Field of Science

Hyopsodontids: Little Slinkers of the Palaeogene

The oft-repeated quote about mammalian palaeontology is that it tends to be focused on "the tooth, the whole tooth, and nothing but the tooth". This is primarily the result of pragmatic constraints: because they are much harder than the other bones of the mammalian skeleton, teeth are much more likely to be preserved in the fossil record. There are a great many fossil mammals for which the teeth remain pretty much the only part of the animal known. However, there is no question that this focus tends to limit our understanding of mammalian evolution. On the one hand, the complex morphology of many mammalian teeth means that they provide a wealth of characters for analysis. On the other, the morphology of teeth is heavily influenced by their bearer's diet and lifestyle, meaning that phylogenetically informative features are probably outweighed by the products of ecological convergence.

Reconstruction of Hyopsodus from Savage & Long (1978), via here.


All of which is pretty important background to keep in mind for any discussion of the Hyopsodontidae, a group of small (mostly rat- or weasel-sized) mammals recognised from the Palaeogene, the early part (Palaeocene and Eocene epochs) of the Caenozoic era. Hyopsodontids are generally assigned to the 'Condylarthra', a group of mammals that has long been recognised as one of the classic examples of a 'wastebasket taxon'. Condylarths were originally united as primitive relatives of the ungulates, the hoofed mammals. However, the individual condylarth families themselves have not got much in common otherwise, and (particularly with the current acceptance that 'ungulates' are probably not a monophyletic group) it is hard to come up with a definition for 'condylarths' that amounts to much more than 'medium-sized, unspecialised Palaeogene placentals'.

The hyopsodontids have been recognised as one of the longest-lived groups of 'condylarths', with assigned members extending from close to the start of the Palaeocene right up to near the end of the Eocene. Here again, though, we come up against the question of definition. The majority of taxa that have been aligned with the hyopsodontids are among those known only from teeth. Features of the hyopsodontid dentition include fairly simple incisors and premolars, small canines, and molars that are more or less bunodont (that is, the cusps are rounded or conical and clearly separate from each other rather than being connected by lophs). The problem is that these are all primitive, unspecialised features. Hyopsodontids are therefore defined more by their lack of alternate specialisations than anything positive, making them something of a wastebasket within a wastebasket.

Until recently, the only hyopsodontid known from much in the way of postcranial material was the type genus Hyopsodus, a number of species of which are known from an extended period of the Eocene. Indeed, Hyopsodus was one of the most abundant mammalian genera of its time, accounting for over a quarter of mammalian remains in a number of deposits where it is found (Rose 2006). These remains combine to give a picture of Hyopsodus as a long, low-bodied animal that has been compared in its proportions to a dachshund, a weasel, or a prairie dog. Hyopsodus would have been a ground-hugging slinker of an animal, build for concealment rather than speed. Short claws on the forelegs may be consistent with a certain degree of digging ability, whether in search of buried tubers or to scrape shallow burrows. Overall, Hyopsodus was probably a generalist, able to make a living wherever it may find itself: the real rat of the Eocene.

It was only relatively recently that Penkrot et al. (2008) provided further descriptions of limb-bone material from two other genera associated with the hyopsodontids, Apheliscus and Haplomylus. And despite the dental similarities between these genera and Hyopsodus, their postcranial anatomy indicates a quite different animal. Though small, the apheliscines were relatively long-legged, speedy runners: sprinters rather than slinkers. Penkrot et al. interpreted the apheliscines as relatives of the modern elephant shrews of Africa; whether or not there was a valid phylogenetic connection, the two would have certainly been ecologically similar.

Both Hyopsodus and Apheliscus were included in the broad-scale analysis of early placental phylogeny by Halliday et al. (2017). The results of the analysis corroborate the implications of the postcranial anatomy: despite dental similarities, the 'hyopsodontids' in the broad sense are not a monophyletic group. Over a dozen other genera are known of candidate hyopsodontids, but so long as they are known only from dental characters their true position remains uncertain. Without postcranial data, it seems, we can't handle the tooth.

REFERENCES

Halliday, T. J. D., P. Upchurch & A. Goswami. 2017. Resolving the relationships of Paleocene placental mammals. Biological Reviews 92 (1): 521–550.

Penkrot, T. A., S. P. Zack, K. D. Rose & J. I. Bloch. 2008. Postcranial morphology of Apheliscus and Haplomylus (Condylarthra, Apheliscidae): evidence for a Paleocene Holarctic origin of Macroscelidea. In: Sargis, E. J., & M. Dagosto (eds) Mammalian Evolutionary Morphology: A Tribute to Frederick S. Szalay pp. 73–106. Springer.

Rose, K. D. 2006. The Beginning of the Age of Mammals. JHU Press.

6 comments:

  1. We really need to have more species represented by Messel-like fossils: typically incomplete post-cranial remains can be just as misleading as dentitions. I recall from some years back (I don't think it was one of the papers you cite) a proposal that linked elephant shrews to some "condylarth" the paper included a photo of a limb-bone that really did look quite similar to one from an elephant shrew, but that was close to the only part of the animal represented.

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  2. I'll see if I can find a reference to the paper I recall. I think it was from before the Rose "Beginning of the Age of Mammals" volume, so there may be a reference in it I can use to trace it.

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  3. Probably this one: "Zack, S. P., T. A. Penkrot, J. I. Bloch & K. D. Rose. 2005. Affinities of ‘hyopsodontids’ to elephant shrews and a Holarctic origin of Afrotheria. Nature 434: 497–501." You'll note that it's the same authors as the paper I cited in this post.

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  4. Thanks for the mini-discussion of teeth in classification, and fossil taxonomy in general. I've often been amazed by the limited amount of evidence used in fossil classification!

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  5. I got the Rose "Beginning of the Age of Mammals" out of the library to check…
    Yes, I think that's the paper I saw: back in those days University Libraries had PAPER subscriptions to major journals, and I tried to keep up with developments in the sciences by skimming "Nature" and "Science" every week…
    The memorable photo was the top half of a lower leg of, I guess, Apheliscus. The way the fibula fuses with the tibia part way down the shaft looks very much like the condition in the modern elephant shrew Rhynchocyon. Still, fusion of the tibia and fibula isn't all THAT rare: rabbits, for instance. Or the Messel "insectivore" Macrocranion (page 146 if you have the Rose volume at hand), which has been reconstructed in a way that looks, superficially, a bit elephant-shrew-ish… So, I don't find the argument that Macroscelideans (= el.sh.) are descended from Apheliscines (let alone the corollary that Afrotherians are descended from NorthAmerican Eocene condylarths!) very convincing: convergence happens. (And if you want to see the dangers of inferring phylogeny from a broken leg-bone, look at Darren Naish's latest "Tetrapod Zoology" post: break off a Jerboa's hind foot in the right place and the tarsometatarsus looks like … a bird's!)
    (Off topic: As you know, I'm a fossil mammal enthusiast, so so this post was particularly interesting to me. But also: I do appreciate your work in general-- this is one of the blogs I check regularly. Thank you!!!!!!!!!!)
    (And thanks for the reference to Halliday et al.: looks like something I would be interested in.)

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  6. The Apheliscus-Macrocranion comparison has been made before, as you may be aware. Note that in the molecular-constrained analysis in Halliday et al., these two fall out as part of a clade of insectivore-type animals that is outside the Scrotifera crown.

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