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Thorp, J.H., J.E. Alexander Jr., B.L. Bukaveckas, G.A. Cobbs, and K.L. Bresko, 1998. Responses
of Ohio River and Lake Erie Dreissenid Molluscs to Changes in Temperature and Turbidity,
University of Louisville
Reprinted from Canadian Journal of Fisheries and Aquatic Sciences
(1998) 55: 220-229
Responses of Ohio River and Lake Erie Dreissenid Molluscs to
Changes in Temperature and Turbidity
Abstract
To predict possible effects of global climatic change (via changes in ambient water
temperatures and suspended sediments) on two exotic bivalves (zebra mussel, Dreissena
polymorpha, and quagga mussel, Dreissena bugensis), we evaluated survival and
growth at three temperatures (ambient, ambient + 2ºC, and ambient + 4°ree;C) and
two turbidities (ambient and twice ambient) in outdoor tanks for approximately 3 months
during both warm and cool seasons. We compared responses of zebra and quagga mussels from
southwestern Lake Erie and zebra mussel from the Ohio River at Louisville, Kentucky.
Experimental increases in temperature significantly enhanced growth rates in fall - early
winter but not during summer - early fall. Elevated temperatures increased mortality in
the warm season but not in the cool season. Zebra mussel survived better (especially the
Ohio River population) than did quagga mussel at high temperatures. Inorganic turbidity
had few detectable effects; relationships, where significant, varied with temperature and
species. Based on these experiments and related laboratory studies, we predict that
populations of Dreissena in the Ohio River and farther south will suffer overall if
water temperatures increase. In contrast, more northern populations of Dreissena will
probably benefit from predicted climatic change and may extend their range to higher
latitudes and altitudes.
Entire Paper
Contact: J.H. Thorp, Department of Biology, University of Louisville,
Louisville, KY 40292
Keywords: Zebra_mussel, Quagga_mussels, Basic_biology
Product Type: Research, Basic_biology
User Type: General
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