NOAA study shows oysters, mussels have low levels of disease, parasites
“The unprecedented baseline data in this new report will be vital for coastal managers as they look at degrading conditions in mussel and oyster population,” said Dennis Apeti, the report’s lead author and an oceanographer with the National Ocean Service’s National Centers for Coastal Ocean Science. “Environmental stressors, including unforeseen natural and human influenced events and climate change, continue to impact our coastal resources.”
Apeti also said that report’s conclusions only reflect a limited number of parasites and disease that can affect bivalves, and that there are other tissue analyses in shellfish that the report does not assess. These include, amongst others, paralytic shellfish poisoning and fecal coliform bacteria, which both can pose significant threats to human health.
The report provides both national and regional trends. For example, oysters in the Gulf of Mexico and along the East Coast showed higher parasite levels than those in Puerto Rico or Hawaii. Also, West Coast mussels had significantly higher parasite levels than East Coast mussels. Zebra mussels, which are invasive in the Great Lakes, harbored few parasites and had significantly fewer cases of disease than all the other bivalves studied.
The report is part of the only continuous coastal monitoring program that is national in scope, the national center’s National Status and Trends Mussel Watch program which uses bivalve mollusks as “canaries in a coal mine” — sentinel organisms to monitor the health of the nation’s coastal and marine waters including Alaska, Hawaii, Puerto Rico, and the Great Lakes.
The program was initiated to monitor chemical contamination, but because the shellfish collected are also important commercial and recreational fisheries, Mussel Watch began monitoring disease and parasites in 1995 to provide additional management information to coastal resource managers. It also issued the first national assessment of flame-retardant chemicals in the U.S. coastal zone in 2009, showing they were widely distributed in both sediment and bivalve tissue and correlated with coastal population.
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