Coping with warmer, large rivers: a field experiment on potential range expansion of northern quagga mussels (Dreissena bugensis)

SUMMARY 1. Zebra mussels (Dreissena polymorpha) have established a much greater range in North America and Europe than quagga mussels (D. bugensis), which occupy a very similar niche. 2. We hypothesised that quaggas are physiologically capable of sustaining populations in warmer rivers currently occupied only by zebra mussels and that unidentified, non‐physiological factors account for their more limited distribution. 3. Growth and survival of individually tagged mussels (976 D. bugensis from Lake Erie; 2625 D. polymorpha from Lake Erie and the Ohio River) were recorded monthly for up to 15 months in an outdoor stream mesocosm receiving unfiltered water from the Ohio River. 4. Extreme temperatures stressed both species; but in contrast to several previous laboratory studies, quaggas survived high temperatures better than zebra mussels. We suspect this was the result of species‐specific differences in their ability to obtain, assimilate and/or catabolise food at high, sublethal temperatures. 5. A unimodal growth pattern was observed in both species, with the highest growth rates from late spring to early autumn. 6. Our survival and growth data suggest that quaggas are not physiologically limited from expanding southward. 7. While lacking definitive proof that dreissenid populations in rivers are ecologically sustainable without upstream lentic ecosystems and/or unintended human intervention, we suggest that complex river currents and upstream retentive and highly productive slackwater habitats in rivers may help sustain downstream populations of these meroplanktonic, dreissenid mussels.