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Brazner, J.C., D.K. Tanner, D.A. Jensen, and A. Lemke, 1998. Relative Abundance and
Distribution of Ruffe (Gymnocephalus cernuus) in a Lake Superior Coastal Wetland
Fish Assemblage, US EPA.
Reprinted from Journal of Great Lakes Research (1998) 24 (1998) 24(2):
293-303
Relative Abundance and Distribution of Ruffe (Gymnocephalus
cernuus) in a Lake Superior Coastal Wetland Fish Assemblage
Abstract
Fish assemblages from Allouez Bay Wetland in the St. Louis River estuary were
sampled with fyke-nets from May to October, 1995, to characterize typical use patterns in
different seasons and microhabitats. The relative abundance and distribution of ruffe (Gymnocephalus
cernuus) in these habitats was of interest because their recent invasion into the
Great Lakes has the potential to disrupt native fish assemblages. A total of 15,867 fish
comprised of 34 species were captured in 2,300 h of netting. The majority of fish over the
whole study were caught in the outer marsh (63%, 9,957 individuals), and seasonally during
late June (7,384 individuals/4 net-nights) and early May (2,281 individuals). Yellow perch
(Perca flavescens), brown bullhead (Ameiurus nebulosus), emerald shiner
(Notropis atherinoides), and silver redhorse (Moxostoma anisurum) were
the most abundant species, comprising 85 percent of the total catch. Ruffe was the seventh
most abundant species captured (294 individuals), comprising only two percent of the total
catch. They were the fifth most abundant species in the outer marsh, but only thirteenth
most abundant in the inner marsh. Ninety-one percent of all ruffe (268 individuals) were
caught in the outer marsh. Of the 75 species by life-stage combinations derived by
classifying all individuals captured into one of 3 life stage categories (YOY, yearling,
and adult), yearling ruffe were the twelfth most abundant, adult ruffe were sixteenth, and
YOY ruffe were twenty-seventh. While ruffe have been the most abundant fish captured in
bottom trawls in St. Louis River estuary during the 1990s, our results indicate the
invasion of ruffe in shallow, heavily vegetated areas like those in Allouez Bay has been
much less successful. Our results also suggest further degradation of coastal wetlands and
other vegetated habitats would eliminate significant refugia from ruffe competition and
could lead to increased dominance of ruffe in shallow water habitats in the Great Lakes.
Entire Paper
Contact: John Brazner, US EPA, Midcontinent Ecological Division, 6201
Congdon Blvd., Duluth, MN 55804
Keywords: Ruffe, Population_dynamics, Monitoring
Product Type: Research, Basic_biology
User Type: Resource_Management
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