Stony Brook University Professor Shows Re-Evolution Of Lost Teeth In Frogs After More Than 200 Million Years
John J. Wiens, Ph.D., found that a lost trait can re-evolve after being absent for hundreds of millions of years despite an evolutionary law stating that lost structures should not re-evolve
John J. Wiens, Ph.D., a professor in the Department of Ecology and Evolution, studied the evolution of teeth on the lower jaw in frogs. He combined data from modern frogs, fossils and DNA sequences and utilized new statistical methods to show that frogs lost their teeth on the lower jaw more than 230 million years ago, but that these teeth re-evolved in a single frog species ( Gastrotheca guentheri ) within the past 20 million years. This means that mandibular teeth were absent for more than 200 million years before re-evolving in Gastrotheca guentheri . Gastrotheca guentheri is a “marsupial” treefrog from Colombia and Ecuador, a species in which females carry their eggs in a pouch on their backs.
The study provides strong evidence against “Dollo’s law,” the idea that a complex trait that is lost during evolution will not re-evolve again. Dollo’s law has been controversial among evolutionary biologists. Some scientists have argued that there are now several examples where complex structures have been lost and regained, such as wings in stick insects, coiling in snail shells, and fingers and toes in lizards. Other scientists have suggested that these examples may be invalid. “The study of teeth in frogs provides very strong evidence for re-evolution of lost structures, and is unusual in showing that this re-evolution can happen after hundreds of millions of years,” Dr. Wiens said.
This study also suggests how a trait can re-evolve after such a long absence, a mechanism that Wiens calls a “loophole” in Dollo’s law. “Even though teeth are absent on the lower jaw in almost all frogs, they are generally present on the upper jaw,” Dr. Wiens said. “So the mechanisms for developing teeth are present in most frogs and did not have to re-evolve in Gastrotheca guentheri in order for teeth to re-appear on the lower jaw.” This type of "loophole" may apply to many other cases in which traits appear to re-evolve, such as in the re-evolution of lost fingers and toes in lizards, he said.
Dr. Wiens received his Bachelor’s degree from the University of Kansas in 1991 and his Ph.D. from the University of Texas at Austin in 1995. From 1995-2002 he was a curator of reptiles and amphibians at the Carnegie Museum of Natural History in Pittsburgh. He has been a professor in the Department of Ecology and Evolution at Stony Brook University since 2003. He has published more than 100 scientific papers on evolution, ecology and the biology of reptiles and amphibians.
Other recent papers include:
Wiens, J. J., C. A. Kuczynski,T. Townsend, T. W. Reeder, D. G. Mulcahy, and J. W. Sites, Jr. 2010. Combining phylogenomics and fossils in higher-level squamate reptile phylogeny: molecular data change the placement of fossil taxa. Systematic Biology 59:674–688.
Wiens, J. J., J. Sukumaran, R. A. Pyron, and R. M. Brown. 2009. Evolutionary and biogeographic origins of high tropical diversity in Old World frogs (Ranidae). Evolution 63:1217–1231.
About Stony Brook University
Part of the State University of New York system, Stony Brook University encompasses 200 buildings on 1,450 acres. In the 53 years since its founding, the University has grown tremendously, now with nearly 24,700 students and 2,200 faculty and is recognized as one of the nation’s important centers of learning and scholarship. It is a member of the prestigious Association of American Universities, and ranks among the top 100 national universities in America and among the top 50 public national universities in the country according to the 2010 U.S. News & World Report survey. One of four University Center campuses in the SUNY system, Stony Brook University co-manages Brookhaven National Laboratory, joining an elite group of universities, including Berkeley, University of Chicago, Cornell, MIT, and Princeton that run federal research and development laboratories. SBU is a driving force of the Long Island economy, with an annual economic impact of $4.65 billion, generating nearly 60,000 jobs, and accounts for nearly 4% of all economic activity in Nassau and Suffolk counties, and roughly 7.5 percent of total jobs in Suffolk County.
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