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Cambrian Explosion Month #03: Phylum …Porifera?
Sponges were major reef builders during the Cambrian Explosion, and for the first half of the Cambrian Period the dominant reef-forming group were the bizarre archaeocyathans.
Although their reign was geologically short, lasting only about 15 million years, these tiny calcified sponges were incredibly numerous and diverse during that time, with hundreds of different species known from warm shallow marine waters all around the world. They came in a huge range of shapes, including cups, cones, funnels, towers, and irregular blobs, and were so weird that they weren't even properly recognized as being sponges until the 1990s.
And Yukonensis yukonensis was one of the strangest-looking examples.
Found in Western and Northern Canada (and with a similar species also known from Alabama, USA), this archaeocyathan lived towards the end of the group's heyday about 516-513 million years ago. It was only a few centimeters tall and less than 5mm wide (0.2"), and was made up of a stack of bulbous modular segments (up to at least 18 in some specimens), with whorls of spines with a sort of "webbing" between them giving it an overall appearance vaguely resembling a miniature horsetail or a pagoda.
It's not clear what the purpose of this unusual arrangement was. The spines might have served a defensive function, or the webbing might have hosted symbiotic algae, or the spines and webbing might have been covered in cilia in life to help direct water flow for filter feeding.
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Meanwhile, the evolutionary relationships of another odd group called the chancelloriids are still uncertain.
These animals had bag-like bodies with a single opening at the top, no evidence of defined internal organs, and their skin was bristling with mineralized spines that gave them a cactus-like appearance.
Much like sponges they were sessile filter-feeders that lived anchored to the sea floor, and they're often considered to be "sponge-grade" animals that were either a weird branch of the sponge lineage or very early eumetazoans. (There's also a competing theory that they were instead closely related to the mollusc-like halkieriids due to strong similarities in the structure of their spines, but there were still huge differences in the rest of their anatomy so this idea is currently looking rather unlikely.)
Chancelloria eros was a widespread species of chancelloriid found in mid-Cambrian deposits (~525-505 million years ago) around most of the world, including in the Americas, Europe, Asia, and Australia. It grew up to about 7cm tall (2.75") and was shaped like a slim cone with the wider end at the top.
Both of these groups declined rapidly in the late Cambrian and were completely extinct by the end of the period, probably due to anoxic events and changes in climate and sea level eliminating much of their shallow-water coastal habitats.
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#science illustration#paleontology#paleoart#palaeoblr#cambrian explosion 2021#yukonensis#archaeocyatha#porifera#sponge#chancelloria#chancelloriid#eumetazoa#animalia#art#i didn't really known about archaeocyathans before i started researching for this month#and honestly? they're super cool and it's a shame they're so obscure compared to the more charismatic cambrian weirdos :c
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Sponges in the fossil record
Welcome back to another fun-filled week here at palaeofail-explained, which is apparently sponge central now. Last week I wrote a bit about sponges and why they’re great. You might wanna read that now, because this post is going to build off of that!
(Image: The fossil demosponge Astylospongia, a roughly spherical sponge with a hollow in the middle. It’s been broken to reveal the interior. [Source])
Sponges are some of the first animals to evolve (Perhaps the first - a controversy that’s made a bit more complicated by the ctenophore problem, which we’ll hopefully get to in a future installment) (Oh, and they might make up a paraphyletic grade in the way that monkeys and fish do, meaning that we might be just advanced sponges!).
Where was I? Ah, yes. Sponges are some of the first animals to have evolved, and consequently, are some of the earliest animals to appear in the fossil record. Or perhaps i shouldn’t say appear, because the earliest sponge fossils we have are not of sponge bodies at all!
What’s preserved are steranes. Steranes are a type of organic compound—specifically, a type of lipid, or fat. They are a highly degraded form of sterols, which are organic molecules found in many living things, especially eukaryotes (things whose cells have a nucleus). Examples of sterols include cholesterol, as well as testosterone and estrogen.
(Image: Estrogen, a sterol. It consists primarily of a bunch of carbon atoms bound together in four rings. Put this in a rock for a few million years and you get steranes. Put it in a semi well-known palaeontology blogger and you get gender euphoria. [Source])
The particular sterol that’s of interest to us (besides estrogen) is called 24-isopropylcholesterol (gesundheit), and today it is unknown in any living organisms other than demosponges. What does it do? I don’t know. Ask a sponge chemist.
I mentioned before that sterols, when degraded, turn into steranes, and so we sometimes find examples of 24-isopropylcholesterANE in the rock record. This makes it an example of a molecular fossil. And what’s most exciting is that these molecular fossils are the earliest known evidence of animal life on the planet!
See, back about, oh, 700 million years or so ago, during the cryogenian period, the earth was covered in ice. Like, I mean, ALL OF IT. It’s a time in the history of the earth that we call “snowball earth”, and it’s a time when the Earth turned into the ice planet Hoth. But instead of tauntauns, there were only microbes living on Earth. And apparently, also sponges, as evidenced by molecular fossils.
(Disclaimer: there remains some controversy over these molecular fossils, and some possibility that they were produced by non-animals. I think they were most likely made by sponges, but time may tell.)
The earliest body fossils of sponges come from the next period after the cryogenian - the ediacaran, aka the age of pancakes.
(Image: Not a cellphone in sight, just rangeomorphs living in the moment. An Ediacaran scene with the pancake-like Dickinsonia in the middle, fern-like Charnia next to it, and a bunch of other things I don’t recognise around them. [Source])
This is all before the Cambrian Explosion, which you might have heard of before. The pancake guys lived a little less than 600 million years ago, but we’re not actually focusing on them. Rather, we’re focusing on the small shelly fossils that are around them. These are scientifically termed the Small Shelly Fossils.
(Image: Scanning electron microscope photos of apparent sponge spicules in the Small Shelly Fossils. These particular ones are actually from the early Cambrian, but still before the Cambrian Explosion. [Source])
As you might have guessed if you read that caption, the Small Shelly Fossils of the Ediacaran and early Cambrian include sponge spicules, which if you didn’t read the sponge overview, are what make up sponge skeletons. So that’s something that can’t be so easily contested as molecular fossils.
One early group of...animals?? that appear in the fossil record are the archaeocyaths. These are the kind of things you might have seen at a natural history museum, looked at for 0.5 seconds, and then moved on to look at the pretty trilobites. These displays don’t do them justice, because they’re pretty interesting little guys.
(Image: Stapicyathus, an archaeocyath from the Early Cambrian, in top view (left) and side view (right). It’s shaped a bit like an ice cream cone, or like a bunch of sticks bundled together. [Source])
If you have heard literally anything about archaeocyaths it’s likely that they are, quote, “the first reef builders”, and indeed they were. It’s rare to see them in the form I showed above; normally, you just get cross-sections through them.
Archaeocyaths are known exclusively from the Cambrian, and they occur on literally every continent. They’re used a lot for Cambrian biostratigraphy - in other words, correlating the fossils between different sites to determine how old they are.
What did archaeocyaths do? It’s hard to know for sure, but it seems like they had a hole in the middle and porous walls—a lot like sponges, so it’s assumed (with good reason, I think) that they filter-fed like modern sponges. They also built skeletons out of calcite (limestone), hence their reputation as “reef builders”. They seem to have been common in shallow, warm-water environments, where you might expect filter feeders to live.
One thing that’s peculiar about archaeocyaths, though, is that they start out entirely lacking pores, and occasionally will grow their skeletons to the point of entirely blocking off their pores. That’s strange for something that’s ostensibly living like a sponge, and it’s led some (i.e. the folks at Palaeos) to speculate that the structure evolved as a way for the earliest animal-like cells to live together, providing scaffolding for the cells to prevent them from being smothered. They make the case far better than I could, so it’s worth giving a read if you’re interested.
(Image: Generalised anatomy of an archaeocyath. Most of the details aren’t really important - what matters is they’re shaped kind of like an ice cream cone, with a hollow middle and porous walls. [Source])
Now we get to the tricky part: What are archaeocyaths?? They’re generally assumed to be animals, and sponges, but this is based mostly upon people not really being sure what else they could be. Having not studied them in depth, I myself have no clue, and I’ve gathered that the state of the literature seems to be “we have no clue”. They might be sponges. They might be some other group of animals. Heck, they might not even be animals. Maybe one day this’ll be illuminated with molecular fossils! It could be you! Whatever. I’m putting them in the sponge post for now.
(Image: A bunch of plus sign-shaped spicules clumped together on rock. [Source])
Once the Cambrian Explosion came in the mid-late Cambrian, actual real for-sure sponges got bigger and more recognisable. Those spicules in the image above belong to Protospongia, a sponge that lived in the Burgess Shale with your other favourite critters. It’s been referred to the hexactinellida, or the glass sponges, but I’m not sure how accurate that is due to spicules being notoriously convergent in different sponge groups.
(Image: Diagram of a stromatoporoid, looking like a lumpy lasagna. [Source])
Continuing the trend of “things you saw in a display cabinet and walked past” are the stromatoporoids, a group sponges from the middle palaeozoic ( about 300-400 million years ago). In fossils they’re normally seen in side view, but sometimes in top view as well. What’s more, we’re pretty sure they’re a group of demosponges. They made calcite skeletons, but palaeozoic forms lacked spicules. Mesozoic forms apparently had silica (quartz) spicules.
Anyway, they’re the next “reef builders” after archaeocyaths died out, though there were also corals doing their thing at this time. They did...normal spongy things, it seems. Just your normal sponge fare.
And....”normal sponge fare” is pretty much the rest of the sponge fossil record. They make different shapes, different skeletons, different sizes, live in freshwater, live in saltwater, live under antarctic ice, and generally just do...spongy things. I’ll leave you with one interesting example of a sponge fossil—evidence of the Boring Sponge Cliona, preserved as the holes it bored in the shell of a mollusc.
Many people look past sponges as being too “simple” or less interesting than the more familiar fish or mammals or dinosaurs, but I think that just because something is a Boring Sponge, doesn’t mean it’s necessarily a boring sponge.
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#Cambrian#Cambrian era#cambrian explosion#anomalocaris#trilobite#prehistoric seas#prehistoric life#wuwaxia#hallucigenia#solenpora#archaeocyatha#opabinia#halpophrentis#marrella#pikaia#chordate#takakkawia#anceint oceans#dinosaurs#evolution#elt-scribbles#everything catalogue#knowledge#random#inspiration
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A western fence lizard (Sceloporus occidentalis) silently judges from its vantage point between two slabs of oolitic limestone in the White Mountains of Eastern California. The rocks belong to the Lower Cambrian Poleta Formation. Embedded within, barely visible in these images, are fossils of ancient photosynthetic sponges known as archaeocyatha. These primitive animals were the first organisms in Earth’s history to form framework reefs, millions of years before the first corals.
The shallow equatorial sea where these sponges lived is long since dried up. Today the reef sits high in the mountains among the sagebrush and juniper, the haunt of lizards and ghosts, the rain and snow slowly weathering it from its half-billion-year-old tomb.
#western fence lizard#sceloporus#archaeocyatha#cambrian#cambrian biota#poleta formation#paleontology#invertebrate paleontology#paleoblr
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The Cambrian Explosion
The Cambrian period occurred approximately 542-488 million years ago and included the biggest evolutionary explosion in Earth’s history. Some researchers think this happened due to a combination of a warming climate, more oxygen in the ocean, and the creation of extensive shallow-water marine habitats.
This environment would be ideal for the proliferation of new types of animals, including those that were larger and more complex in their body shapes and ecologies than their ancestors. The world’s first predators took to scanning the seabed from above or hiding in the sediments of the seafloor as disguised ambushers. On the seafloor, sponge-like creatures called Archaeocyatha grew in dense mounds and became prolific reef builders of the ocean.
Though the first creatures to have shells arose in the Ediacaran, by the Cambrian this body feature became more common and it would prove as a critical defense mechanism against hungry predators. Many of these creatures were discovered in the Burgess Shale, an area of the Canadian Rockies with a large deposit of preserved Cambrian-age fossils.
Read more: Smithsonian Institution
#cambrian#cambrian explosion#life on earth#ocean#marine biology#science#evolution#animals#nature#science illustration
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Dorothy Hill
Dones científiques: Dorothy Hill
Enllaços
Dades biogràfiques, trajectòria profesional,... Australian Academy of Science
Un dels objectes d'estudi: els coralls. Petits animals invertebrats. Archaeocyatha
Dorothy Hill was originally published on PlanetArduino
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Porifera; Archaeocyatha; 525 Ma
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