Heritage College researchers on quest for Antarctic dinos and other animals

Feb 1, 2016

(ATHENS, Ohio – Feb. 1, 2016) This month a team of international researchers, including an anatomy expert from the Ohio University Heritage College of Osteopathic Medicine, will journey to Antarctica to search for evidence that the now-frozen continent may have been the starting point for some important species that roam the Earth today. The expedition is part of the Antarctic Peninsula Paleontology Project, or  AP3, a research initiative funded by the National Science Foundation.

Millions of years ago, Antarctica was a warm and lush environment ruled by dinosaurs and inhabited by a great diversity of life. It may have even been the place where some animals that are important in today’s ecosystems got their start. But today, the fossils that could reveal what prehistoric life was like are mostly buried under the ice of the harsh landscape.

“The role played by Antarctica in the evolution of plants and animals in the past remains one of the big unknowns in Earth history—and this larger question is what drives us to the southern end of the planet,” said Patrick O'Connor, Ph.D., a professor of anatomy and expert on birds and non-avian dinosaurs at the Heritage College. “What also makes this trip exciting is that we have assembled a fantastic team of scientists and students with diverse areas of expertise and have logistical support, such as helicopters, that can take us places that have not been explored in the past. This exemplifies frontier paleontology.”

O’Connor and Ohio University doctoral student Eric Gorscak along with paleontologists from Carnegie Museum of Natural History, The University of Texas at Austin, Ohio University and the American Museum of Natural History will travel to the icy continent to help fill gaps in scientists’ understanding about how large-scale climate changes millions of years ago affected plant and animal communities in Antarctica and the region’s contribution to the evolution of plants, animals and ecosystems. Other collaborators include scientists from museums and universities across the U.S., Australia and South Africa.

The team will provide regular updates about the expedition through their blog on antarcticdinos.org  and on Twitter @antarcticdinos. There will also be opportunities to interact and ask the team questions through social media while they are in Antarctica.

The month-long expedition begins Feb. 2, when the team arrives in Chile en route to Antarctica. Aided by helicopters and zodiac inflatable boats, scientists will conduct research on James Ross Island and other nearby islands off the tip of the Antarctic Peninsula, one of the few spots on Antarctica where fossil-bearing rocks are accessible.

“Ninety-nine percent of Antarctica is covered with permanent ice,” said Matthew Lamanna, Ph.D., paleontologist and assistant curator at the Carnegie Museum. “We’re looking for fossils of backboned animals that were living in Antarctica at the very end of the Age of Dinosaurs, so we can learn more about how the devastating extinction that happened right afterward might have affected polar ecosystems.”

The team is specifically searching for fossils from the Cretaceous through Paleogene, a period roughly 100 million to 40 million years ago that includes the end of the Age of Dinosaurs and the beginning of the Age of Mammals. Among the questions the team hopes to answer: Did Antarctica play a critical part in the origins of certain modern bird and mammal groups, or was the evolution of species there more similar to what was happening in other parts of the world?

During a previous expedition to the same area by Argentine investigators, a fossil of a new genus and species of bird was discovered that indicates Antarctica may have been an especially important place for bird evolution. The bird, a close relative of modern ducks and geese, is the only known example of a bird belonging to a modern group that lived alongside non-avian dinosaurs. Before the discovery, many scientists thought that most modern bird groups evolved after non-avian dinosaurs went extinct.

“It’s impossible not to be excited to reach remote sites via helicopter and icebreaker to look for dinosaurs and other life forms from over 66 million years ago,” said Julia Clarke, Ph.D., a professor and paleontologist at the UT Austin Jackson School of Geosciences. “The Earth has undergone remarkable changes, but through all of them, life and climate and geologic processes have been linked. A single new discovery from this time period in the high southern latitudes can change what we know in transformative ways.”

Clarke, who led the research on the new bird species, is one of the many veteran Antarctic scientists on the expedition. Ross MacPhee, Ph.D., a curator and professor at the American Museum of Natural History, will also be returning to the continent.

"What I hope to achieve this time is to discover the first evidence of mammals in the Cretaceous of Antarctica, species that lived at the end of the Age of Dinosaurs,” MacPhee said. “If we can find them, they will have a lot to tell us about whether any evolutionary diversifications took place in Antarctica, and whether this was followed by species spreading from there to other portions of the ancient southern supercontinent Gondwana."

In addition to paleontologists, the research team includes geologists who will survey the fossil-bearing rocks to help decipher what the Antarctic environment was like at the end of the Cretaceous and the beginning of the Paleogene. During an expedition in 2011, Eric Roberts, a geologist from James Cook University in Australia, discovered evidence that the rocks on Vega Island may date to the Cretaceous–Paleogene boundary. If so, it would be one of the few Antarctic examples of rocks laid down during the time of the asteroid impact 66 million years ago that killed all non-avian dinosaurs.

The team will be using the U.S. research vessel R/V Nathaniel B. Palmer to reach the James Ross Island area.

About the Heritage College

The Ohio University Heritage College of Osteopathic Medicine is a leader in training dedicated primary care physicians who are prepared to address the most pervasive medical needs in the state and the nation. Approximately 50 percent of Heritage College alumni practice in primary care and nearly 60 percent practice in Ohio. CARE LEADS HERE.