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Eocasea martini
Topic Started: Apr 17 2014, 01:47 PM (1,181 Views)
Taipan
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Eocasea martini

Posted Image

Temporal range: Late Pennsylvanian

Scientific classification
Kingdom: Animalia
Phylum: Chordata
Clade: Synapsida
Clade: †Caseasauria
Family: †Caseidae
Genus: †Eocasea
Type species: Eocasea martini

Eocasea is an extinct genus of caseid synapsid from the Late Pennsylvanian of Kansas. It is known from a single type species, Eocasea martini. Eocasea is the oldest and most basal member of Caseidae, lacking many of the specialized anatomical features that characterize later members of the group. Caseids are notable for being one of the first groups of tetrapods to evolve herbivory; large-bodied taxa such as Casea and Cotylorhynchus have barrel-shaped rib cages and leaf-shaped, serrated teeth that are clear adaptations for breaking down plant cellulose. Eocasea differs from these taxa in having a narrow rib cage, simple cone-shaped teeth, and a much smaller body size. All of these are plesiomorphic features for synapsids, meaning that Eocasea inherited a carnivorous lifestyle from similarly small-bodied carnivorous ancestors of synapsids. As the earliest known caseid, Eocasea represents one of the first transitions from carnivory to herbivory in tetrapods.




Tiny, Prehistoric Animal Hints at Herbivore Origins

By Stephanie Pappas, Senior Writer | April 16, 2014 05:00pm ET

Posted Image
Tiny carnivorous Eocasea martini is the oldest, and smallest, known caseid. In this illustration, the new species sits in the footprint of a much-larger herbivore relative from 30 million years later, Cotylorhynchus.

A newly discovered 300-million-year-old meat-eating mammal ancestor is the oldest known member of a line that gave rise to rhinoceros-size herbivores.

The lizardlike animal, dubbed Eocasea martini, was a caseid. Caseids were a primitive group of synapsids, an umbrella term that includes mammals and their close relatives. Ancient nonmammalian synapsids, including caseids, looked reptilian — the famous fin-backed Dimetrodon was a synapsid — but were an entirely different branch of life from reptiles and birds.

"It's within this side of vertebrate evolution that we have the first plant-eating animals," said study leader Robert Reisz, a paleontologist at the University of Toronto.

The discovery of the new species is important, because E. martini appears to have been a carnivore, Reisz told Live Science. Weighing less than 4.4 lbs. (2 kilograms), the little caseid probably chowed down on insects.

"All other members of this group, the caseids, are plant eaters," Reisz said. This one, the oldest, isn't. We see a transformation within the group from an insectivorous animal to a plant-eating animal."

Waiting to be found

Posted Image
The fossilized skeleton of Eocasea martini, found near Hamilton, Kan.

Reisz and his colleagues identified the new species from a partial skull and skeleton, including most of the backbone and one hind limb. The fossil came from Hamilton Quarry in southeast Kansas, the site of an ancient lagoon famous for plant and fish specimens.

"There are very few terrestrial vertebrates coming out of that locality, but each one has turned out to be very important scientifically," Reisz said.

The specimen that would become E. martini was first found more than two decades ago by paleontologist Larry Martin of the University of Kansas. It sat in storage at the university's Dyke Museum of Natural History for years, until Reisz borrowed it to prepare it for study.

"Nobody paid much attention to it," he said. "It's a tiny little animal."

Once they analyzed the bones, however, Reisz and his colleagues realized they had something unknown. The anatomy revealed the animal was a caseid, but unlike later members of the group, it lacked a barrel-shaped rib cage. A broad rib cage indicates it was a plant eater, because animals that survive on plants need large guts to break down cellulose-rich roughage in leaves and stems.

Original plant eaters

The new species helps illustrate how some animals transitioned from eating insects to eating meat, Reisz said.

"What's really interesting is that this is not the only group that it happened to," Reisz said of the transition to eating plants. "Other groups seem to have been doing this roughly at the time."

And like other groups throughout history, the caseids benefited from the new food sources available to them, he said. Later species grew to the size of modern rhinoceroses, dwarfing little E. martini.

The researchers reported their findings today (April 16) in the open-access journal PLOS ONE.

http://www.sciencedaily.com/releases/2014/04/140416172243.htm




Journal Reference:
Robert R. Reisz, Jörg Fröbisch. The Oldest Caseid Synapsid from the Late Pennsylvanian of Kansas, and the Evolution of Herbivory in Terrestrial Vertebrates. PLoS ONE, 2014; 9 (4): e94518 DOI: 10.1371/journal.pone.0094518

Abstract
The origin and early evolution of amniotes (fully terrestrial vertebrates) led to major changes in the structure and hierarchy of terrestrial ecosystems. The first appearance of herbivores played a pivotal role in this transformation. After an early bifurcation into Reptilia and Synapsida (including mammals) 315 Ma, synapsids dominated Paleozoic terrestrial vertebrate communities, with the herbivorous caseids representing the largest vertebrates on land. Eocasea martini gen. et sp. nov., a small carnivorous caseid from the Late Carboniferous, extends significantly the fossil record of Caseidae, and permits the first clade-based study of the origin and initial evolution of herbivory in terrestrial tetrapods. Our results demonstrate for the first time that large caseid herbivores evolved from small, non-herbivorous caseids. This pattern is mirrored by three other clades, documenting multiple, independent, but temporally staggered origins of herbivory and increase in body size among early terrestrial tetrapods, leading to patterns consistent with modern terrestrial ecosystem.
http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0094518
Edited by Taipan, Apr 20 2014, 09:17 PM.
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