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  3. 66. Decline of young-of-year walleye (Sander vitreus) growth due to Bythotrephes impacts predicted from bioenergetic principles

Related Publications

 
75. The spatial extent of Walleye and Lake Sturgeon spawning migrations below a dam in the lower Black Sturgeon River, Lake Superior
 
71. Spiny water flea invasion alters fish mercury biomagnification rates
 
65. Consumption and activity decline in Northern Pike (<i>Esox Lucius</i>) during and after silver nanoparticle addition to a lake
 
58. Alternative migratory strategies related to life history differences in the Walleye (<i>Sander vitreus</i>)
 
54. Historic and contemporary movement and survival rates of walleye (Sander vitreus) in Lake Winnipeg, Canada
 
51. Multi-Level Responses of Yellow Perch (<i>Perca flavescens</i>) to a Whole-Lake Nanosilver Addition Study
 
34. A predictive model for water clarity following dreissenid invasion
 
31. Cross-basin analysis of long-term trends in the growth of Lake Whitefish in the Laurentian Great Lakes
 
30. The Ecology of lifetime growth in percid fishes (book chapter)
 
27. Fish diversity and biomass in northern Canadian lakes: northern lakes are more diverse and have greater biomass than expected based on species–energy theory
 
15. Energy acquisition and allocation patterns of lake whitefish (<em>Coregonus clupeaformis</em>) are modified when dressenids are present
 
14. Can migration mitigate the effects of ecosystem change? Patterns of dispersal, energy allocation and acquisition in Great Lakes lake whitefish (<em>Coregonus clupeaformis</em>)
 
13. <em>Bythotrephes</em> invasion elevates trophic position of zooplankton and fish: implications for contaminant biomagnification
 
11. Prey life history and bioenergetic responses across a predation gradient
 
10. Changes in fish condition and mercury vary by region, not <em>Bythotrephes invasion</em>: A result of climate change?
 
8. Changes in nearshore zooplankton communities associated with species invasions and potential effects on larval lake whitefish (<em>Coregonus clupeaformis</em>)
 
5. Lazy males? Bioenergetic differences in energy acquisition and metabolism explain sexual size dimorphism in percids
 
1. A comparison of methods for estimating activity costs of wild fish populations: more active fish observed to grow slower