Freshwater Mussels

This tool lists various Habitat Fact Sheets developed by the Region 5 Regional Response Team. To suggest additions to this tool, please contact Barbi Lee. Click here for Inland Response Tactics Manual and  Submerged Oil Recovery Tactics.

I. Species Description

Nearly 300 species of mussels inhabit freshwater rivers, streams, and lakes in North America, it is estimated that 43% of these species are in danger of extinction. Historically, the Midwest boasted the most diverse collection of mussels in the world. But today, the States of Minnesota, Wisconsin, Iowa, Missouri, Illinois, Indiana, and Ohio list more than half of their 78 known mussel species as endangered, threatened, or requiring special concern.

Freshwater mussels belong to a larger group of animals with shells called mollusks. Mollusks are soft-bodied animals enclosed by two hard shells made mostly of calcium and are connected by a ligament or hinge. Because adults are sedentary, long-lived (some live over 100 years), live in sediments, and feed by filtering water, they are excellent indicators of the health of aquatic ecosystems. In addition, mussels are a vital link in the food chain because they are a major food item for wildlife such as raccoon, muskrat, and otter.

Unlike oysters and clams, freshwater mussels need a fish to complete their life cycle. Some mussels require a specific host fish to complete their life cycle; others can use a variety of fish species. Freshwater mussels are often found in mussel beds, which can be a mile or more long and contain thousands of mussels anchored in mud, sand or gravel. The majority of mussel beds found in large rivers occur in main channel areas, secondary channels, and adjacent backwater habitats.


II. Sensitivity to Oil Spills

Freshwater mussels are highly sensitive to oil spills. Although adult mussels have the ability to "clam up" for a limited time to avoid toxins such as gasoline and oil, young mussels are often killed immediately. Multiple spills or the long-term, chronic leaching of toxins accumulate in the tissues of mussels as they continually filter water for food, and can be passed through the food chain. Eventually the entire mussel population can be killed; directly from a toxin or by killing the fish hosts on which they depend for successful reproduction, ultimately eliminating the mussels.

Freshwater mussels inhabiting navigational river systems have additional sensitivity when responders use the river’s lock and dam system to exclude the downstream movement of oil. The resulting changes in water depth, water currents, temperature can negatively affect freshwater mussels. Additionally, closing dams may become barriers to fish and mussel migration, possibly affecting upstream distribution and survival of juvenile mussels in these river systems.


III. Sensitivity to Response Methods

The following text describes potential adverse impacts to freshwater mussels resulting from various oil spill response methods and/or provides recommendations to reduce impact when these methods are implemented. This is not intended to preclude the use of any particular methods, but rather to aid responders in balancing the need to remove oil with the possible adverse effects of removal with respect to freshwater mussels. More detail about the response methods themselves can be found in the Inland Response Tactics Manual.

Additional Information

Resources/Additional Information
TopicTitleResourceLinkTypeDescriptionThumbnail
DocumentGeneral Classification Handbook for Floodplain Vegetation in Large River Systemshttp://pubs.usgs.gov/tm/2005/tm2A1Document 
DocumentInland Oil Spills: Options for Minimizing Environmental Impacts for Freshwater Spill Responsehttp://www.michigan.gov/documents/deq/deq-wb-wws-FreshwaterResponse_NOAA102706_265069_7.pdfDocument 
Web PageUSACE Missouri River Recovery Programhttp://moriverrecovery.usace.army.mil/mrrp/f?p=136:132:0::NO:::Web Page 
DocumentUnderstanding Oil Spills and Oil Spill Response Chapter 4: Shoreline Cleanup of Oil Spillshttp://www.epa.gov/osweroe1/docs/oil/edu/oilspill_book/chap4.pdfDocument