News Release

Long-sought fossil mammal with transitional middle ear found

Fossil from China suggests mammalian ear of monotremes evolved separately from that of marsupials and placentals

Peer-Reviewed Publication

American Museum of Natural History

Transitional Middle Ear

image: Liaoconodon hui skull from the ventral side showing (l to r) the bony ring that holds the ear drum, ossified Meckel’s cartilage, and the lower jaw view more 

Credit: Meng, et al 2011 (<i>Nature</i>)

Paleontologists from the American Museum of Natural History and the Chinese Academy of Sciences announce the discovery of Liaoconodon hui, a complete fossil mammal from the Mesozoic found in China that includes the long-sought transitional middle ear. The specimen shows the bones associated with hearing in mammals— the malleus, incus, and ectotympanic— decoupled from the lower jaw, as had been predicted, but were held in place by an ossified cartilage that rested in a groove on the lower jaw. The new research, published in Nature this week, also suggests that the middle ear evolved at least twice in mammals, for monotremes and for the marsupial-placental group.

"People have been looking for this specimen for over 150 years since noticing a puzzling groove on the lower jaw of some early mammals, " says Jin Meng, curator in the Division of Paleontology at the Museum and first author of the paper. "Now we have cartilage with ear bones attached, the first clear paleontological evidence showing relationships between the lower jaw and middle ear."

Mammals—the group of animals that includes egg-laying monotremes like the platypus, marsupials like the opossum, and placentals like mice and whales—are loosely united by a suite of characteristics, including the middle ear ossicles. The mammalian middle ear, or the area just inside the ear drum, is ringed in shape and includes three bones, two of which are found in the joint of the lower jaw of living reptiles. This means that during the evolutionary shift from the group that includes lizards, crocodilians, and dinosaurs to mammals, the quadrate and articular plus prearticular bones separated from the posterior lower jaw and became associated with hearing as the incus and malleus.

The transition from reptiles to mammals has long been an open question, although studies of developing embryos have linked reptilian bones of the lower jaw joint to mammalian middle ear bones. Previously discovered fossils have filled in parts of the mammalian middle-ear puzzle. An early mammal, Morganucodon that dates to about 200 million years ago, has bones more akin to a reptilian jaw joint but with a reduction in these bones, which functioned for both hearing and chewing. Other fossils described within the last decade have expanded information about early mammals—finding, for example, that ossified cartilage still connected to the groove was common on the lower jaws of early mammals. But these fossils did not include the bones of the middle ear.

The new fossil described this week, Liaoconodon hui, fills the gap in knowledge between the basal, early mammaliaforms like Morganucodon, where the middle ear bones are part of the mandible and the definitive middle ear of living and fossil mammals. Liaoconodon hui is a medium-sized mammal for the Mesozioc (35.7 cm long from nose to tip of tail, or about 14 inches) and dates from 125 to 122 million years. It is named in part for the bountiful fossil beds in Liaoning, China, where it was found. The species name, hui, honors paleontologist Yaoming Hu who graduated from the American Museum of Natural History-supported doctoral program and recently passed away. The fossil is particularly complete, and its skull was prepared from both dorsal and ventral sides, allowing Meng and colleagues to see that the incus and malleus have detached from the lower jaw to form part of the middle ear. These bones remain linked to the jaw by the ossified Meckel's cartilage that rests in the groove on the lower jaw. The team hypothesizes that in this early mammal, the ear drum was stabilized with the ossified cartilage as a supporting structure.

"Before we did not know the detailed morphology of how the bones of the middle ear detached, or the purpose of the ossified cartilage," says Meng. "Liaoconodon hui changes previous interpretations because we now know the detailed morphology of the transitional mammal and can propose that the ossified cartilage is a stabilizer."

Also presented in the new research paper is a detailed phylogenetic analysis of some features of living and fossil mammals. Looking at features associated with bones and the groove on the lower jaw, which indicated the presence of ossified Meckel's cartilage, it appears that the middle ear probably evolved twice, in monotremes and in placentals and marsupials.

"I've always dreamed of a fossil with a good ear ossicle," says Meng. "Now, we have had this once in a lifetime discovery."

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In addition to Meng, authors of the paper include Wang Yuanqing and Li Chuankui, both of the Institute of Vertebrate Paleontology and Paleoanthropology, Chinese Academy of Sciences in Beijing. The research (doi:10.1038/nature09921) was funded by Major Basic Research Project of the Ministry of Science and Technology, China, the National Science Foundation of China, the Special Fund for Fossil Excavation and Preparation of the Chinese Academy of Sciences, and the National Science Foundation of USA.


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