Candy S. Schrank

Spatiotemporal trends of mercury in walleye and largemouth bass from the Laurentian Great Lakes Region

The risk of mercury (Hg) exposure to humans and wildlife from fish consumption has driven extensive mercury analysis throughout the Great Lakes Region since the 1970s. This study compiled fish-Hg data from multiple sources in the region and assessed spatiotemporal trends of Hg concentrations in two representative top predator fish species. Walleye (Sander vitreus) and largemouth bass (Micropterus salmoides) were chosen for the trend analysis because they had more Hg records (63,872) than other fish species that had been sampled from waters throughout the region. Waterbody types were inland lakes (70%), the Great Lakes, impoundments, and rivers. The compiled datasets were analyzed with a mixed effects statistical model having random effects of station, year, and fish length; and fixed effects of year, tissue type, fish length, habitat, and season. The results showed a generally declining temporal trend in fish-Hg for the region (1970–2009), with spatial trends of increasing Hg concentration from south to north and from west to east across the region. Nonlinearity was evident in the general downward trends of Ontario walleye, with a shift to an upward trend beginning in the 1990s. Only ongoing monitoring can reveal if this upward shift is an oscillation in a long-term decline, a statistical anomaly, or a sustained declining temporal trend in regional fish-Hg concentrations.

Temporal changes in PCB and DDE levels among a cohort of frequent and infrequent consumers of Great Lakes sportfish.

A variety of environmentally persistent contaminants of the Great Lakes Basin are able to bioaccumulate in the aquatic food chain and pose a threat to the health and reproductive success of people and wildlife that depend on locally caught fish as a source of dietary protein. Exposure to polychlorinated biphenyls (PCBs) and 1,1-bis(4-chlorophenyl)-2,2-dichloroethene (DDE) has been linked to higher rates of cancer, reproductive problems, and endocrine disorders. To investigate the effects of exposure to persistent contaminants of the Great Lakes Basin, the health departments of five Great Lakes states formed a health-assessment consortium. Between 1988 and 1994, the consortium collected demographic and fish consumption information from 2548 licensed charter boat captains, 182 anglers, and 1667 referents. Between 1994 and 1995, a subset of 619 participants in this study provided additional fish consumption information and donated blood samples that were analyzed for PCBs and DDE. Follow-up studies conducted between 2001 and 2005 re-assessed fish consumption rates and blood levels of PCBs and DDE in 293 of these individuals. While there was a trend for increasing overall fish consumption among most participant groups, sportfish and Great Lakes sportfish consumption decreased significantly in the captains over the study period. Serum DDE concentrations, which were highest in men in the captain and angler groups, declined in 90% of study participants. Mean DDE levels fell from 5.6 to 3.2 microg/L. Total PCB levels declined in 80% of participants with the mean concentration falling from 4.2 to 2.8 microg/L. Annual declines in serum DDE and PCB concentrations averaged 4.6% and 3.5%, respectively.

Toxicological significance of mercury in yellow perch in the Laurentian Great Lakes region

We assessed the risks of mercury in yellow perch, a species important in the trophic transfer of methylmercury, in the Great Lakes region. Mean concentrations in whole perch from 45 (6.5%) of 691 waters equaled or exceeded 0.20 μg/g w.w., a threshold for adverse effects in fish. In whole perch within the size range eaten by common loons (<100 g), mean concentrations exceeded a dietary threshold (0.16 μg/g w.w.) for significant reproductive effects on loons in 19 (7.3%) of 260 waters. Mean concentrations in fillets of perch with length ≥ 15.0 cm, the minimum size retained by anglers, exceeded the USEPA criterion (0.3 μg/g w.w.) in 26 (6.4%) of 404 U.S. waters and exceeded the Ontario guideline (0.26 μg/g w.w.) in 35 (20%) of 179 Ontario waters. Mercury levels in yellow perch in some waters within this region pose risks to perch, to common loons, and to mercury-sensitive human populations.

Contaminant Exposure, Biochemical, and Histopathological Biomarkers in White Suckers from Contaminated and Reference Sites in the Sheboygan River, Wisconsin☆

Fish populations of the lower Sheboygan River, located in east-central Wisconsin, are considered impaired under the Great Lakes Water Quality Agreement between the United States and Canada. Pollutants in the Sheboygan River system include: polychlorinated biphenyls (PCBs), polycyclic aromatic hydrocarbons (PAHs), and heavy metals. This study compared general health and biochemical parameters, histology of selected organs, and contaminant residues and metabolites in a population of white suckers (Catostomus commersoni) from a contaminated reach of the Sheboygan River and an upstream reference site. Fish from the contaminated site had significantly lower hematocrits, significantly induced ethoxyresorufin-O-deethylase (EROD) activity as a measurement of hepatic mixed-function oxygenase activity, higher biliary metabolites of PAHs, and higher tissue concentrations of PCBs and p,p’-DDE relative to an upstream reference population. Analysis of covariance suggests that both PCB and PAH exposure may be influencing EROD activities. Fish from the contaminated site featured more basophilic clusters and developing nephrons in kidney tissue suggesting the presence of a nephro-toxicant. Also, more fish exhibited hepatic lesions including diffuse cellular vacuolation, multifocal coagulative necrosis, bile ductal hyperplasia, and foci of cellular alteration which may be biomarkers for contaminant impacts. This study demonstrates that white suckers residing in the lower reaches of the Sheboygan River absorbed significant amounts of PAHs and PCBs and also exhibited hematological, biochemical and histological alterations some of which suggest impaired fish condition.

Sexual difference in PCB concentrations of coho salmon (Oncorhynchus kisutch).

We determined polychlorinated biphenyl (PCB) concentrations in 35 female coho salmon (Oncorhynchus kisutch) and 60 male coho salmon caught in Lake Michigan (Michigan and Wisconsin, United States) during the fall of 1994 and 1995. In addition, we determined PCB concentrations in the skin-on fillets of 26 female and 19 male Lake Michigan coho salmon caught during the fall of 2004 and 2006. All coho salmon were age-2 fish. These fish were caught prior to spawning, and therefore release of eggs could not account for sexual differences in PCB concentrations because female coho salmon spawn only once during their lifetime. To investigate whether gross growth efficiency (GGE) differed between the sexes, we applied bioenergetics modeling. Results showed that, on average, males were 19% higher in PCB concentration than females, based on the 1994-1995 dataset. Similarly, males averaged a 20% higher PCB concentration in their skin-on fillets compared with females. According to the bioenergetics modeling results, GGE of adult females was less than 1% higher than adult male GGE. Thus, bioenergetics modeling could not explain the 20% higher PCB concentration exhibited by the males. Nonetheless, a sexual difference in GGE remained a plausible explanation for the sexual difference in PCB concentrations.