Ammonia toxicity data for freshwater mussels (Unionidae), a significantly imperiled taxa, were used to derive estimates of concentrations that would not likely be harmful in acute and chronic exposures and to assess the protectiveness of current U.S. Environmental Protection Agency (U.S. EPA) water quality criteria to this family of organisms. Thirty acute (24-96-h) median lethal concentrations (LC50s), covering 10 species in eight unionid genera, were used to calculate genus mean acute values (GMAVs) ranging from 2.56 to 8.97 mg/L total ammonia as N at pH 8. Freshwater mussels are at the sensitive end of the range when added to the GMAVs from the database used to derive the U.S. EPA criteria maximum concentration (CMC). We derived two estimates of acute exposure water quality guidance for the protection of freshwater mussels (CMC(FM)) by a recalculation of the CMC after adding freshwater mussel GMAVs to the U.S. EPA data set. The CMC(FM)s of 1.75 and 2.50 mg/L total ammonia as N at pH 8 average 60% less than the U.S. EPA CMC of 5.62 mg/L total ammonia as N at pH 8 for application when salmonids are present. These values average about 75% less than the CMC for application when salmonids are absent. No chronic ammonia exposure data existed for unionids. Thus, we applied a range of estimated acute:chronic ratios to the acute toxicity data set, expanded with the freshwater mussel GMAVs. to estimate continuous ammonia concentrations that may be protective of freshwater mussels. These estimates ranged from 0.3 to 1.0 mg/L total ammonia as N at pH 8, about 20 to 75% less than the U.S. EPA criteria continuous concentration (CCC) of 1.24 mg/L total ammonia as N at pH 8 and 25 degrees C. The current numeric criteria for ammonia may not be protective of mussels, more than half of whose nearly 300 species are in decline in North America. While the CMC(FM) and CCC(FM) are not equivalent to revised U.S. EPA criteria, they are offered as interim guidance for the protection of freshwater mussels.
The mussel fauna of many North American waters is declining, probably due to a combination of factors. The factors may include channelization and impoundment of rivers where the mussels once thrived, as well as the influx of pesticides and metal pollution from surrounding watersheds. Much is known about the effects of metal pollution on zooplankton and aquatic insects, but little is known about the response of freshwater mussels. With more and more species of mussels being listed as threatened or endangered, it is important that we begin to determine their range of sensitivity to pollutants so we can better protect them. Mussels have been labeled insensitive to metals because they can survive while containing high body burdens. However, almost no direct measurement of metal toxicity has been reported for unionid mussels. What little we do know has come from tests with adult mussels. In response to the need for such information, a series of laboratory toxicity tests were performed to assess the sensitivity of Anodonta imbecilis to six metals, a metal‐containing effluent and four metal mixtures. Acute toxicity tests were performed on juvenile mussels reared in the laboratory. Overall, mussels were found to be as sensitive to metals as zooplankton and more sensitive than commonly tested fish and aquatic insects.
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