While swarms of flying insects may have little appeal for most people, USGS biologist Thomas Edsall says the clouds of burrowing mayflies emerging from western Lake Erie this summer are a welcome sign of an ecosystem in recovery.
"They're telling us that the water's clean out there," Edsall says.
Burrowing mayflies are large aquatic insects that spend most of their lives -- about two years -- in their larval form, living in shallow bottom sediments of lakes. On the bottom of western Lake Erie, larval mayflies -- known as nymphs -- once numbered in the hundreds per square meter. But populations decreased dramatically in the 1950s due to deteriorating water quality, and throughout most of the next three decades burrowing mayflies were virtually absent from their former Great Lakes habitat.
For the last five years, however, a remarkable recovery has been under way. Edsall and his colleagues at the USGS Great Lakes Science Center report that nymphs in western Lake Erie have increased from near zero to numbers approaching those of the early twentieth century.
Edsall says the mayfly recovery is a strong sign that improvements in water quality, which have been taking place since the 1970s, have resulted in a healthier, more normally functioning ecosystem. "This is a real tribute to the EPA's enforcement of water pollution control laws, such as the Clean Water Act and U.S. and Canadian cooperation through the Great Lakes Quality Agreement," he says.
USGS and Canadian biologists have used several different methods to determine the past distribution and abundance of burrowing mayflies in Lake Erie and to understand how the insects have responded to different forms of water and sediment of contamination. Sediment core samples, dating back to about 1740, contain jaw parts and other preserved remains that provide a continuous record of burrowing mayfly densities in different regions of the lake. Other information comes from periodic sampling of nymph populations, which began in 1930, and from records of the incidence of mayflies in fish stomachs.
In the western-most end of the lake, USGS biologists Bruce Manny and Donald Schloesser have found that contamination of bottom sediments by oil and metals was the main factor in eliminating burrowing mayfly populations. New clean water standards have greatly reduced the amount of such contaminants released into the lake. Meanwhile the steady, natural accumulation of lake sediments has finally buried the toxins lining the lake bottom a few decades ago, creating a habitat that is again suitable burrowing mayflies.
Edsall says the massive declines of the 1950s were brought about by a combination of factors. Deep-water areas in central Lake Erie became periodically depleted of oxygen due to the decomposition of algae that had accumulated as a result of sewage and fertilizers entering the lake. This oxygen-deprived water sometimes moved into adjacent shallow areas occupied by nymphs, causing mass die-offs.
The recovery of this one species may be good news for the entire Lake Erie ecosystem, says Edsall. Burrowing mayflies play an important role in maintaining the transfer of energy and nutrients across different levels of aquatic food webs, and their burrowing activity re-suspends buried nutrients into the water, which fuels the growth of aquatic plants. Nymphs feed on decaying plant matter, and both nymphs and flying adults are preyed upon by various species of fish, including species such as yellow perch that are important in commercial and recreational fisheries.
"From a fisheries perspective, burrowing mayflies are really important because they're a huge food resource," says Edsall. "They have a high energy content, which makes them prime fish food."
Even though the insects are only available in large numbers during the two- to three-week period each year when nymphs rise to the surface and hatch into winged adults, this brief super-abundance of food can make a critical difference in determining whether or not fish grow and reproduce. Yellow perch in Lake Erie have been in low abundance since the 1950s, when the burrowing mayfly population declined. Edsall is hopeful that the mayfly recovery will spark a similar recovery in the perch population.
Edsall acknowledges that for a few weeks every summer the burrowing mayfly hatch can be a nuisance for boaters and lakeshore residents, and that the mayflies make fishing a hopeless endeavor. But that may be a small price to pay for a cleaner, healthier lake environment.
As the nation's largest water, earth and biological science and civilian mapping agency, the USGS works in cooperation with more than 2000 organizations across the country to provide reliable, impartial, scientific information to resource managers, planners, and other customers. This information is gathered in every state by USGS scientists to minimize the loss of life and property from natural disasters, contribute to the sound conservation, economic and physical development of the nation's natural resources, and enhance the quality of life by monitoring water, biological, energy and mineral resources.
This press release and in-depth information about USGS programs may be found on the USGS home page: www.usgs.gov. To receive the latest USGS news releases automatically by email, send a request to listproc@listserver.usgs.gov. Specify the listserver(s) of interest from the following names: water-pr: geologic-hazards-pr; biological-pr; mapping-pr; products-pr; lecture-pr. In the body of the message write: subscribe (name of listserver) (your name). Example: subscribe water-pr joe smith.
News Release
U.S. Department of the Interior
U.S. Geological Survey
Biological Resources Division
National Center
Reston, Va. 20192
Release Contact:
John Gannon 734-214-7237; 734-214-7201(f)john_e_gannon@brd.usgs.gov
Catherine Haecker 703-648-4283; 703-648-4042(f) catherine_haecker@usgs.gov