago
But I’m not scared of them at all
mozz@mbin.grits.dev 6 months ago
Just to put some context:
Windex007@lemmy.world 6 months ago
I salivate whenever I hear about these ancient mega arthropods. Like, gigantic and armoured, whatever. But by modern standards, blind and incredibly stupid. And in that atmosphere you’d be constantly so well oxygenated. I don’t know why but I’m convinced these big fucks tasted like lobster.
HappycamperNZ@lemmy.world 6 months ago
Sounds like we need to break into a museum with some butter
drmoose@lemmy.world 6 months ago
I really like that theory too. It further expands that vision is what granted us intelligence as creatures coming on land could see significantly further and thus start planning and reacting to distant changes giving birth to modern intelligence. To add, whales developed this intelligence and went back to the ocean to absolutely dominate it.
samus12345@lemmy.world 6 months ago
This video is really interesting and made me realize what a huge advantage it is to be able to remember things - something we take completely for granted, but isn’t required to survive.
AFallingAnvil@lemmy.ca 6 months ago
Fantastic addition to the conversation, thank you
flora_explora@beehaw.org 6 months ago
I crocheted a giant millipede that is about 1.8 m long and while doing this I also found that there lived actual millipedes that large long ago. Now I cuddle with my giant millipede and imagine that she was one of those giants! :)
maculata@aussie.zone 6 months ago
That looks much more like a Velvet Worm.
mozz@mbin.grits.dev 6 months ago
That is incredibly charming 😃
Live_your_lives@lemmy.world 6 months ago
Why do you find that particular theory about the Cambrian Explosion compelling? I assume mankind is putting a similar pressure on many ecosystems today, so shouldn’t we be seeing that kind of evolutionary explosion happening now?
mozz@mbin.grits.dev 6 months ago
Before: All phyla differentiated but all the creatures are soft and blobby and sort of unremarkable
After: All of a sudden there's trilobites everywhere, they can see and some of them hunt, and all creatures everywhere suddenly have all this armor and mobility and a lot of them have spikes
I don't really know (even enough to talk about what might be the competing theories), but it seems like it fits and it doesn't seem all that farfetched. That said, it kind of seems like all the scientists think me and Andrew Parker are wrong though, so IDK.
(Also - I didn't know about this before as it's semi-new, but apparently Anomalocaris also had eyes and hunted, so star power of the trilobites aside maybe those guys were involved as well. I have to say though the timing of the way it's written in Wikipedia makes a little more sense if the sequencing is: Cambrian explosion -> some species turn into predators, as opposed to the other way around)
What humans are doing to the natural world right now is a global extinction event (not much different from has happened a handful of times). It's happening too fast for anything to adapt to except in the most short-term emergency ways. Mostly stuff is just dying. If we stay around for millions of years doing this same thing then I would expect the biosphere to develop defenses and then rebound into a new equilibrium with defense measures included against what we tend to do to it, in exactly that same way, but I don't think that we'll be around doing the same stuff for that long. I think once the current extinction pressure is gone (one way or another), there'll be quite a while of re-colonization of all the niches we wiped clean during the time when we were killing everything, instead of any lasting adaptation to us as a long term thing.
BlemboTheThird@lemmy.ca 6 months ago
It is happening now but evolution takes a long time. If there were a ton of adaptations that happened in the next 10,000 years, that would be incredibly fast on an evolutionary timescale
Azzu@lemm.ee 6 months ago
Humans have only been dominant for a few thousand years. Give it like a million for enough evolution to happen and then ask this question again.
Diplomjodler3@lemmy.world 6 months ago
Just give it another million years or so.
TonyTonyChopper@mander.xyz 6 months ago
Humans are blitzkrieging the troposphere. Nothing could hope to evolve fast enough except fungi and bacteria I guess
samus12345@lemmy.world 6 months ago
The fact that their closet living relative, the horseshoe crab, has remained pretty much unchanged for 445 million years lends credence to the idea that their design works very well.
sparkle@lemm.ee 6 months ago
anomalocaris anomalocaris anomalocaris