Biofouling and mussel growth from mussels deployed in Great Lakes embayments (2013-2016)
January 9, 2024
Many taxa of North American unionid mussels are imperiled due to biofouling by invasive dreissenid mussels. Here, we report on biofouling rates of unionid mussels suspended in cages during the growing season in nearshore embayments in Lake Erie (2013-2016), Lake Michigan (Green Bay 2016, Grand Traverse Bay 2015) and Lake Huron (Saginaw Bay 2015). Mussels were deployed in early summer (late May or early June) and retrieved in late summer or fall (late August or early September). Wet weights were collected from mussels before and after removal of biofouling taxa (primarily dreissenid mussels).
Citation Information
| Publication Year | 2024 |
|---|---|
| Title | Biofouling and mussel growth from mussels deployed in Great Lakes embayments (2013-2016) |
| DOI | 10.5066/P9RL5BU4 |
| Authors | James H Larson, Sean W Bailey, Mary A Evans |
| Product Type | Data Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| USGS Organization | Upper Midwest Environmental Sciences Center |
| Rights | This work is marked with CC0 1.0 Universal |
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Biofouling of a unionid mussel by dreissenid mussels in nearshore zones of the Great Lakes
In North America, native unionid mussels are imperiled due to factors such as habitat degradation, pollution, and invasive species. One of the most substantial threats is that posed by dreissenid mussels, which are invasive mussels that attach to hard substrates including unionid shells and can restrict movement and feeding of unionids. This dreissenid mussel biofouling of unionids varies spatiall
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James H. Larson, Sean Bailey, Mary Anne Evans
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Biofouling of a unionid mussel by dreissenid mussels in nearshore zones of the Great Lakes
In North America, native unionid mussels are imperiled due to factors such as habitat degradation, pollution, and invasive species. One of the most substantial threats is that posed by dreissenid mussels, which are invasive mussels that attach to hard substrates including unionid shells and can restrict movement and feeding of unionids. This dreissenid mussel biofouling of unionids varies spatiall
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James H. Larson, Sean Bailey, Mary Anne Evans