“In the past 50 years or so, aquatic invasive species have expanded in the Great Lakes as a tremendous conservation concern, causing billions of dollars’ worth of damage. Both Canadian and American authorities are concerned about the potential impact of these species on the Great Lakes and are very interested in installing barrier technologies in the Niagara River that would slow or stop their spread.” – Nathan Lujan, lead author of the study and a Gerstner Scholar at the American Museum of Natural History
A Report from the American Museum of Natural History
Posted April 29th, 2020 on Niagara At Large
New research shows that fishes on either side of Niagara Falls—one of the most powerful waterfalls in the world—are unlikely to breed with one another.
Knowing how well the Falls serves as a barrier to fish movement is essential to conservation efforts to stop the spread of invasive aquatic species causing ecological destruction in the Great Lakes. The study has been published in the journal Molecular Ecology.
“In the past 50 years or so, aquatic invasive species have expanded in the Great Lakes as a tremendous conservation concern, causing billions of dollars’ worth of damage,” said Nathan Lujan, lead author of the study and a Gerstner Scholar at the American Museum of Natural History.
“Both Canadian and American authorities are concerned about the potential impact of these species on the Great Lakes and are very interested in installing barrier technologies in the Niagara River that would slow or stop their spread.”
For more than 11,000 years since glaciers retreated from North America, most water flowing through the Great Lakes has crossed the Niagara Falls, which has a flow rate <https://phys.org/tags/flow+rate/> of more than 750,000 gallons per second.
There’s one other way water can get through this constriction point: through the Welland navigation canal, which was built about 200 years ago and features a series of locks that bring vessels from one side of the Falls to the other. The canal is relatively small compared to the Niagara River, but questions remain about how significant it and the falls are in allowing fishes to move upstream to downstream, and vice versa.
The leading idea is to install a combination of barrier technologies in the Welland Canal, including electricity, sound, light, and possible physical barriers to inhibit fish movement.
“If you’re going to spend potentially hundreds of millions of dollars on installing barrier technologies and fishes can go right over the falls, then that’s obviously not a good use of resources,” Lujan said. “If people can survive it in a barrel, you’d think a fish could.”
To investigate these questions, Lujan and colleagues examined the DNA of seven native fish species to determine whether populations above and below Niagara Falls interbreed or are reproductively isolated. By gathering data from throughout the fishes’ genomes, they found that populations of all species are genetically distinct on opposite sides of the Falls.
Then they modeled how DNA from different populations mix, and determined that in four species there has been no significant migration past Niagara Falls since the Falls were first formed 11,000 years ago. Two other species showed some indication of migration past the falls, yet the models indicated that no species had migrated past the Falls via the Welland Canal.
“These results should reassure policymakers that infrastructure being considered to prevent the movement of invasive aquatic species will not impact native species, and that the Falls themselves are an effective barrier to both upstream and downstream movement of aquatic species <https://phys.org/tags/species/>,” Lujan said. “Additional measures to prevent fish <https://phys.org/tags/fish/> movement can safely be restricted to the Welland Canal.”
Explore further –
Student maps Niagara’s invasive species <https://phys.org/news/2019-10-student-niagara-invasive-species.html>
More information: Nathan K. Lujan et al, Is Niagara Falls a barrier to gene flow in riverine fishes? A test using genome-wide SNP data from seven native species, Molecular Ecology (2020). DOI: 10.1111/mec.15406 <http://dx.doi.org/10.1111/mec.15406>
Provided by American Museum of Natural History <https://phys.org/partners/american-museum-of-natural-history/> <http://www.amnh.org/home/?src=toolbar>
About the Museum – The American Museum of Natural History is one of the world’s preeminent scientific and cultural institutions.
Since its founding in 1869, the Museum has advanced its global mission to discover, interpret, and disseminate information about human cultures, the natural world, and the universe through a wide-ranging program of scientific research, education, and exhibition.
The Museum is renowned for its exhibitions and scientific collections, which serve as a field guide to the entire planet and present a panorama of the world’s cultures.
For more information from the American Museum of Natural History, click on – https://www.amnh.org/
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