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Uncovering Secrets in the Salt Marshes
Associate Professor of Biology Peter Fields (right) and Bill Gao ’11 examine data at a light table in a laboratory at the Barshinger Life Sciences & Philosophy Building.
As research subjects go, Geukensia is hardly charismatic. Or photogenic. But what these sturdy white mussels that live in the salt marshes of the New Jersey Shore contribute to science is fascinating.
What makes Geukensia scientifically significant is how it manages to thrive in one of the harshest environments on Earth—the intertidal zone. Inhabiting this area, which ranges from the lowest low tide to the highest high tide, the species must adapt to being both submerged and exposed. Sometimes it has access to oxygen, other times it doesn’t.
It is this ability to survive a challenging habitat that caught the interest of Associate Professor of Biology Peter Fields. “Generally, my research interests are in how organisms survive in extreme environments,” Fields says. “In the past, I’ve looked at animals that live in Antarctica, Mexico and the Galapagos. What I’d like to get are general rules and principles that will help us to understand why some species can survive in certain places that almost no other species could survive in. And I go at that from a biochemical level.”
Thanks to a $200,000 grant from the National Science Foundation, Fields has the funding to enable him to bring F&M students on board to participate in his investigations. This summer, Elizabeth Burmester ’10, Rudy Clausen ’10 and Bill Gao ’11 are assisting by exposing the organisms to different forms of stress in the laboratory in order to measure their biochemical response.
“We’re trying to sort out whether the biochemical response is similar, independent of the kind of stress they experience,” says Fields, pointing out that the students are now handling almost all of the work in the lab. Students expose the organisms to varying levels of heat, salinity or oxygen, and then they conduct dissections to extract the proteins of interest.
Using specialized software, they measure changes in proteins in response to specific stressors. Students also use advanced biochemistry techniques, including 2-D gel electrophoresis and mass spectrometry. “What they’re doing is really pretty advanced and takes a good bit of training and a good bit of effort on their part,” Fields says.
The findings of this research may ultimately contribute to our understanding of the ability of organisms to survive in the face of human-induced stresses, including climate change. The students involved in this ongoing research will have the opportunity to co-author peer-reviewed articles and present their results at national meetings.
“It’s quite unusual for students to be able to get this kind of opportunity at the undergraduate level, using the high-end instrumentation that we have here at F&M,” Fields says. “A major goal of the project is student training and student experiences in research, so I wrote the grant trying to include students as much as possible.”