A key piece of evidence proving how
dinosaurs evolved into modern-day birds could soon be studied across the world.
University of South Florida biologist Ryan Carney, PhD, MPH, MBA, has created interactive holograms of
dinosaurs, including the Archaeopteryx, which
is believed to be the missing link in understanding the origin of birds and flight.
Only 12 fossils have been discovered, all in Germany. His work is so groundbreaking that the National Geographic Society just named Carney one of 14 inspiring and gifted scientists on its list of 2017 Emerging Explorers.
Carney, a USF assistant professor of digital science with expertise in evolutionary biology and epidemiology, digitizes fossils
using X-ray, lasers and photogrammetry, then brings them “back to life” with
computer animation. Using virtual reality and augmented reality,
paleontologists and students could interact with the dinosaurs in 3D, allowing
them to better understand their anatomy and motion without having to travel to
technologies are also integrated into Carney’s Digital Dinosaurs course at
the University of South Florida’s Center for Virtualization & Applied
Spatial Technologies (CVAST) and Integrative Biology Department. Students use
the same techniques to visualize, animate, and 3D print specimens for research
and educational purposes, helping foster enthusiasm for STEM fields.
Carney is the first faculty member at the University of South Florida to receive the honor of National Geographic Emerging Explorer, a distinction that comes with $10,000 for research and exploration. This
prestigious award recognizes those who are already making a difference and
changing the world.
In June, he will present a TEDx-style talk titled "Digital Science, from Archaeopteryx to Zika" at the National Geographic Society headquarters in Washington, DC.
USF's Ryan Carney, PhD, MPH, MBA, uses innovative 3D imaging and geographic technologies to research and teach about dinosaurs and diseases, from Archaeopteryx to Zika.
National Geographic also cited Carney's innovative epidemiological research in selecting him to join the society's trailblazing Emerging Explorers. Carney uses geographic technologies to help predict and prevent epidemics of mosquito-borne diseases. Ongoing work includes developing software for detecting Zika outbreaks, which he says will be made freely available worldwide in the fight against this pandemic.
"My epidemiology research focuses on surveillance and control of mosquito-borne diseases, particularly the flaviviruses like Zika, dengue and West Nile," said Carney, who collaborates with researchers at the USF College of Public Health. "Given that there are no cures or vaccines yet available, prevention and abatement are the only solutions for containing outbreaks. With that goal, my work leverages technologies like GIS and the DYCAST early warning system as powerful tools for fighting disease -- from predicting epidemics to the strategic targeting of control efforts."
For more about Carney's work, visit ryancarney.com.
Story by Tina Meketa and Anne DeLotto Baier