Hairy Museum of Natural History

Skeletal reconstruction of Suminia getmanovi (sue-MIN-ee-a  get-mah-NOVE-eye), an arboreal anomodont therapsid from the Late Permian of Russia. Art by Christina Stoppa.

Paleontologists have described the earliest known animal adapted for life in the treetops, according to a paper in the Proceedings of the Royal Society B, released online today. Jörg Fröbisch, of the Field Museum, and Robert Reisz, from the University of Toronto, found several adaptations for arboreality when they examined fossil skeletons of Suminia getmanovi , a small (20 inches/50 cm) herbivore from the Late Permian of Russia.

The most striking features of the skeleton of Suminia are the relatively large hands and feet. Most of their length is taken up by long, slender fingers and toes tipped with strongly curved, laterally (side-to-side) compressed claws, which are similar in proportion and shape to some modern tree-clinging animals, including dermopterans, megabats, and lizards. The first digits on the hands and feet diverge from the remaining four digits as well, and may have been used as opposable ‘thumbs’ as the animal clung to the branches.

Skeleton of Suminia getmanovi, Paleontological Institute (Moscow) specimen number 2212/116 (spec. 1) Photo by Diane Scott.

More subtle features also point toward arboreal habits. The tail of Suminia is relatively long, and the vertebrae show strong processes halfway down its length. These processes could have supported muscles that allowed Suminia to use its tail for balance or, possibly, as a prehensile grasping organ.

Suminia, at 260,000,000 years old, is the first known vertebrate with this degree of arboreal specialization. Fröbisch and Reisz note that the Late Permian Period, and the Kotel’nich locality where Suminia was found, provides some of the earliest evidence for “modern terrestrial ecosystems with large numbers of plant-eaters supporting few top predators.” While large megaherbivores fed on the greenery below, Suminia found a new way to exploit the foliage in the treetops, taking the first known step into a niche that vertebrates would return to several times over the next 260 million years.

Life restoration of Suminia getmanovi by Christina Stoppa.

Lawless teeth

In part because of some very poorly-written articles and headlines, and in part because talking about vertebrate relationships is just plain enjoyable, it seems like a good place to put in a little bit of context regarding exactly what Suminia is related to.

Suminia is a synapsid, a group of vertebrate animals that would eventually (some 50-100 million years after Suminia) give rise to the ancestors of today’s mammals. Although some synapsids have been called “mammal-like reptiles,” (because they certainly laid eggs and might have looked something like lizards) there are no true reptiles in the synapsid group. All true reptiles—turtles, lizards, snakes, crocodiles—even dinosaurs and birds—belong to a completely separate group.

Among the synapsids, Suminia is considered a therapsid, a phrase commonly used to indicate a grade of synapsid development in between the earlier pelycosaur-grade (think Dimetrodon) and the later mammal-grade. (Although, since mammals evolved from therapsids, we’re technically therapsids too, and since therapsids evolved from pelycosaurs, we can all claim that title as well.)

Among the therapsids, Suminia is an early member of the anomodont (“lawless tooth”) lineage. Sometime during the Early/Middle Permian period, the anomodont line split off from the line of therapsids that would, by way of a whole bestiary of gorgonopsians and therocephalians and countless cynodonts, eventually lead to mammals. The closest relatives we (and all other mammals) share with Suminia would have lived before the Late Permian, around 275,000,000 years ago (give or take several million years) .

The anomodonts have no living descendants, but their roster includes the great radiation of dicynodonts that survived the end-Permian extinction, became some of the largest terrestrial herbivores of the Triassic, and might possibly have survived into the Cretaceous if the identification of an Australian fossil is correct.

Placerias hesternus, a Late Triassic anomodont from Arizona. (Illustration by me, for the day job)

Contrary to what you might have read regarding this discovery, dinosaurs did not evolve from synapsids, and while Suminia is a human relative, this potential predator of Suminia is a much closer relation.

• Reference: Fröbisch, J. and Reisz, R. R. 2009. The Late Permian herbivore Suminia and the early evolution of arboreality in terrestrial vertebrate ecosystems. Proc. Royal Soc. B Published online before print July 29, 2009, doi: 10.1098/rspb.2009.0911.
• Web Coverage:
  • Press Release [ZIP file]
  • BBC News: Fossil is the earliest tree-dweller
  • Laelaps: Suminia: Life in the trees 260 million years ago
  • The Dragon’s Tales: Oldest Known Arboreal Herbivore Found…IN THE PERMIAN!

Some images and info for this post came from this press release.

—Matt Celeskey.

File under: Permian, Synapsids.

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The Beyond Bones blog at the Houston Museum of Natural Science is full of paleo-stories these days:

• Several prime pelycosaur posts from recent field work in the Permian beds of Seymour, including Dimetrodon-as-chondrichthivore and new material that may be from the narrow-snouted finback Secodontosaurus .
• And a step-by-step look at how Julius T. Csotonyi recreated the world of Leonardo, the fantastically well-preserved Brachylophosaurus, for the museum’s Dinosaur Mummy CSI: Cretaceous Science Investigation exhibit. Csotonyi’s digital paintings are about the best I’ve seen, and this post gives valuable insight into his process.

—Matt Celeskey.

File under: Cretaceous, Dinosaurs, Museumabilia, Permian, Synapsids.

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Striving for fair and balanced reporting for all arthropod aficionados:

A few weeks old, but worth noting: World’s oldest flying insect fossil. A beautiful resting trace from a Carboniferous insect that landed with its limbs sprawled out like a mayfly; found in Massachusetts by a geology student at Tufts University.

Moving back in time, Chris Nedin kicks off his new Ediacaran blog with a compelling Cambrian tale of how flexible trilobites avoided unlucky breaks in The Spandrels of San Marco and the Anomalocaris Paradigm.

Speaking of the Cambrian, scientists are furthering their insight into the exceptional preservation of the famous Burgess Shale fossils, according to this article.

And  The Life of Madygen provides a brief introduction to the Triassic titanopterans, an extinct group of insects, related to grasshoppers and crickets, but with wingspans reaching half-a-meter across!

—Matt Celeskey.

File under: Cambrian, Carboniferous, Invertebrates, Triassic.

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Some impressive fossils from the Chengjiang Lagerstätte in China hit the news this week—a heretofore undescribed type of Cambrian arthropod that was preserved shell-to-tail in long chains, kind of like half-billion year-old invertebrate snap-lock beads.

A photo and a closeup of the astounding Chengjiang “Chained Arthropods”
Photos by Derek Siveter from the University of Oxford Media Release.

The researchers who reported on these fossils in this week’s issue of Science suspect that these ancient “conga lines” might reflect some sort of migratory behavior.

• Reference: Hou, X.-G., Siveter, D. J., Aldridge, R. J., and Siveter, D. J. 2008. Collective Behavior in an Early Cambrian Arthropod. Science: 322: 5899, p. 224. doi: 10.1126/science.1162794
• Web Coverage:
  • University of Oxford press release
  • Science News: New Arthropod Species Really Stuck Together
  • National Geographic: “Daisy Chains” of Fossil Creatures Found in China
  • Catalogue of Organisms: Chain Chain Chain

—Matt Celeskey.

File under: Cambrian, Invertebrates.

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• 
• Gerobatrachus hottoni
  Painting by Michael Skrepnick,
  from the press release at EurekAlert.

• New Amphibian: Gerobatrachus hottoni
• Name means:Hotton’s Elder Frog
• Relations: Amphibamid temnospondyl and stem-batrachian (an early offshoot on the lineage leading to frogs and salamanders)
• Location: Texas, U.S.A.
• Age: Early Permian, ~290,000,000 years ago
• Size: Less than 12cm (5 inches) long
• Info: The three groups of living amphibians (frogs, salamanders, and caecilians) most certainly had their roots in the great amphibian radiations of the Late Paleozoic Era, but the fossil record has provided few clues that help pinpoint their precise ancestry. Gerobatrachus was a small temnospondyl, part of a very successful and numerous group of amphibians in the latter part of the Paleozoic. The remains of Gerobatrachus exhibit a unique mosaic of features in its teeth, ears, limbs, and vertebrae that suggest it may have been close to the origins of both modern frogs and salamanders. Although many researchers have proposed a close relationship between all three groups of living amphibians, a phylogenetic analysis that included Gerobatrachus found that caecilians had their origins in a completely different group of Paleozoic amphibians, the lepospondyls.
• Reference: Anderson, J. S., Reisz, R. R., Scott, D., Fröbisch, N. B., and Sumida, S. S. 2008. A stem batrachian from the Early Permian of Texas and the origin of frogs and salamanders. Nature 453, 515–518 (22 May 2008) | doi:10.1038/nature06865. The article is available for download from the Center for North American Herpetology PDF Library.
• Web coverage:
  • Press Release
  • LiveScience on MSNBC
  • The Dragon’s Tales 1 & 2
  • Palaeoblog
  • El PaleoFreak

—Matt Celeskey.

File under: Permian, Recent Discoveries, Tetrapods.

Comments on record: (4)