Unsolved Paleo Mysteries Month #14 – The Mystery Mega Mammal

During a 1923 expedition by the American Museum of Natural History to Inner Mongolia, China, a huge mammal skull was discovered dating to the Middle Eocene (~48-37 mya). About 83cm long (2′8″), with small low-set eyes, it was named Andrewsarchus mongoliensis in honor of expedition member Roy Chapman Andrews.

Almost a century later that one skull is still all we have. And despite this animal’s popularity among paleo-fans, we actually know very little about it.

It was originally classified as a mesonychian, leading to the many many depictions of it as a sort of “big bad wolf”. But more recent studies have placed it in the even-toed ungulates instead, with some suggestions that it might be most closely related to entelodonts, hippos, and whales.

Although it was certainly a big animal, it may not have been the giant “super predator” it’s often depicted as – its teeth aren’t particularly specialized and resemble those of entelodonts, suggesting it may have been more of an opportunistic omnivore than a dedicated carnivore.

Without more material we just don’t know for certain. So, frustratingly, the rest of Andrewsarchus’ body remains a mystery.

I’ve reconstructed it here based on one of its more obscure possible relatives: the anthracotheres, a group which may have been closely related to modern hippos. Scaling its body proportions to these animals produces rough measurements of about 1.45m tall at the shoulder (4′9″) and 3m long (9′10″), or about the same size as some of the big entelodonts or large modern bears.

Unsolved Paleo Mysteries Month #11 – Strange Snoots: Equid Edition

Horse evolution is often represented as a simple progression from Eohippus* to modern Equus, but it was actually a lot more complicated than that – and some ancient horses had some very odd things going with their snouts…

(* For a long time Eohippus was considered synonymous with Hyracotherium, but more recently has been split back off as its own genus again.)


An illustration of the skull of an extinct horse, showing the unusually large holes in the bones in front of the eye sockets. Below is a reconstruction of the horse's head in life.
Pliohippus sp. skull and head reconstruction

Pliohippus, from the Middle Miocene of North America (~15-12 mya), and several of its other close relatives had especially large, deep recesses in their skulls, usually referred to as “preorbital fossae”.

And the purpose of these holes is still unknown. Although superficially similar depressions are seen in various other perissodactyl groups, they vary in position and structure and probably weren’t all homologous.

Ideas have included resonating chambers, some sort of glands, inflatable sacs, or attachment sites for complex lip musculature.


An illustration of the skull of an extinct horse, showing the unusually large nasal cavity. Below is a reconstruction of the horse's head in life.
Hippidion sp. skull and head reconstruction

Meanwhile Hippidion from the Pleistocene of South America (2 million – 10,000 years ago) had especially long and domed nasal bones. This must have supported an enormous nasal area – possibly giving it a saiga-like air-conditioning system, a highly sensitive sense of smell, or perhaps even some sort of prehensile proboscis-like snout.

Unless we find some exceptional soft-tissue preservation, the facial anatomy of these equids is going to remain enigmatic.

Homalodotherium

Homalodotherium, a South American notoungulate mammal from the Early-to-Middle Miocene of Patagonia (~20-15 mya). Standing about 1.4m tall at the shoulder (4′7″), it seems to have convergently evolved to fill the same selective browsing niche as the North American chalicotheres and the later giant ground sloths.

Despite being an ungulate it had claws rather than hooves, and walked plantigrade on its hind feet but digitigrade on its front feet. It would have been capable of rearing up bipedally to pull down branches with its long forelimbs, with the shape of its nasal bones suggesting it may have also had a prehensile upper lip to help it strip off vegetation while feeding.