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Links Between Mercury and Liver Damage in Wild Fish Populations A.K. Gevertz 1, P.E. Drevnick 2, and A.P. Roberts 1 1 University of North Texas, Denton,

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Presentation on theme: "Links Between Mercury and Liver Damage in Wild Fish Populations A.K. Gevertz 1, P.E. Drevnick 2, and A.P. Roberts 1 1 University of North Texas, Denton,"— Presentation transcript:

1 Links Between Mercury and Liver Damage in Wild Fish Populations A.K. Gevertz 1, P.E. Drevnick 2, and A.P. Roberts 1 1 University of North Texas, Denton, TX 2 Woods Hole Oceanographic Institute, Boston, MA

2 Background Sources of Mercury:  atmospheric deposition  metal mining  power plants  natural sources Mercury is methylated in aquatic systems Hg  MeHg

3 Biomagnification occurs as methylmercury is passed through food web Environment Canada

4 Effects of Mercury  Neurotoxic to humans  Laboratory studies have demonstrated effects on fish survival, fertility, development, and behavior.  No studies have demonstrated impacts of atmospherically-deposited Hg on wild fish at ecologically-relevant levels.

5 Isle Royale National Park  Located in Lake Superior  Unusually high levels of methylmercury due to atmospheric deposition

6 Question: Does Hg pose a threat to fish health on IRNP?  124 northern pike were collected from 8 lakes  Fillets and livers were tested for mercury with cold-vapor A.A. spectroscopy  Subsamples of liver from each fish were embedded in paraffin for histology State of Alaska

7 What was found… …a correlation between liver color and fish mercury content Question: Why was the liver color different?

8 Lipofuscion Pigmentation change that occurs as a result of accumulation of cellular-breakdown products Can indicate increased cellular damage as a result of toxicant exposure Question: Does LF correlate with [Hg] in fish? Dark livers from IRNP contained large numbers of LF bodies

9  Small samples of liver were embedded in paraffin and sectioned on a microtome  Each sample was photographed at 200X  A grid (squares 25 X 25  m) was overlaid on each image  50 squares were randomly selected and evaluated for the presence of LF.  The proportion of squares containing LF were used to quantify the amount of liver damage Lipofuscion Quantification

10 r 2 = 0.81 P= 0.006 Lipofuscion content was correlated with liver color Liver color was correlated with Hg content

11  Conclusions 1) LF levels are higher in the dark liver samples 2) Darker samples have higher mercury content 3) Lipofuscion quantification might provide an accurate method to determine mercury concentration and as well as damage  Future Directions Caddo Lake Caddo Lake Lab studies Lab studies

12 Acknowledgements  Coauthors: Dr. Paul Drevnick, Dr. Aaron Roberts  Funding Source: U.S. EPA STAR Program  Dr. Kevin Stevens, Dr. Ed Dzialowski, Dao Ho, Matt Kovach

13 Questions? Amanda K. Gevertz akg0034@unt.edu

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