Release Date: November 12, 2018 This content is archived.
BUFFALO, N.Y. — Freshwater mussels are among the most imperiled animals in North America, yet some colonies have managed to persevere despite habitat loss, pollution and other threats.
How? That’s a question University at Buffalo researchers are working to answer.
A recent analysis of two creeks — one within the Great Lakes watershed, the other part of the Mississippi River basin — adds to the growing body of work showing stable populations and multiple generations of freshwater mussels in the same location for decades.
The work, described in the journal Freshwater Biology in August, and continuing with ongoing experiments, offers possible explanations into how these poorly understand and ecologically important mollusks are adapting to changes in their environment.
“The United States has an unparalleled collection of freshwater mussels. Yet many are endangered or threatened. Some species have been declared extinct. We’d like to know how certain species persist and why others struggle,” says lead author Brandon Sansom, a PhD candidate in the Department of Civil, Structural and Environmental Engineering in UB’s School of Engineering and Applied Sciences.
Co-authors of the Freshwater Biology study include Sean Bennett, PhD, professor and chair of the Department of Geography in UB’s College of Arts and Sciences; Joseph Atkinson, PhD, professor and chair of the Department of Civil, Structural and Environmental Engineering; and Caryn Vaughn, PhD, George Lynn Cross Research Professor at the University of Oklahoma.
Field work
North America has roughly 300 species of freshwater mussels. They play important ecological roles, including purifying water through filter-feeding and serving as a food source for fish and other aquatic wildlife.
Many are listed as endangered, while others are threatened. Reasons vary from habitat loss, pollution and declining populations of fish, which help the sedentary bivalve reproduce by serving as a host and carrier of fertilized eggs.
To conduct the study, the research team analyzed mussel populations in Tonawanda Creek, which is part of the Erie Canal and empties into the Great Lakes near Buffalo, New York. The team also surveyed French Creek, which runs from Western New York into the Allegheny River, part of the Mississippi River drainage basin.
At each creek, researchers observed 21 species. The diversity and abundance were about the same as surveys conducted nearly 20 years prior. In the study, the researchers note there are similar, long-sustained populations in the South, Midwest, Northeast and West regions of the United States.
Mussels adapt to changing environments
Previous research has shown that mussels adapt to changing environments. They can shift their position to be parallel with the river flow, burrow deep into the river floor and find shelter behind large rocks.
To better understand how the mussels surveyed have managed to endure, the research team ran computer models simulating the animals’ environment.
Specifically, the researchers tested the long-running hypothesis that, in order to thrive, mussels require water with relatively stable amounts of sediment — the loose clay, sand, gravel, and other soil particles that settle at the bottom of river beds. But the simulations indicated otherwise, that mussels can survive frequent flow events in which sediment is displaced from the river bed and transported downstream.
While not reported in the study, Sansom and colleagues have begun another simulation experiment. Working with UB’s College of Arts and Sciences’ machine shop, the team built a 24-foot long flume of recirculating water. It contains hundreds of imitation mussels that “filter” water via plastic tubing.
Preliminary findings suggest that mussel density and shell roughness play roles in keeping mussel beds at steady population levels, Sansom says.
The research was funded in part by the Mark Diamond Research Fund of the Graduate Student Association of UB, the State University of New York system and the National Science Foundation.
Cory Nealon
Director of Media Relations
Engineering, Computer Science
Tel: 716-645-4614
cmnealon@buffalo.edu
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