Having gone through much of my backlog, I was going to post about pretty blue limpet shells, then I saw that people have been arguing over Haootia. You remember Haootia? It’s that Precambrian fossil with probable muscle impressions that looks kind of like a modern-day staurozoan jellyfish (living staurozoan Haliclystus californiensis by Allen Collins, Encyclopedia of Life; Haootia quadriformis reconstruction from Liu et al., 2014):
It’s pretty much a law of Precambrian palaeontology that no interpretation of a fossil can ever remain uncontested, and Haootia is no exception. Nonetheless, this might be the tamest debate anyone ever had about a Precambrian fossil, and it gives me all kinds of warm feels.
Good news: Miranda et al. (2015) don’t dispute that the fossils show muscle impressions. They don’t even dispute that they belong to a cnidarian-grade creature. However, they question some of the details of the muscular arrangement, which could have implications for what this creature was and how it functioned.
They don’t have much of an issue with the muscles that run along the stalk and arms. The main point of contention, as far as I can tell, is that the muscles that run around the body (called coronal muscles in modern jellies) are not that big in living staurozoans. Those are the muscles that regular jellyfish use to contract their bells while swimming, but staurozoans don’t swim and therefore don’t need huge coronal muscles.
By Liu et al.‘s (2014) reconstruction (see above), Haootia has pretty massive coronal muscles. Miranda et al. (2015) wonder whether this was really the case, or the deformation of the fossils combined with the subconscious influence of regular jellyfish misled the original authors. They offer an alternative reconstruction, in which most of the body musculature runs up and down rather than around the body wall:
However, they also entertain the possibility that Liu et al.‘s reconstruction is correct – in which case, they note, Haootia must have done something with those muscles. Did jellyfish-like pulsations somehow form part of its feeding method? Could this even be a precursor to the jellyfish way of swimming? Who knows!
Liu et al. (2015) gave the most amazing response – much of their short reply to Miranda et al.‘s comments is basically thanking them for all the extra information and insight. They seem really pleased that biologists who study living cnidarians are taking an interest in their fossils, and enthusiastic about fruitful discussions in the future. (I concur. Biologists and palaeontologists need to talk to each other!)
They did take another, closer look at Haootia and maintain that they still see a large amount of musculature running around the body. So perhaps this peculiar Precambrian animal was doing something peculiarly Precambrian that has few or no parallels in modern seas. “We must keep in mind,” they write, “that some, or maybe most, Ediacaran body plans and feeding strategies may have been specifically adapted to Ediacaran conditions.”
Either way, the whole exchange makes me very warm and fuzzy – I love to see scientists having constructive debates and learning from each other. (I also love that Miranda et al. thank Alex Liu in their acknowledgements; they were so obviously not out to tear one another down.) Plus both teams agree that we DO have a cnidarian-type creature from the Precambrian, and we DO have lovely lovely muscle impressions. Here’s to nice people, and to the slowly sizzling fuse of the Cambrian explosion! 🙂
Liu AG et al. (2014) Haootia quadriformis n. gen., n. sp., interpreted as a muscular cnidarian impression from the Late Ediacaran period (approx. 560 Ma). Proceedings of the Royal Society B 281:20141202
Liu AG et al. (2015) The arrangement of possible muscle fibres in the Ediacaran taxon Haootia quadriformis. Proceedings of the Royal Society B 282:20142949
Miranda LS et al. (2015) Is Haootia quadriformis related to extant Staurozoa (Cnidaria)? Evidence from the muscular system reconsidered. Proceedings of the Royal Society B 282:20142396