Wednesday, October 31, 2007

Modern Mammalian Heterodonty Arose at Least Twice


A newly discovered species of fossilized mammal from the Jurassic era shows that the basic tooth template shared by all mammals today evolved independently at least twice in the past.

The find also adds to a growing body of evidence suggesting that early mammals were much more diverse than previously thought.

Fossilized skeletal remains of the new species, Pseudotribos robustus, were found recently in 165-million-year-old lakebeds in the Inner Mongolia region of northern China. (See a map of the find location.)

From the creature's build and makeup, paleontologists believe that the 4.7-inch-long (12-centimeter-long) creature was a very strong digger that ate insects and plants.

But the biggest news is its choppers.

"This thing is very advanced in terms of its tooth structure," said Richard Cifelli, a paleontologist at the University of Oklahoma in Norman, who was not part of the study.

"It has departed considerably from the ancestral pattern where it could only cut up things; now it can grind things up."

This is the same dental adaptation that is believed to have blossomed in today's mammal lineages. The advent of the cut-and-grind tooth is generally considered the driver for the vast diversity of mammals alive today.

But since Pseudotribos robustus belongs to a different and long-lost lineage, it must have evolved the cut-and-grind tooth independently.

[...]

The finding also suggests that early mammals were beginning to diversify much earlier than previously thought.

The first two-thirds of mammalian history takes part in the age of the dinosaurs. During that time it has been thought that mammals remained in much the same form: small, furry, nocturnal, insect-eating animals that skirted around dinosaurs.

"Our general view of what happened is that they didn't really go into any extravagant ecological niches until dinosaurs became extinct," Cifelli said. "Now we're finding that wasn't the case."

Previous fossil finds at the same lakebed show that mammals were already gliding around and swimming as far back as about 165 million years ago.

Along with the new find, the discoveries suggest that mammals underwent tremendous diversification during the middle of the Jurassic period, Cifelli said.

"We're seeing a host of skeletal adaptations that say, hey, mammals were doing these wild and crazy things—they weren't just lying around in their little hidey holes," he added.

"[Pseudotribos robustus] helps to show that the earliest mammals coexisted with the dinosaurs are far more diverse than we ever have imagined," study author Luo said.

I find it interesting that the mammals were very quickly diversifying in the Jurassic too. Were they doing the rebound thing like the dinosaurs were after the Late Triassic Mass Extinction? Or was it that new forms of complexity were enabled with some evolutionary breakthrough? Perhaps one that's not even in the vertebrates at all? Perhaps in the plants?

2 comments:

  1. Awesomeness! What journal can I find that in, brother?

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  2. This week's Nature.

    This lake seems to be very productive for Jurassic mammalian fossils. It's the source of the beaver-esque critter and that glider that was reported as well.

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