Abstract
Many non-linear processes link atmospheric emissions to the bioavailability of metals; consequently, the monitoring of metals in ecosystem components is required to model their ecodynamics. American mink (Neovison vison) and river otter (Lontra canadensis) have the potential to serve as an upper-level-consumer component in monitoring metals bioavailability. However, the relationship of bioaccumulated metals to various environmental factors has not been explored nor have the effects of demographic factors been resolved. To address these limitations, mink and otter, collected throughout New York State during 1998–2002, were analyzed for hepatic concentrations of total mercury (Hg), cadmium (Cd), and lead (Pb). Relationships were investigated between metals concentrations and landscape-level factors (physiographic zone, hydrologic unit, and elevation) and demographic factors (gender and age). Considerable variation in Hg and Cd concentrations was observed relative to both physiographic zone and hydrologic unit for both species. In contrast with Hg, Cd concentration increased predictably with increasing elevation. Mercury concentrations were greater, but for Cd less, in otter than mink. Lead concentrations showed little landscape heterogeneity and were independent of elevation. Age-related bioaccumulation was evident for Hg and Cd, but not for Pb, in both species. Mercury and Cd concentrations were greater in female than male mink; however, Pb concentrations were greater in males than females. Inverse relationships of relative growth (weight/length) to metals concentrations explained gender differences in Hg and Cd in mink. For otter, no gender-related differences in metals concentrations were apparent. The suitability of mink and otter for monitoring programs is discussed.
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References
Aastrup, M., Iverfeldt, A., Bringmark, L., Kvarnas, H., Thunholm, B., & Hultberg, H. (1995). Monitoring of heavy metals in protected forest catchments in Sweden. Water, Air, and Soil Pollution, 85, 755–760.
Arnold, T. W., & Fritzell, E. K. (1987). Activity patterns, movements, and home ranges of prairie mink. Prairie Naturalist, 19, 25–32.
Basu, N., Klenavic, K., Gamberg, M., O’ Brien, M., Evans, D., Scheuhammer, A. M., et al. (2005a). Effects of mercury on neurochemical receptor-binding characteristics in wild mink. Environmental Toxicology and Chemistry, 24, 1444–1450.
Basu, N., Scheuhammer, A., Grochowina, N., Klenavic, K., Evans, D., O’ Brien, M., et al. (2005b). Effects of mercury on neurochemical receptors in wild river otters (Lontra canadensis). Environmental Science & Technology, 39, 3585–3591.
Basu, N., Scheuhammer, A. M., Bursian, S. J., Elliott, J., Rouvinen-Watt, K., & Chan, H. M. (2007). Mink as a sentinel species in environmental health. Environmental Research, 103, 130–144.
Ben-David, M., Duffy, L. K., Blundell, G. M., & Bowyer, R. T. (2001). Natural exposure of coastal river otters to mercury: Relation to age, diet, and survival. Environmental Toxicology and Chemistry, 20, 1986–1992.
Ben-David, M., Hanley, T. A., Klein, D. R., & Schell, D. M. (1997). Seasonal changes in diets of coastal and riverine mink: The role of spawning Pacific salmon. Canadian Journal of Zoology, 75, 803–811.
Berthelsen, B. O., Ardal, L., Steinnes, E., Abrahamsen, G., & Stuanes, A. O. (1994). Mobility of heavy metals in pine forest soils as influenced by experimental acidification. Water, Air, and Soil Pollution, 73, 29–48.
Berthelsen, B. O., Steinnes, E., Solberg, W., & Jingsen, L. (1995). Heavy metal concentrations in plants in relation to atmospheric heavy metal deposition. Journal of Environmental Quality, 24, 1018–1026.
Birks, J. D. S., & Dunstone, N. (1985). Sex-related differences in the diet of the mink Mustela vison. Holartic Ecology, 8, 245–252.
Bleavins, M. R., & Aulerich, R. J. (1981). Feed consumption and food passage time in mink (Mustela vison) and European ferrets (Mustela putorius furo). Laboratory Animal Science, 31, 268–269.
Blus, L. J., & Henny, C. J. (1990). Lead and cadmium concentrations in mink from northern Idaho. Northwest Science, 64, 219–223.
Blus, L. J., Henny, C. J., & Mulhern, B. M. (1987). Concentrations of metals in mink and other mammals from Washington and Idaho. Environmental Pollution, 44, 307–318.
Bonesi, L., Dunstone, N., & O’ Connell, M. (2000). Winter selection of habitats within intertidal foraging areas by mink (Mustela vison). Journal of Zoology, 250, 419–424.
Boutron, C. F., Candelone, J.-P., & Hong, S. (1995). Greenland snow and ice cores: Unique archives of large scale pollution of the troposphere of the Northern Hemisphere by lead and other heavy metals. The Science of the Total Environment, 160(161), 233–241.
Burgess, S. A., & Bider, J. R. (1980). Effects of stream habitat improvements on invertebrates, trout populations, and mink activity. Journal of Wildlife Management, 44, 871–880.
Campbell, J. H., & Evans, R. D. (1987). Inorganic and organic ligand binding of lead and cadmium and resultant implications for bioavailability. The Science of the Total Environment, 62, 219–227.
Chanin, P. (1981). The diet of the otter and its relations with the feral mink in two areas of southwest England. Acta Theriologica, 26, 83–95.
Cook, J. A., & Johnson, M. S. (1996). Cadmium in small mammals. In W. N. Beyer, G. H. Heinz, & A. W. Redmon-Norwood (Eds.), Environmental Contaminants in Wildlife: Interpreting Tissue Concentrations (pp. 377–388). Boca Raton: Lewis.
Dallinger, R., & Kautzky, H. (1985). The importance of contaminated food for the uptake of heavy metals by rainbow trout (Salmo gairdneri): A field study. Oecologia, 67, 82–89.
Dansereau, M., Lariviere, N., Du Tremblay, D., & Belanger, D. (1999). Reproductive performance of two generations of female semidomesticated mink fed diets containing organic mercury contaminated freshwater fish. Archives of Environmental Contamination and Toxicology, 36, 221–226.
Dickinson, N. (1983). Physiographic zones of Southern and Western New York. Albany: New York State Department of Envionmental Conservation.
Dock, L., Rissanen, R.-L., & Vahter, M. (1994). Demethylation and placental transfer of methyl mercury in the pregnant hamster. Toxicology, 94, 131–142.
Driscoll, C. T., Han, Y.-J., Chen, C. Y., Evers, D. C., Lambert, K. F., Holsen, T. M., et al. (2007). Mercury contamination in forest and freshwater ccosystems in the northeastern United States. BioScience, 57, 17–28.
Driscoll, C. T., Likens, G. E., Hedin, L. O., Eaton, J. S., & Bormann, F. H. (1989). Changes in the chemistry of surface waters. Environmental Science & Technology, 23, 137–143.
Dunstone, N., & Birks, J. D. S. (1983). Activity budget and habitat usage by coastal-living mink (Mustela vison Schreber). Acta Zoologica Fennica, 174, 189–191.
Dunstone, N., & Birks, J. D. S. (1987). The feeding ecology of mink (Mustela vison) in coastal habitat. Journal of Zoology, London, 212, 69–83.
Eagle, T. C., & Whitman, J. S. (1987). Mink. In M. Novak, J. A. Baker, M. E. Obbard, & B. Malloch (Eds.), Wild furbearer management and conservation in North America (pp. 615–624). Toronto: Ontario Ministry of Natural Resources.
Environmental Systems Research Institute (1996). ArcView GIS 3.2 Software. Redlands: Environmental Systems Research Institute, Inc.
Erickson, D. W., & Lindzey, J. S. (1983). Lead and cadmium in muskrat and cattail tissues. Journal of Wildlife Management, 47, 550–555.
Erlinge, S. (1969). Food habits of the otter Lutra lutra L. and the mink Mustela vison Schreber in a trout water in southern Sweden. Oikos, 20, 1–7.
Evans, R. D., Addison, E. M., Villeneuve, J. Y., Macdonald, K. S., & Joachim, D. G. (1998). An examination of spatial variation in mercury concentrations in otter (Lutra canadensis) in south-central Ontario. The Science of the Total Environment, 213, 239–245.
Evans, R. D., Addison, E. M., Villeneuve, J. Y., Macdonald, K. S., & Joachim, D. G. (2000). Distribution of inorganic and methlmercury among tissues in mink (Mustela vison) and otter (Lutra canadensis). Environmental Research Section A, 84, 133–139.
Everett, J. J., & Anthony, R. G. (1977). Heavy metal accumulation in muskrats in relation to water quality. Transactions of the Northeastern Fish and Wildlife Conference, 33, 105–118.
Evers, D. C., Han, Y.-J., Driscoll, C. T., Kamman, N. C., Goodale, M. W., Lambert, K. F., et al. (2007). Biological mercury hotspots in the northeastern United States and southeastern Canada. BioScience, 57, 29–43.
Evers, D. C., Taylor, K. M., Major, A., Taylor, R. J., Poppenga, R. H., & Scheuhammer, A. M. (2003). Common loon eggs as indicators of methylmercury availability in North America. Ecotoxicology, 12, 69–81.
Fortin, C., Beauchamp, G., Dansereau, M., Lariviere, N., & Belanger, D. (2001). Spatial variation in mercury concentrations in wild mink and river otter carcasses from the James Bay Territory, Quebec, Canada. Archives of Environmental Contamination and Toxicology, 40, 121–127.
Francis, D. R., & Bennett, K. A. (1994). Additional data on mercury accumulation in northern Michigan river otters. Journal of Freshwater Ecology, 9, 1–5.
Frank, A. (1986). In search of biomonitors for cadmium: Cadmium content of wild Swedish fauna during 1973–1976. Science of the Total Environment, 57, 57–65.
Freund, R. J., & Littell, R. C. (1986). SAS system for regression, 1986 edition. Cary: SAS Institute, Inc.
Freund, R. J., Littell, R. C., & Spector, P. C. (1986). SAS system for linear models, 1986 edition. Cary: SAS Institute, Inc.
Gerell, R. (1967). Food selection in relation to habitat in mink (Mustela vison Schreber) in Sweden. Oikos, 18, 233–246.
Gerell, R. (1970). Home ranges and movements of the mink Mustela vison in southern Sweden. Oikos, 21, 160–173.
Gilbert, F. F., & Nancekivell, E. G. (1982). Food habits of mink (Mustela vison) and otter (Lutra canadensis) in northeastern Alberta. Canadian Journal of Zoology, 60, 1282–1288.
Glooschenko, V., Downes, C., Frank, R., Braun, H. E., Addison, E. M., & Hickie, J. (1988). Cadmium levels in Ontario moose and deer in relation to soil sensitivity to acid precipitation. The Science of the Total Environment, 71, 173–186.
Gnamus, A., Byrne, A. R., & Horvat, M. (2000). Mercury in the soil–plant–deer–predator food chain of a temperature forest in Slovenia. Environmental Science & Technology, 34, 3337–3345.
Groet, S. S. (1976). Regional and local variations in heavy metal concentrations of bryophytes in the northeastern United States. Oikos, 27, 445–456.
Grove, R. A., & Henny, C. J. (2008). Environmental contaminants in male river otters from Oregon and Washington, USA, 1994–1999. Environmental Monitoring and Assessment, 145, 49–73.
Gustafson, K. A., Bontaites, K. M., & Major, A. (2000). Analysis of tissue cadmium concentrations in New England moose. Alces, 36, 35–40.
Halbrook, R. S., Jenkins, J. H., Bush, P. B., & Seabolt, N. D. (1994). Sublethal concentrations of mercury in river otters: Monitoring environmental contamination. Archives of Environmental Contamination and Toxicology, 27, 306–310.
Halbrook, R. S., Kirkpatrick, R. L., Scanlon, P. F., Vaughan, M. R., & Veit, H. P. (1993). Muskrat populations in Virginia’s Elizabeth River: Physiological condition and accumulation of environmental contaminants. Archives of Environmental Contamination and Toxicology, 25, 438–445.
Hamilton, W. J., Jr. (1959). Foods of mink in New York. New York Fish and Game Journal, 6, 77–85.
Hamilton, W. J., Jr. (1961). Late fall, winter and early spring foods of 141 otters from New York. New York Fish and Game Journal, 8, 106–109.
Hamir, A. N., Galligan, D. T., Ebel, J. G., Jr., Manzell, K. L., & Rupprecht, C. E. (1994). Blood lead levels of wild raccoons (Procyon lotor) from the eastern United States. Journal of Wildlife Diseases, 30, 115–118.
Hanson, D. W., Norton, S. A., & Williams, J. S. (1982). Modern and paleolimnological evidence for accelerated leaching and metal accumulation in soils in New England, caused by atmospheric deposition. Water, Air, and Soil Pollution, 18, 227–239.
Hatcher, L., & Stepanski, E. J. (1994). A step-by-step approach to using SAS system for univariate and multivariate statistics. Cary: SAS Institute, Inc.
Heinrichs, H., & Mayer, R. (1980). The role of forest vegetation in the biogeochemical cycle of heavy metals. Journal of Environmental Quality, 9, 111–118.
Heyes, A., Moore, T. R., & Rudd, J. W. M. (1998). Mercury and methylmercury in decomposing vegetation of a pristine and impounded wetland. Journal of Environmental Quality, 27, 591–599.
Johnson, C. E., Siccama, T. G., Driscoll, C. T., Likens, G. E., & Moeller, R. E. (1995). Changes in lead biogeochemistry in response to decreasing atmospheric inputs. Ecological Applications, 5, 813–822.
Johansson, K., Andersson, A., & Andersson, T. (1995a). Regional accumulation pattern of heavy metals in lake sediments and forest soils in Sweden. The Science of the Total Environment, 160(161), 373–380.
Johansson, K., Bergback, B., & Tyler, G. (2001). Impact of atmospheric long range transport of lead, mercury and cadmium on the Swedish forest environment. Water, Air, and Soil Pollution, Focus, 1, 279–297.
Johansson, K., Bringmark, E., Lindevall, L., & Wilander, A. (1995b). Effects of acidification on the concentrations of heavy metals in running waters in Sweden. Water, Air, and Soil Pollution, 85, 779–784.
Kelly, C. A., Rudd, J. W. M., Bodaly, R. A., Roulet, N. P., St. Louis, V. L., Heyes, A., et al. (1997). Increases in fluxes of greenhouse gases and methyl mercury following flooding of an experimental reservoir. Environmental Science & Technology, 31, 1334–1344.
Knightes, C. D., Sunderland, E. M., Barber, M. C., Johnston, J. M., & Ambrose, R. B., Jr. (2009). Application of ecosystem-scale fate and bioaccumulation models to predict fish mercury response time to changes in atmospheric deposition. Environmental Toxicology and Chemistry, 28, 881–893.
Knudsen, G. J., & Hale, J. B. (1968). Food habits of otters in the Great Lakes region. Journal of Wildlife Management, 32, 89–93.
Korschgen, L. J. (1958). December food habits of mink in Missouri. Journal of Mammalogy, 39, 521–527.
Kruuk, H., & Conroy, J. W. H. (1991). Mortality of otters (Lutra lutra) in Shetland. Journal of Applied Ecology, 28, 83–94.
Kruuk, H., Conroy, J. W. H., & Webb, A. (1997). Concentrations of mercury in otters (Lutra lutra L.) in Scotland in relation to rainfall. Environmental Pollution, 96, 13–18.
Kucera, E. (1983). Mink and otter as indicators of mercury in Manitoba waters. Canadian Journal of Zoology, 61, 2250–2256.
Lake, J. L., Ryba, S. A., Serbst, J., Brown, C. F., IV, & Gibson, L. (2007). Mercury and stable isotopes of carbon and nitrogen in mink. Environmental Toxicology and Chemistry, 26, 2611–2619.
Larison, J. R., Likens, G. E., Fitzpatrick, J. W., & Crock, J. G. (2000). Cadmium toxicity among wildlife in the Colorado Rocky Mountains. Nature, 406, 181–183.
Lazerte, B., Evans, D., & Grauds, P. (1989). Deposition and transport of trace metals in an acidified catchment of Central Ontario. The Science of the Total Environment, 87(88), 209–221.
Lindberg, S. E., Harriss, R. C., & Turner, R. R. (1982). Atmospheric deposition of metals to forest vegetation. Science, 215, 1609–1611.
Linn, I. J., & Birks, J. D. S. (1981). Observations on the home ranges of feral American Mink (Mustela vison) in Devon, England, as revealed by radio-tracking. In J. A. Chapman & D. Pursley (Eds.), Worldwide furbearer conference proceedings, August, 3–11, 1980 (pp. 1088–1102). Maryland: Frostburg.
Lovett, G. M., Burns, D. A., Driscoll, C. T., Jenkins, J. C., Mitchell, M. J., Rustad, L., et al. (2007). Who needs environmental monitoring? Frontiers in Ecology and the Environment, 5, 253–260.
Ma, W.-C. (1996). Lead in mammals. In W. N. Beyer, G. H. Heinz, & A. W. Redmon-Norwood (Eds.), Environmental contaminants in wildlife: Interpreting tissue concentrations (pp. 281–296). Boca Raton: Lewis.
Magos, L., Peristianis, G. C., Clarkson, T. W., Brown, A., Preston, S., & Snowden, R. T. (1981). Comparative study of the sensitivity of male and female rats to methylmercury. Archives of Toxicology, 48, 11–20.
Mahaffey, K. R. (1974). Nutritional factors and susceptibility to lead toxicity. Environmental Health Perspectives, 15, 107–112.
Mason, R. P., Abbot, M. L., Bodaly, R. A., Bullock, O. R., Jr., Driscoll, C. T., Evers, D., et al. (2005). Monitoring the response to changing mercury deposition. Environmental Science & Technology, 39, 14a–22a.
Mason, R. P., Laporte, J.-M., & Andres, S. (2000). Factors controlling the bioaccumulation of mercury, methylmercury, arsenic, selenium, and cadmium by freshwater invertebrates and fish. Archives of Environmental Contamination and Toxicology, 38, 283–297.
Meador, J. P., Varanasi, U., Robisch, P. A., & Chan, S.-L. (1993). Toxic metals in pilot whales (Globicephala melaena) from strandings in 1986 and 1990 on Cape Cod, Massachusetts. Canadian Journal of Fisheries and Aquatic Sciences, 50, 2698–2706.
Melquist, W. E., & Hornocker, M. G. (1983). Ecology of river otters in west central Idaho. Wildlife Monographs, 83, 1–60.
Melquist, W. E., & Dronkert, A. E. (1987). River otter. In M. Novak, J. A. Baker, M. E. Obbard, & B. Malloch (Eds.), Wild furbearer management and conservation in North America (pp. 627–641). Toronto: Ontario Ministry of Natural Resources.
Melquist, W. E., Whitman, J. S., & Hornocker, M. G. (1981). Resource partitioning and coexistence of sympatric mink and river otter populations. In J. A. Chapman, & D. Pursley (Eds.), Worldwide furbearer conference proceedings, August 3–11, 1980 (pp. 187–220). Maryland: Frostburg.
Mierle, G., Addision, E. M., Macdonald, K. S., & Joachim, D. G. (2000). Mercury levels in tissues of otters from Ontario, Canada: Variation with age, sex and location. Environmental Toxicology and Chemistry, 19, 3044–3051.
Miller, E. K., & Friedland, A. J. (1994). Lead migration in forest soils: Response to changing atmospheric inputs. Environmental Science & Technology, 28, 662–669.
Mitchell, J. L. (1961). Mink movements and populations on a Montana river. Journal of Wildlife Mangement, 25, 48–54.
Munthe, J., Bodaly, R. A., Branfireun, B. A., Driscoll, C. T., Gilmour, C. C., Harris, R., et al. (2007). Recovery of mercury-contaminated fisheries. Ambio, 36, 33–44.
Musante, C. L., Ellingwood, M. R., & Stilwell, D. E. (1993). Cadmium contamination of deer livers in Connecticut. Bulletin of Environmental Contamination and Toxicology, 51, 838–843.
New York State Department of Environmental Conservation (2003). Master habitat data bank. Albany: New York State Department of Environmental Conservation.
Nolet, B. A., Dijkstra, V. A. A., & Heidecke, D. (1994). Cadmium in beavers translocated from the Elbe River to the Rhine/Meuse Estuary, and the possible effect on population growth rate. Archives of Environmental Contamination and Toxicology, 27, 154–161.
O’ Connor, D. J., & Nielsen, S. W. (1981). Environmental survey of methylmercury levels in wild mink (Mustela vison) and otter (Lutra canadensis) from the northeastern United States and experimental pathology of methylmercurialism in the otter. In J. A. Chapman, & D. Pursley (Eds.), Worldwide furbearer conference proceedings, August, 3–11, 1980 (pp. 1728–1745). Maryland: Frostburg.
Omernik, J. M. (1987). Ecoregions of the conterminous United States. Annals of the Association of American Geographers, 77, 118–125.
Omernik, J. M., & Bailey, R. G. (1997). Distinguishing between watersheds and ecoregions. Journal of the American Water Resources Association, 33, 935–949.
Pahlsson, A.-M. B. (1989). Toxicity of heavy metals (Zn, Cu, Cd, Pb) to vascular plants. Water, Air, and Soil Pollution, 47, 287–319.
Pennuto, C. M., Lane, O. P., Evers, D. C., Taylor, R. J., & Loukmas, J. (2005). Mercury in the northern crayfish, Orconectes virilis (Hagen), in New England. USA Ecotoxicology, 14, 149–162.
Poole, K. G., Elkin, B. T., & Bethke, R. W. (1995). Environmental contaminants in wild mink in the Northwest Territiories, Canada. The Science of the Total Environment, 160(161), 473–486.
Poole, K. G., Elkin, B. T., & Bethke, R. W. (1998). Organochlorine and heavy metal contaminants in wild mink in western Northwest Territories, Canada. Archives of Environmental Contamination and Toxicology, 34, 406–413.
Racey, G. D., & Euler, D. L. (1983). Changes in mink habitat and food selection as influenced by cottage development in central Ontario. Journal of Applied Ecology, 20, 387–401.
Reinecke, A. J., Reinecke, S. A., Musilbono, D. E., & Chapman, A. (2000). The transfer of lead (Pb) from earthworms to shrews (Myosorex varius). Archives of Environmental Contamination and Toxicology, 39, 392–397.
Rimmer, C. C., Mcfarland, K. P., Evers, D. C., Miller, E. K., Aubry, Y., Busby, D., et al. (2005). Mercury concentrations in Bicknell’s thrush and other insectivorous passerines in montane forests of northeast North America. Ecotoxicology, 14, 223–240.
Ropek, R. M., & Neely, R. K. (1993). Mercury levels in Michigan river otters, Lutra canadensis. Journal of Freshwater Ecology, 8, 141–147.
SAS Institute (1985). SAS/STAT guide for personal computers version (6th ed.). Cary: SAS Institute.
Savchenko, V. V., & Sidorovich, V. E. (1994). Contents of heavy metals in American mink (Mustela vison): Intake, accumulation, elimination. Possibilities of bioindication. Russian Journal of Ecology, 25, 459–464.
Scharenberg, W., & Ebeling, E. (1996). Distribution of heavy metals in a woodland food web. Bulletin of Environmental Contamination and Toxicology, 56, 389–396.
Scheuhammer, A. M., Meyer, M. W., Sandheinrich, M. B., & Murray, M. W. (2007). Effects of environmental methylmercury on the health of wild birds, mammals and fish. Ambio, 36, 12–18.
Sealander, J. A. (1943). Winter food habits of mink in southern Michigan. Journal of Wildlife Management, 7, 411–417.
Serfass, T. L., Rymon, L. M., & Brooks, R. P. (1990). Feeding relationships of river otters in northeastern Pennsylvania. Transactions of the Northeast Section of the Wildlife Society, 47, 43–53.
Simonin, H. A., Loukmas, J. J., Skinner, L. C., & Roy, K. M. (2008). Lake variability: Key factors controlling mercury concentrations in New York State fish. Environmental Pollution, 154, 107–115.
St. Louis, V. L., Rudd, J. W. M., Kelly, C. A., Bodaly, R. A., Paterson, M. J., Beaty, K. G., et al. (2004). The rise and fall of mercury methylation in an experimental reservoir. Environmental Science & Technology, 38, 1348–1358.
Steinnes, E. (1990). Lead, cadmium and other metals in Scandinavian surface waters, with emphasis on acidification and atmospheric deposition. Environmental Toxicology and Chemistry, 9, 825–831.
Stemberger, R. S., & Chen, C. Y. (1998). Fish tissue metals and zooplankton assemblages of northeastern U.S. lakes. Canadian Journal of Fish and Aquatic Sciences, 55, 339–352.
Strom, S. M. (2007). Total mercury and methylmercury residues in river otters (Lutra canadensis) from Wisconsin. Archives of Environmental Contamination and Toxicology, 54, 546–554.
Suedel, B. C., Boraczek, J. A., Peddicord, R. K., Clifford, P. A., & Dillon, T. M. (1994). Trophic transfer and biomagnification potential of contaminants in aquatic ecosystems. Reviews of Environmental Contamination and Toxicology, 136, 21–89.
Talmage, S. S., & Walton, B. T. (1991). Small mammals as monitors of environmental contaminants. Reviews of Environmental Contamination and Toxicology, 119, 47–145.
Venalainen, E.-R., Niemi, A., & Hirvi, T. (1996). Heavy metals in tissues of hares in Finland, 1980–82 and 1992–93. Bulletin of Environmental Contamination and Toxicology, 56, 251–258.
Wang, E. X., & Benoit, G. (1996). Mechanisms controlling the mobility of lead in the spodosols of a northern hardwood forest ecosystem. Environmental Science & Technology, 30, 2211–2219.
Wang, E. X., Bormann, F. H., & Benoit, G. (1995). Evidence of complete retention of atmospheric lead in the soils of northern hardwood forested ecosystems. Environmental Science & Technology, 29, 735–739.
Whittier, T. R., Paulsen, S. G., Larsen, D. P., Peterson, S. A., Herlihy, A. T., & Kaufmann, P. R. (2002). Indicators of ecological stress and their extent in the population of northeastern lakes: A regional-scale assessment. BioScience, 52, 235–247.
Wiener, J. G. (1987). Metal contamination of fish in low-pH lakes and potential implications for piscivorous wildlife. Transactions of the 52nd North American Wildlife and Natrual Resources Conference, 52, 645–657.
Will, G. B., Stumvoll, R. D., Gotie, R. F., & Smith, E. S. (1982). The ecological zones of northern New York. New York Fish and Game Journal, 29, 1–25.
Wolfe, M. F., Schwarzbach, S., & Sulaiman, R. A. (1998). Effects of mercury on wildlife: A comprehensive review. Environmental Toxicology and Chemistry, 17, 146–160.
Wren, C., Hunter, D. B., Leatherland, J. F., & Stokes, P. M. (1987). The effects of polychlorinated biphenyls and methlymercury, singly and in combination, on mink. I: Uptake and toxic responses. Archives of Environmental Contamination and Toxicology, 16, 441–447.
Wren, C. D. (1986a). Mammals as biological monitors of environmental metal levels. Environmental Monitoring and Assessment, 6, 127–144.
Wren, C. D. (1986b). A review of metal accumulation and toxicity in wild mammals. I. Mercury. Environmental Research, 40, 210–244.
Wren, C. D., Fischer, K. L., & Stokes, P. M. (1988). Levels of lead, cadmium and other elements in mink and otter from Ontario, Canada. Environmental Pollution, 52, 193–202.
Wren, C. D., Harris, S., & Harttrup, N. A. (1995). Ecotoxicology of mercury and cadmium. In D. J. Hoffman, B. A. Rattner, G. A. Burton Jr., & J. Cairns Jr. (Eds.), Handbook of Ecotoxicology (pp. 392–423). Boca Raton: Lewis.
Wren, C. D., Stokes, P. M., & Fischer, K. L. (1986). Mercury levels in Ontario mink and otter relative to food levels and environmental acidification. Canadian Journal of Zoology, 64, 2854–2859.
Yates, D. E., Mayack, D. T., Munney, K., Evers, D. C., Major, A., Kaur, T., et al. (2005). Mercury levels in mink (Mustela vison) and river otter (Lontra canadensis) from Northeastern North America. Ecotoxicology, 14, 263–274.
Yeardley, R. B., Jr., Lazorchak, J. M., & Paulsen, S. G. (1998). Elemental fish tissue contamination in northeastern US lakes: Evaluation of an approach to regional assessment. Environmental Toxicology and Chemistry, 17, 1875–1884.
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Mayack, D.T. Hepatic mercury, cadmium, and lead in mink and otter from New York State: monitoring environmental contamination. Environ Monit Assess 184, 2497–2516 (2012). https://doi.org/10.1007/s10661-011-2134-3
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DOI: https://doi.org/10.1007/s10661-011-2134-3