Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6304899 | Journal of Great Lakes Research | 2015 | 11 Pages |
Abstract
Currently little is known about the condition and spawning patterns of quagga mussels (Dreissena rostriformis bugensis) in deeper, consistently cold regions of the Great Lakes. This lack of information limits our ability to predict the future expansion of D. r. bugensis in the offshore regions of the Great Lakes and other large, deep lakes. We collected quagga mussels on a monthly basis in 2013 (April-September) at three established sites along a depth transect (25, 45, and 93Â m) in southern Lake Michigan and calculated a condition index (CI), a ratio of dry soft tissue weight to internal shell capacity, to assess condition, and a gametogenic index to assess reproductive activity. We also measured size-frequency, density, and biomass in March, July, and October. Condition was consistently highest at 25Â m, population biomass and average shell length were highest at 45Â m, and density was highest at 93Â m. At all three depths, CI decreased with increasing shell length suggesting that food availability may be limiting for larger individuals. Mussels at 45Â m spawned earliest with over 50% spent by July while mussels at 93Â m began spawning in August. Mussels at 25Â m had not yet spawned by September. Long-term trends in density indicate that D. r. bugensis populations continued to expand at the 93Â m site but may be stabilizing at 25Â m and 45Â m. Consistent with density trends, CI at 25Â m and 45Â m was lower than in 2004 and 2008.
Keywords
Related Topics
Physical Sciences and Engineering
Earth and Planetary Sciences
Earth and Planetary Sciences (General)
Authors
Paul W. Glyshaw, Catherine M. Riseng, Thomas F. Nalepa, Steven A. Pothoven,