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Platypus
crab

Fossil crab reveals a new
branch in the tree of life

April 25, 2019

Colombia and the U.S.

By taking on characteristics from another, younger stage in its life-cycle, this fossil crab was probably able to adapt to new conditions.

A new fossil from the dinosaur era challenges the understanding of evolution. In a paper published in Science Advances, an international team, including researchers from the Smithsonian Tropical Research Institute (STRI) in Panama, announced their discovery of a new fossil crab species, Callichimaera perplexa in Boyacá, Colombia, and in Wyoming in the United States.

“This new discovery is one of the most exciting fossil findings in the tropics in the past decade,” said Javier Luque, former predoctoral fellow in staff scientist Carlos Jaramillo’s lab at STRI, now NSERC postdoctoral fellow in the Department of Geology and Geophysics at Yale University. “We discovered a treasure trove of fossil crabs, dozens of exceptionally preserved specimens with eyes, antennae, muscles and reproductive organs.”

Sometimes it is difficult to piece together the tree of life that maps the evolution of the animals seen today. Important pieces in the puzzle may be rare or yet to be discovered. According to the authors, this fossil crab’s unique body form pushes the textbook definition of what a crab is. It has large, unprotected compound eyes, a small body and mouthparts that look like legs. Its large, oar-like legs are the oldest record of adaptations of crabs for swimming.

“This baffling fossil is like the platypus of the crab world,” Luque said. “It is the earliest arthropod to evolve swimming oar-like legs since the sea scorpions disappeared more than 250 million years ago, a beautiful and perplexing chimera, as its name indicates.”

By comparing specimens of the new species with all known crab species, the team discovered several important unique characteristics of this species that sets it apart. The adults have characteristics similar to crab larvae. This would be like an adult human having the disproportionately large eyes of a baby, for example. Because researchers found males and females, they concluded that they were seeing adults, even though they appeared to have many characteristics of an earlier life-stage. The phenomenon of an adult retaining characteristics of a younger form is called pedomorphosis, a way to skip evolutionary steps in order to adapt to a new environment in fewer generations.

“This reveals a new branch in the tree of life that has never been seen before,” said Jaramillo, project advisor.

In addition to the authors affiliated with STRI, authors from the University of Alberta, Edmonton, Yale University, Kent State University, Université de Montreal, the Canadian Parks and Wilderness Society, the Universidad Autonoma de México, Lynn University and the University of Nevada, Las Vegas contributed significantly to this research.

Funding for this study was from the STRI short-term fellowship program; the American Museum of Natural History Lerner Gray grant; the Sedimentary Geology, Time, Environment, Paleoclimatology and Energy Student Travel Award Grant; the Fondo Corrigan-ACGGP-ARES, the Natural Science and Engineering Research Council of Canada Graduate Scholarship; the Izaak Walton Killam Memorial Scholarship; the Andrew Stewart Memorial Graduate Prize; the University of Alberta President’s Doctoral Prize of Distinction; the Devendra Jindal Graduate Scholarship; the Kay Ball Memorial Graduate Student Research Travel Award; and an NSERC Discovery Grant.

Reference: Luque, J., Feldmann, R.M., Vernygora, O. et al. 2019. Exceptional preservation of mid-Cretaceous marine arthropods and the evolution of novel forms via heterchrony. Science Advances. Doi:10.1126/sciadv.aav3875

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