ETSU joins global conversation on bee decline with innovative research
Published 4:48 pm Wednesday, August 14, 2024
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Early in her career, graduate student Skylar Mathieson had a deep interest in medicinal plants, particularly in the hills and mountains of central and southern Appalachia.
“These plants have developed their medicinal purposes for a reason that wasn’t for humans,” she said. “What was the reason?”
That question is powering eye-catching research at East Tennessee State University.
The work is happening under the direction of Dr. Melissa Whitaker, an assistant professor in the Department of Biological Sciences and a respected scientist whose work has centered on plant-insect interactions.
Her team is examining the effects of chemicals that naturally occur in the nectar of some plants, from caffeine to nicotine, on bees.
“We know that dietary caffeine makes some pollinators more alert, more efficient. It improves their memory. It makes them faster learners,” Whitaker said. “So, these compounds act on pollinator brains in very similar ways as they do on the human brain. There might be some parallels that we can draw in terms of the natural history of some of these chemicals.”
Critical to the research has been the work of graduate student Joshua Foley, who helped construct robotic flowers in Brown Hall. Bees interact with the 3D-printed flowers, feeding on artificial nectar in a way they normally would outside a lab.
This research happening at ETSU puts the university in a global conversation about the decline of bees, a species humanity depends mightily on for pollination. Across the world, farmers are having to work much harder to keep crops pollinated as bees die off at troubling speeds.
“It’s really important to understand everything we can about them, as well as these plant-insect interactions,” said Mathieson.
Whitaker has found herself floored by the ingenuity of her graduate students.
“This has been such a hands-on project from the very beginning. We conceived and designed and built this project from the ground up, and with some heavy collaboration from Engineering, Engineering Technology, Interior Architecture and Surveying,” said Whitaker, noting that the research is still in the early stages. “It’s an incredible testament to how critically important graduate students are as the driving engine of research at ETSU.”
From discoveries entirely new to science to books about little-known maladies, this group is part of an ETSU community that regularly generates cutting-edge research.