Crowds gather for Ocean Discovery Day at UNH
Published: Tuesday, September 24, 2013
Updated: Tuesday, September 24, 2013 02:09
Families, students and staff disappeared into billowing white tents as they toured the inside of the Chase Engineering Lab to discover new technologies, sea-floor mapping and the curriculum that students are studying as part of Ocean Discovery Day.
On Saturday, Sept. 21, people were scattered about the Chase Ocean Engineering Lab on the UNH campus, as well as the Jackson Estuarine Laboratory five miles from campus.
While children could engage in fish printing, experience 3-D sandbox topography or look at horseshoe crabs in the Chase Ocean Engineering Lab, Lesley Gardener, marine docent, saw an even bigger picture.
“We try to do a lot of education with real fish,” Gardener said.
Gardener stood at the fish printing station, helping small children paint fish and then apply their prints to T-shirts. The children could use molds or use real flounder for their prints.
“Education with real fish” is exactly what Ocean Discovery Day gave its audience. Guests were allowed to tour inside the lab, look at WindVis2 weather viewer screens, see a 20-foot-deep water tank for testing engineered machines, and experience a telepresence room.
“We host Ocean Discovery Day so that, not only does it give us a chance to show off and celebrate all of the exciting research that we’re doing here at UNH, but also to introduce the students to all of the ocean-related careers that may await them,” Tara Hicks-Johnson, outreach specialist, said. “There’s a lot going on in the ocean sciences, and we’re excited to share it with everyone.”
Undergraduate students, doctorate students and staff set up informational booths outside of the lab and answered questions from 10 a.m. to 3 p.m.
Sarah Tierney is a senior environmental conservation and sustainability major. She sat next to a poster and what appeared to be a clear container of a lump of soil with yellow sticks jutting into it.
“I’m doing an independent research project with professor Dave Burdick through the Jackson lab at Adam’s Point,” Tierney said. “I’m studying salt marshes and how climate change is affecting them. I monitored various long-term monitoring sites throughout New Hampshire and Maine and measure them either with a SET [Surface Elevation Table model] or by putting a marker horizon in using Feldspar.”
Graduate student Matt Coyle is interested in an entirely different topic: bacteria.
Coyle sat at his table with a small 3-D diagram of glowing bacteria with gold plastic beads and a stuffed-animal squid for his younger audience members. But when it came to his older audiences, Coyle was able to eloquently explain his research, as he just finished his first year towards his doctorate degree.
“When these bacteria get together, they make light in the same way that a firefly would make light,” Coyle said.
Together, the bacteria find a home on the underside of a squid to form a symbiotic – or mutually beneficial – relationship. Consequently, the nocturnal squid is protected from predators that look for its shadow because the light-forming bacteria effectively remove said shadow.
“I’m specifically interested in the evolutionary process of the symbiosis,” Coyle said. “Most of the time we associate bacteria as problems and causes of disease and that’s usually not the case. … I’m really interested in why certain bacteria partner up and what limits them in partnerships, how they could potentially develop new partnerships.”
If one ventured inside the lab on Ocean Discovery Day, he or she would find signs that guided him or her to different stations, including a station with weather mapping.
At the end of one hallway, there was what appeared to be an average classroom, save for the monitors and computers covering the walls.
According to Adam Skarke, a physical scientist at the National Oceanic and Atmospheric Administration Office of Ocean Exploration and Research, the purpose of the telepresence room is to connect to ships at sea. It provides an opportunity to get live feed from the Remotely Operated Vehicle (ROV) on the ship and to speak to people on board. In essence, it’s like being on the ship.
At NOAA, Skarke coordinates ship expeditions and works on seafloor mapping.
“The mission of these ships is to go out where no one’s been before and find out what’s there,” Skarke said.
On an expedition, the crew might stop the ship if they think they’ve found something interesting. Then, they can send down a ROV that has movie-quality cameras and mechanical arms to pick things up. From there, the ship receives live feed from the ROV camera, Skarke said.