https://scholars.wlu.ca/etd/2256

Yamaguchi, A., Dixon, H. J., Low, G., MacLatchy, D. L., and Swanson, H.K.: Abiotic conditions, algal biomass and fish growth rates affect walleye mercury concentrations in two Subarctic lakes, Transactions of the American Fisheries Society

Kakisa Lake and Tathlina Lake, located in the Dehcho Region of the Northwest Territories, support important fisheries for the local Ka’a’gee Tu First Nation (KTFN). Recently, Walleye (Sander vitreus) of typical catch size in Tathlina Lake were found to have mercury concentrations above Health Canada’s commercial sale guideline of 0.5 ppm. Wild foods with elevated mercury concentrations can pose health risks to the humans who consume them, depending on consumption amounts and vulnerability factors such as age and pregnancy. Because wild fish can accumulate relatively high mercury levels and subsistence fishing contributes greatly to food security in northern regions, mercury-related health risks to people are greater in the north than in the south, where wild fish are not as frequently consumed. Here, I examine and compare known drivers of fish mercury concentrations in two aquatic food webs to investigate causes of between-lake variation in mercury concentrations in food fishes. I relate analyses of food web structure, fish growth, and lake physicochemistry to mercury concentrations, and attempt to determine why fish mercury concentrations differ between Kakisa Lake and Tathlina Lake. Sediment and water methylmercury availability and primary producer abundance appear to be major factors influencing bioaccumulation of mercury in the food webs of each lake. Concentrations of methylmercury in sediment and water were higher in Tathlina Lake than in Kakisa Lake, and % methylmercury (of total mercury) in these ecosystem components indicate that the net mercury methylation rate is higher in Tathlina Lake than in Kakisa Lake. Kakisa Lake also had higher concentrations of chlorophyll a, indicating relatively higher rates of primary production and possible bloom dilution of mercury, which was further confirmed by trophic biomagnification modeling; these factors appear to have bottom-up impacts on the food webs of both lakes, including other food fishes. Walleye mercury concentrations also appeared to be affected by growth rates and perhaps growth efficiency, as suggested by evaluations of growth rates. This research is part of a larger project that seeks to assess the risks and benefits of fish consumption in the Northwest Territories, especially by Indigenous communities, who rely on natural fisheries for subsistence and for whom wild foods hold significant cultural and spiritual value.

Northern-Water-Futures, Refereed Publications

https://scholars.wlu.ca/etd/2256