Museum specimens were used to analyze temporal trends in feather mercury (Hg) concentrations in birds collected from the state of Michigan between the years 1895 and 2007. Hg was measured in flank and secondary feathers from three species of birds that breed in the Great Lakes region; common terns (n = 32), great blue herons (n = 35), and herring gulls (n = 35). More than 90% of the Hg in feathers should be organic, but some of the heron and gull feathers collected prior to 1936 showed evidence of contamination with inorganic Hg, likely from museum preservatives. The data presented here therefore consist of organic Hg in pre-1936 samples and total Hg in post-1936 samples. Insufficient tissue was available from terns to assess organic Hg content. Mean Hg concentrations ranged from 2.9 ± 2.5 μg/g Hg in tern flank feathers to 12.4 ± 10.6 μg/g Hg in gull flank feathers. No linear trend of Hg contamination over time was detected in herons and gulls. Though a significant decrease was noted for terns, these data are presented with caution given the strong likelihood that earlier samples were preserved with inorganic mercury. When data were separated into 30-year intervals, Hg content in heron and gull feathers collected from birds sampled between 1920 and 1949 were consistently highest but not to a level of statistical significance. For example, Hg concentrations in gull secondary feathers collected in the second time interval (1920-1949) were 11.5 ± 7.8. This value was 67% higher than the first time interval (1890-1919), 44% higher than the third interval (1950-1979), and 187% higher than the fourth interval (1980-2009). Studies on Great Lakes sediments also showed greatest Hg accumulations in the mid-twentieth century. Through the use of museum specimens, these results present a unique snapshot of Hg concentrations in Great Lakes biota in the early part of the twentieth century.
The purpose of this study was to evaluate the effects of environmentally relevant dietary MeHg exposures on adult female yellow perch (Perca flavescens) and female zebrafish (Danio rerio) ovarian development and reproduction. Yellow perch were used in the study for their socioeconomic and ecological importance within the Great Lakes basin, and the use of zebrafish allowed for a detailed analysis of the molecular effects of MeHg following a whole life-cycle exposure. Chronic whole life dietary exposure of F zebrafish to MeHg mimics realistic wildlife exposure scenarios, and the twenty-week adult yellow perch exposure (where whole life-cycle exposures are difficult) captures early seasonal ovarian development. For both species, target dietary accumulation values were achieved prior to analyses. In zebrafish, several genes involved in reproductive processes were shown to be dysregulated by RNA-sequencing and quantitative real-time polymerase chain reaction (QPCR), but no significant phenotypic changes were observed regarding ovarian staging, fecundity, or embryo mortality. Yellow perch were exposed to dietary MeHg for 12, 16, or 20 weeks. In this species, a set of eight genes were assessed by QPCR in the pituitary, liver, and ovary, and no exposure-related changes were observed. The lack of genomic resources in yellow perch hinders the characterization of subtle molecular impacts. The ovarian somatic index, circulating estradiol and testosterone, and ovarian staging were not significantly altered by MeHg exposure in yellow perch. These results suggest that environmentally relevant MeHg exposures do not drastically reduce the reproductively important endpoints in these fish, but to capture realistic exposure scenarios, whole life-cycle yellow perch exposures are needed.
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