Protecting a Threatened Crayfish

Protecting a Threatened Crayfish

About half of the roughly 440 crayfish species native to North America are considered in need of protection, primarily due to the spread of invasive crayfish.

University of Arkansas students collect Mammoth Spring crayfish at the Spring River in north Arkansas

University of Arkansas students examine Mammoth Spring crayfish at the Spring River in north Arkansas. | Bailey Stein, University of Arkansas

That’s why a team of graduate students led by faculty in the Arkansas Cooperative Fish and Wildlife Research Unit in the Department of Biological Sciences spent the summer studying the Mammoth Spring crayfish in the Ozark Highlands of Arkansas and Missouri.

The Mammoth Spring crayfish is native to the Spring River drainage but is being threatened by the invasive ringed crayfish, which is native to the White River drainage but not native to the Spring River drainage.

The results of the study will provide information on crayfish population dynamics and invasion status for the state agencies and the U.S. Fish and Wildlife Service, which are all responsible for managing the freshwater resources in the Ozarks. It will also include a genetic study of the Mammoth Spring crayfish, which will determine whether it is a single species or multiple species.

“We know that Orconectes neglectus – the ringed crayfish – entered the Spring River drainage between the mid-1980s and late 1990s,” said Allyson Yarra, a biology master’s student who is involved with the study. “The ringed crayfish has already negatively influenced a large proportion of the native crayfish community in this region. We’re focused on Orconectes marchandi – the Mammoth Spring crayfish – because it is one of the native species of greatest conservation need.

“The Mammoth Spring crayfish are considered imperiled in Arkansas and Missouri,” she said. “It is important for us to understand the population status, population genetics and potential isolation of the Mammoth Spring crayfish. If there is little genetic diversity and gene flow and a great deal of isolation among sub-populations, this could lessen the crayfish’s capability to withstand invasion.”

A student collects a tissue sample from an appendage that will regenerate

A student collects a tissue sample from an appendage that will grow back.

Last year, the Arkansas Game and Fish Commission awarded $80,208 for the study to Dan Magoulick, a research professor in the Arkansas Cooperative Fish and Wildlife Research Unit.

Magoulick’s research team, in collaboration with the Missouri Department of Conservation, has visited about 30 sites across the Spring River drainage. At each site, the team collected and took tissue samples from 20 Mammoth Spring crayfish.

“After analyzing the tissue samples, we will have more information about the health of the Mammoth Spring crayfish population and the likelihood of their persistence in the Spring River drainage in the face of an invader,” Yarra said. “This information is especially important for future conservation decisions related to our most imperiled crayfish species.”

About The Author

Chris Branam writes about research and economic development at the University of Arkansas. His beats include the Arkansas Research and Technology Park, the Department of Biological Sciences and the Department of History.

University Relations Science and Research Team

University Relations Science and Research Team

Matt McGowan
science and research writer
479-575-4246, dmcgowa@uark.edu

Robert Whitby
science and research writer
479-387-0720, whitby@uark.edu

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