New York (AFP) – Scientists have long posited that the earliest water animals to transition to land had amphibious tadpole features, going through a metamorphosis akin to that of today’s frogs. However, new research published Thursday in the journal Science challenges that conventional assumption. It presents an analysis of rare fossils which scientists say fill knowledge gaps on the development of the creatures that gave rise to the first land-dwelling vertebrates.
The research centers on specimens excavated from the Mazon Creek fossil beds in northern Illinois, southwest of Chicago. This world-renowned site features iron carbonate concretions that formed around 309 million years ago, fossilizing within them ancient creatures that had once thrived in the area’s lush swamps, shallow seas, and river deltas. It is known for its exceptionally well-preserved specimens, including soft tissue.
The new study analyzes dozens of fossils to examine the evolution between fish and tetrapods, or four-legged animals. At the center was a specimen determined to likely be the baby of a crocodile-esque creature known as an embolomere, which lived mostly in the water but did develop small legs.
In its juvenile stage, popular thought would have anticipated it to show tadpole-like features such as external gills, explained Jason Pardo, a research associate at Chicago’s Field Museum and the study’s co-lead author. But to their surprise, it didn’t. The body of the baby — which researchers described as being about the size of a short, narrow macaroni noodle — instead showed evidence of direct development, meaning it was more or less put together in a way similar to adulthood. This finding contrasts with what is typically expected in amphibians, whose metamorphosis from tadpoles into adults involves much more dramatic rearranging and development of organs and limbs.
“We now actually have some direct fossil record evidence,” Pardo told AFP, “that this metamorphosis, this amphibian-like life cycle that we’ve for 150 years assumed was part of our history, turns out that it wasn’t part of that at all.”
John Long, an Australian paleontologist who has also done extensive research in this field, called the study “quite outstanding.” He noted that “not much was known about their early life stages” concerning the animals that gave rise to the first tetrapods. “This detailed work on a bunch of simply glorious fossils confirms that they went straight into a juvenile phase, so didn’t need to go through the tadpole stage.”
Jason Anderson of the University of Calgary acknowledged that the “impressive” paper highlights “the power of fossils to address questions we thought impossible, given they take place in short periods of time and in tissues not normally preserved over hundreds of millions of years.” Both he and Pardo also emphasized that the study underscores that amphibians are remarkable evolutionary creatures in their own right. “Our amphibians, instead of being relicts of earlier stages in the evolutionary history of tetrapods, are themselves highly evolved creatures,” Anderson told AFP.
The fossil serving as the focal point of the study had been in the collections at the Field Museum for a long time when the then-director showed it to paper co-author Arjan Mann, who became enthralled. While both were doctoral students in Canada, Mann and Pardo puzzled over it for years.
Eventual analysis using scanning electron microscopy at the Canadian Museum of Nature allowed researchers to confirm it as a probable embolomere. Throughout their research, the duo analyzed that fossil’s juvenile features along with another smaller embolomere and other species of fossil baby tetrapod relatives. Mann, the Field Museum’s Assistant Curator of Early Tetrapods, noted that their research was made possible by the remarkable discoveries at the Mazon Creek site and the amateur scientists who have combed it for decades, a hobby that over the years has uncovered the specimens analyzed in the paper.
“This paper, in a way, is kind of a love letter to them, that shows the power of what we can do by working together with this community to synthesize really high-impactful new research,” Mann told AFP.
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