Today, an AWESOME treat courtesy of Christan Neumann, a German paleontologist who runs the Tornadoropa website.
Christian studies fossil echinoderms, especially sea urchins and sea stars and put me onto a new short paper he's written in Arbeitskreis Palaontologie Hannover 37: 92-97! Most of the pics featured today are courtesy of his article!
But...WHAT? You didn't realize that there was such a thing as starfish FOSSILS?
Starfish, like other echinoderms are composed of thousands (maybe even hundreds of thousands) of individual calcium carbonate pieces (called ossicles or plates)! So, when they die, those pieces often get scattered into the sediment or the water or etc.
That is why starfish ossicles are SO rare. When they die, these pieces scatter very easily and they fail to preserve over time.
BUT, sometimes we get lucky! Those pieces get preferentially preserved, sometimes while they are still connected together, articulated into large chunks or EVEN the complete animal!
So, in this case, we have pieces that clue us in to one of the most enigmatic of fossil echinoderms! The Sphaerasteridae! An engimatic group of asteroids from the Jurassic!
While dinosaurs were trying to figure out how to roam the Earth, these guys were happily sitting around in the seas of the Mesozoic!
Initially, the pieces recovered were like this:
(Courtesy & copyright of Christian Neuman in APH 37)
You often recover MANY different pieces. Here we have fragments of Sphaeraster punctatus.More precisely..you get either individual pieces (i.e., individual plates) or a "chunk" of the animal that looks like this.
You often recover MANY different pieces. Here we have fragments of Sphaeraster punctatus.More precisely..you get either individual pieces (i.e., individual plates) or a "chunk" of the animal that looks like this.
Eventually, you have enough different fragments, pieces, and etc that you can make a guess as to what the original animal looked like.
Starfish paleontology is a LOT like dinosaur paleontology or assembling an airplane model kit without the instructions! You've got a bunch of pieces and you have to reassemble them into what looks like the right shape!
So..what you've get here..VOILA!! A reconstruction of Sphaeraster punctatus (described by Schondorf in 1906!).
It was weird but not really that big..about 75 mm across from left to right. Now bear in mind this is a RECONSTRUCTON. The fossils aren't nearly as nice as this. But it gives you SOME idea of what it looked like.
So, what did this odd-looking thing do when it was alive?? One of the most useful ideas for interpreting these fossils and putting them back together is a concept in paleonotology-indeed ALL of Geology-called Uniformitarianism!
Basically, this is the idea is that a lot of the physical processes and relationships that happened in Earth's past are generally the SAME as they are today. So, we look for critters that appear SIMILAR today... Because its possible the same physical forces may have influenced their appearance and body shape (and giving us insight into Sphaeraster!).
For example: The Shingle Sea Urchin Colobocentrotus! Colobocentrotus makes its living by using its flattened spines to deflect waves in its habitat: the harsh intertidal zone in the Indo-Pacific. Interesting.
Its got the plates. Its got the flange around the edge similar to the plates on the reconstruction. BUT its NOT a starfish.
Not directly related-but could it have lived this way??? Possibly.
Could it be Xyloplax?? The mysterious asteroid-like beast with a flange of spines around its edge? These beasts live in the deep-sea on sunken wood where they live flush on the surface.
Again..possibly/probably not related-but could it have lived THIS way??
Or perhaps...the strange "top hat" starfish, Tremaster??
..or could it be The LIVING completely, SPHAERICAL starfish-Podosphaeraster??? At first, these nearly round sea stars WERE thought to belong to the fossil Sphaerasteridae. But over the years, these strange creatures have eventually come to be classified in their own unique family-the Podosphaerasteridae and separated from the fossil Sphaerasteridae.
and while, this is plausible, it should be noted that NOTHING is known about these critters. So, maybe its not a podospherasterid either..? We have some AMAZING body shapes and morphology but we have very little biology to match it up with!
Where does that leave us??
Believe it or not, this is it. This is practically our total state of our knowledge of these animals. These beasts fall into the category "about which, little is known..."
It is a pretty curious place where Paleontology and Deep-sea Taxonomy converge!
- Both involve specimens (often damaged) with unusual shapes or structures which have been subjects of attempted "interpretation".
- Both often involve bizarre mophologies without any direct observation of ecology or even fundamental life mode.
- Both subjects usually involve rarely encountered animals which only exceptionally are discovered intact!
I notice that you still haven't corrected my Podosphaeraster errors. More Podosphaeraster please! :)
ReplyDelete"The way in which Podosphaeraster has evolved its unusual form is relatively simple."
ReplyDeleteThere's a scientific paper that I"m writing which disproves this simple statement. Don't get me started.
Your interpretations of plate "evolution" are off as are some of your size estimates. Plus, your 'sea urchin from a sea star" arguments are just weird.
ReplyDelete