J. T. Ackerman, C. A. Eagles-smith, and M. P. Herzog, Bird Mercury Concentrations Change Rapidly as Chicks Age: Toxicological Risk is Highest at Hatching and Fledging, Environmental Science & Technology, vol.45, pp.5418-5425, 2011.

J. T. Ackerman, C. A. Eagles-smith, M. P. Herzog, C. A. Hartman, S. H. Peterson et al.,

C. E. Bryan, Avian mercury exposure and toxicological risk across western North America: A synthesis, Science of the Total Environment, vol.568, pp.749-769, 2016.

J. T. Ackerman, C. A. Hartman, C. A. Eagles-smith, M. P. Herzog, J. Davis et al., Estimating Mercury Exposure of Piscivorous Birds and Sport Fish Using Prey Fish Monitoring, Environmental Science & Technology, vol.49, pp.13596-13604, 2015.

A. , Human Health in the Arctic. Arctic Monitoring and Assessment Programme (AMAP), 2015.

M. E. Atcheson, K. W. Myers, D. A. Beauchamp, and N. J. Mantua, Bioenergetic Response by Steelhead to Variation in Diet, Thermal Habitat, and Climate in the North Pacific Ocean, Transactions of the American Fisheries Society, vol.141, pp.1081-1096, 2012.

H. Awata, S. Linder, L. E. Mitchell, and G. L. Delclos, Association of Dietary Intake and Biomarker Levels of Arsenic, Cadmium, Lead, and Mercury among Asian Populations in the United States: NHANES, Environmental Health Perspectives, vol.125, pp.314-323, 2011.

G. R. Barcelos, M. F. Souza, A. A. De-oliveira, A. V. Lengert, M. T. De-oliveira et al., Effects of genetic polymorphisms on antioxidant status and concentrations of the metals in the blood of riverside Amazonian communities coexposed to Hg and Pb, Environmental Research, vol.138, pp.224-232, 2015.

G. R. Barcelos, D. Grotto, K. C. De-marco, J. Valentini, A. V. Lengert et al.,

F. Barbosa, Polymorphisms in glutathione-related genes modify mercury concentrations and antioxidant status in subjects environmentally exposed to methylmercury, Science of the Total Environment, vol.463, pp.319-325, 2013.

N. Basu, E. Clarke, A. Green, B. Calys-tagoe, L. Chan et al.,

M. L. Wilson, Integrated Assessment of Artisanal and Small-Scale Gold Mining in Ghana-Part 1: Human Health Review, International Journal of Environmental Research and Public Health, vol.12, pp.5143-5176, 2015.

N. Basu, J. M. Goodrich, and J. Head, ECOGENETICS OF MERCURY: FROM GENETIC POLYMORPHISMS AND EPIGENETICS TO RISK ASSESSMENT AND DECISION-MAKING. Environmental Toxicology and Chemistry, vol.33, pp.1248-1258, 2014.

N. Basu, J. Head, D. H. Nam, J. R. Pilsner, M. J. Carvan et al.,

A. M. Scheuhammer, Effects of methylmercury on epigenetic markers in three model species: Mink, chicken and yellow perch, Comparative Biochemistry and Physiology C-Toxicology & Pharmacology, vol.157, pp.322-327, 2013.

N. Basu, D. H. Nam, E. Kwansaa-ansah, E. P. Renne, and J. O. Nriagu, Multiple metals exposure in a small-scale artisanal gold mining community, Environmental Research, vol.111, pp.463-467, 2011.

N. Basu, E. P. Renne, and R. N. Long, An Integrated Assessment Approach to Address Artisanal and Small-Scale Gold Mining in Ghana, Int J Environ Res Public Health, vol.12, pp.11683-11698, 2015.

N. Basu, C. J. Stamler, K. M. Loua, and H. M. Chan, An interspecies comparison of mercury inhibition on muscarinic acetylcholine receptor binding in the cerebral cortex and cerebellum, Toxicol Appl Pharmacol, vol.205, pp.71-76, 2005.

J. K. Baum and B. Worm, Cascading top-down effects of changing oceanic predator abundances, Journal of Animal Ecology, vol.78, pp.699-714, 2009.

Z. Baumann, R. P. Mason, D. O. Conover, P. Balcom, C. Y. Chen et al., Mercury bioaccumulation increases with latitude in a coastal marine fish (Atlantic silverside, Menidia menidia), Canadian Journal of Fisheries and Aquatic Sciences, vol.74, pp.1009-1015, 2017.

C. V. Baxter, K. D. Fausch, M. Murakami, and P. L. Chapman, Fish invasion restructures stream and forest food webs by interrupting reciprocal prey subsidies, Ecology, vol.85, pp.2656-2663, 2004.

D. J. Becker, M. M. Chumchal, A. B. Bentz, S. G. Platt, G. A. Czirjak et al.,

D. G. Streicker, Predictors and immunological correlates of sublethal mercury exposure in vampire bats, Royal Society Open Science, vol.4, 2017.

J. C. Bemis and R. F. Seegal, Polychlorinated biphenyls and methylmercury act synergistically to reduce rat brain dopamine content in vitro, Environmental Health Perspectives, vol.107, pp.879-885, 1999.

C. M. Bergeron, W. A. Hopkins, B. D. Todd, M. J. Hepner, and J. M. Unrine, Interactive effects of maternal and dietary mercury exposure have latent and lethal consequences for amphibian larvae, Environ Sci Technol, vol.45, pp.3781-3787, 2011.

P. Bjerregaard and A. Christensen, Selenium Reduces the Retention of Methyl Mercury in the Brown Shrimp Crangon crangon, Environmental Science & Technology, vol.46, pp.6324-6329, 2012.

P. Bjerregaard, S. Fjordside, M. G. Hansen, and M. B. Petrova, Dietary Selenium Reduces Retention of Methyl Mercury in Freshwater Fish, Environmental Science & Technology, vol.45, pp.9793-9798, 2011.

G. Bjorklund, J. Aaseth, O. P. Ajsuvakova, A. A. Nikonorov, A. V. Skalny et al., Molecular interaction between mercury and selenium in neurotoxicity, Coordination Chemistry Reviews, vol.332, pp.30-37, 2017.

R. A. Bodaly, W. A. Jansen, A. R. Majewski, R. J. Fudge, N. E. Strange et al., Postimpoundment time course of increased mercury concentrations in fish in hydroelectric reservoirs of northern Manitoba, Canada. Arch Environ Contam Toxicol, vol.53, pp.379-389, 2007.

M. A. Bradley, B. D. Barst, and N. Basu, A Review of Mercury Bioavailability in Humans and Fish, International Journal of Environmental Research and Public Health, vol.14, 2017.

V. Branco, S. Caito, M. Farina, J. T. Da-rocha, M. Aschner et al., Biomarkers of mercury toxicity: Past, present, and future trends, Journal of Toxicology and Environmental Health-Part B-Critical Reviews, vol.20, pp.119-154, 2017.

B. M. Braune, P. M. Outridge, A. T. Fisk, D. C. Muir, P. A. Helm et al.,

I. Stirling, Persistent organic pollutants and mercury in marine biota of the Canadian Arctic: an overview of spatial and temporal trends, Sci Total Environ, vol.351, pp.4-56, 2005.

K. N. Bridges, B. K. Soulen, C. L. Overturf, P. E. Drevnick, and A. P. Roberts, EMBRYOTOXICITY OF MATERNALLY TRANSFERRED METHYLMERCURY TO FATHEAD MINNOWS (PIMEPHALES PROMELAS). Environmental Toxicology and Chemistry, vol.35, pp.1436-1441, 2016.

L. Brinkmann and J. B. Rasmussen, High levels of mercury in biota of a new Prairie irrigation reservoir with a simplified food web in Southern Alberta, Canada. Hydrobiologia, vol.641, pp.11-21, 2010.

N. M. Burgess, D. C. Evers, and J. D. Kaplan, Mercury and other contaminants in common loons breeding in Atlantic Canada, Ecotoxicology, vol.14, pp.241-252, 2005.

N. M. Burgess and M. W. Meyer, Methylmercury exposure associated with reduced productivity in common loons, Ecotoxicology, vol.17, pp.83-91, 2008.

C. Caminade, S. Kovats, J. Rocklov, A. M. Tompkins, A. P. Morse et al., Impact of climate change on global malaria distribution, Proc Natl Acad Sci U S A, vol.111, pp.3286-3291, 2014.

A. Cantoral, C. Batis, and N. Basu, National estimation of seafood consumption in Mexico: Implications for exposure to methylmercury and polyunsaturated fatty acids, Chemosphere, vol.174, pp.289-296, 2017.

R. Canuel, S. B. De-grosbois, M. Lucotte, P. Arp, C. Ritchie et al., New evidence on variations of human body burden of methylmercury from fish consumption, Environmental Health Perspectives, vol.114, pp.302-306, 2006.

S. R. Carpenter and E. M. Bennett, Reconsideration of the planetary boundary for phosphorus, Environmental Research Letters, vol.6, 2011.

S. R. Carpenter, N. F. Caraco, D. L. Correll, R. W. Howarth, A. N. Sharpley et al., Nonpoint pollution of surface waters with phosphorus and nitrogen, Ecological Applications, vol.8, pp.559-568, 1998.

M. J. Carvan, T. A. Kalluvila, R. H. Klingler, J. K. Larson, M. Pickens et al.,

M. K. Skinner, Mercury-induced epigenetic transgenerational inheritance of abnormal neurobehavior is correlated with sperm epimutations in zebrafish, PLoS One, vol.12, 2017.

O. Cauli, B. Piedrafita, M. Llansola, and V. Felipo, Gender differential effects of developmental exposure to methyl-mercury, polychlorinated biphenyls 126 or 153, or its combinations on motor activity and coordination, Toxicology, vol.311, pp.61-68, 2013.

H. M. Chan, A. M. Scheuhammer, A. Ferran, C. Loupelle, J. Holloway et al., Impacts of mercury on freshwater fish-eating wildlife and humans, Human and Ecological Risk Assessment, vol.9, pp.867-883, 2003.

L. Chapman and H. M. Chan, The influence of nutrition on methyl mercury intoxication, Environmental Health Perspectives, vol.108, pp.29-56, 2000.

C. Chen and C. L. Folt, High plankton densities reduce mercury biomagnification, Envionmental Science and Technology, vol.39, pp.115-121, 2005.

A. L. Choi, U. B. Mogensen, K. S. Bjerve, F. Debes, P. Weihe et al., Negative confounding by essential fatty acids in methylmercury neurotoxicity associations, Neurotoxicology and Teratology, vol.42, pp.85-92, 2014.

K. Y. Christensen, B. A. Thompson, M. Werner, K. Malecki, P. Imm et al., Levels of persistent contaminants in relation to fish consumption among older male anglers in Wisconsin, International Journal of Hygiene and Environmental Health, vol.219, pp.184-194, 2016.

N. S. Christensen, A. W. Wood, N. Voisin, D. P. Lettenmaier, and R. N. Palmer, The effects of climate change on the hydrology and water resources of the Colorado River basin, Climatic Change, vol.62, pp.337-363, 2004.

M. M. Chumchal and R. W. Drenner, An environmental problem hidden in plain sight? Small Human-made ponds, emergent insects, and mercury contamination of biota in the Great Plains, Environmental Toxicology and Chemistry, vol.34, pp.1197-1205, 2015.

A. M. Cisneros-montemayor, D. Pauly, L. V. Weatherdon, and Y. Ota, A Global Estimate of Seafood Consumption by Coastal Indigenous Peoples, PLoS One, vol.11, 2016.

T. W. Clarkson and L. Magos, The toxicology of mercury and its chemical compounds, Crit Rev Toxicol, vol.36, pp.609-662, 2006.

L. Copan, J. Fowles, T. Barreau, and N. Mcgee, Mercury Toxicity and Contamination of Households from the Use of Skin Creams Adulterated with Mercurous Chloride (Calomel), International Journal of Environmental Research and Public Health, vol.12, pp.10943-10954, 2015.

W. Crowe, P. J. Allsopp, G. E. Watson, P. J. Magee, J. J. Strain et al., Mercury as an environmental stimulus in the development of autoimmunity -A systematic review, Autoimmunity Reviews, vol.16, pp.72-80, 2017.

W. Crowe, L. Breslin, G. Watson, A. Bell, J. Strain et al., Hair mercury is inversely related to disease associated damage in systemic lupus erythematosus, Clinical and Experimental Rheumatology, vol.33, pp.81-81, 2015.

H. M. Custodio, R. Harari, L. Gerhardsson, S. Skerfving, and K. Broberg, Genetic influences on the retention of inorganic mercury, Archives of Environmental Health, vol.60, pp.17-23, 2005.

M. L. Cuvin-aralar and R. W. Furness, Mercury and Selenium Interaction -a Review, Ecotoxicology and Environmental Safety, vol.21, pp.348-364, 1991.

V. H. Dale, The relationship between land-use change and climate change, Ecological Applications, vol.7, pp.753-769, 1997.

F. Dang and W. X. Wang, Antagonistic Interaction of Mercury and Selenium in a Marine Fish Is Dependent on Their Chemical Species, Environmental Science & Technology, vol.45, pp.3116-3122, 2011.

K. Das, A. Dupont, M. C. De-pauw-gillet, C. Debier, and U. Siebert, Absence of selenium protection against methylmercury toxicity in harbour seal leucocytes in vitro, Mar Pollut Bull, vol.108, pp.70-76, 2016.

G. M. Daskalov, A. N. Grishin, S. Rodionov, and V. Mihneva, Trophic cascades triggered by overfishing reveal possible mechanisms of ecosystem regime shifts, Proc Natl Acad Sci U S A, vol.104, pp.10518-10523, 2007.

L. A. David, C. F. Maurice, R. N. Carmody, D. B. Gootenberg, J. E. Button et al., Diet rapidly and reproducibly alters the human gut microbiome, Nature, vol.505, p.559, 2014.

E. C. De-oliveira, E. S. Santos, P. Zeilhofer, R. Souza-santos, and M. Atanaka-santos, Geographic information systems and logistic regression for high-resolution malaria risk mapping in a rural settlement of the southern Brazilian Amazon, Malaria Journal, vol.12, 2013.

D. C. Depew, N. Basu, N. M. Burgess, L. M. Campbell, E. W. Devlin et al., Toxicity of dietary methylmercury to fish: derivation of ecologically meaningful threshold concentrations, Environ Toxicol Chem, vol.31, pp.1536-1547, 2012.

D. C. Depew, N. Basu, N. M. Burgess, L. M. Campbell, D. C. Evers et al., Derivation of screening benchmarks for dietary methylmercury exposure for the common loon (Gavia immer): rationale for use in ecological risk assessment, Environmental Toxicology and Chemistry, vol.31, pp.2399-2407, 2012.

J. P. Desforges, C. Sonne, M. Levin, U. Siebert, S. De-guise et al., Immunotoxic effects of environmental pollutants in marine mammals, Environment International, vol.86, pp.126-139, 2016.

R. R. Dietert and E. K. Silbergeld, Biomarkers for the 21st Century: Listening to the Microbiome, Toxicological Sciences, vol.144, pp.208-216, 2015.

J. A. Dijkstra, K. L. Buckman, D. Ward, D. W. Evans, M. Dionne et al., Experimental and Natural Warming Elevates Mercury Concentrations in Estuarine Fish, PLoS One, vol.8, 2013.

N. C. Dlova, S. H. Hamed, J. Tsoka-gwegweni, and A. Grobler, Skin lightening practices: an epidemiological study of South African women of African and Indian ancestries, British Journal of Dermatology, vol.173, pp.2-9, 2015.

D. L. Doolan, C. Dobano, and J. K. Baird, Acquired Immunity to Malaria, Clinical Microbiology Reviews, vol.22, pp.13-36, 2009.

M. E. Dorcas, J. D. Willson, R. N. Reed, R. W. Snow, M. R. Rochford et al.,

K. M. Hart, Severe mammal declines coincide with proliferation of invasive Burmese pythons in Everglades National Park, Proc Natl Acad Sci U S A, vol.109, pp.2418-2422, 2012.

J. G. Dorea, Low-dose Thimerosal in pediatric vaccines: Adverse effects in perspective, Environmental Research, vol.152, pp.280-293, 2017.

J. G. Dorea, A. C. Barbosa, I. Ferrari, J. R. De, and . Souza, Mercury in hair and in fish consumed by Riparian women of the Rio Negro, Amazon, Brazil, Int J Environ Health Res, vol.13, pp.239-248, 2003.

J. G. Dorea, J. R. Souza, P. Rodrigues, I. Ferrari, and A. C. Barbosa, Hair mercury (signature of fish consumption) and cardiovascular risk in Munduruku and Kayabi Indians of Amazonia, Environmental Research, vol.97, pp.209-219, 2005.

J. A. Downing, Emerging global role of small lakes and ponds: little things mean a lot, Limnetica, vol.29, pp.9-23, 2010.

J. A. Downing, Y. T. Prairie, J. J. Cole, C. M. Duarte, L. J. Tranvik et al.,

J. J. Middelburg, The global abundance and size distribution of lakes, ponds, and impoundments, Limnology and Oceanography, vol.51, pp.2388-2397, 2006.

C. T. Driscoll, C. Y. Chen, C. R. Hammerschmidt, R. P. Mason, C. C. Gilmour et al., Nutrient supply and mercury dynamics in marine ecosystems: A conceptual model, Environmental Research, vol.119, pp.118-131, 2012.

C. T. Driscoll, R. P. Mason, H. M. Chan, D. J. Jacob, and N. Pirrone, Mercury as a global pollutant: sources, pathways, and effects, Environ Sci Technol, vol.47, pp.4967-4983, 2013.

E. C. Duarte and C. J. Fontes, Association between reported annual gold-mining extraction and incidence of malaria in Mato Gasso-Brazil, Revista da Sociedade Brasileira de Medicina Tropical, vol.35, pp.665-668, 1985.

C. A. Eagles-smith and J. T. Ackerman, Mercury bioaccumulation in estuarine wetland fishes: evaluating habitats and risk to coastal wildlife, Environ Pollut, vol.193, pp.147-155, 2014.

C. A. Eagles-smith, J. T. Ackerman, J. J. Willacker, M. T. Tate, M. A. Lutz et al., Spatial and temporal patterns of mercury concentrations in freshwater fish across the Western United States and Canada, Science of the Total Environment, vol.568, pp.1171-1184, 2016.

C. A. Eagles-smith, J. T. Ackerman, J. Yee, and T. L. Adelsbach, Mercury Demethylation in Waterbird Livers: Dose-Response Thresholds and Differences among Species, vol.28, pp.568-577, 2009.

C. A. Eagles-smith, G. Herring, B. Johnson, and R. Graw, Conifer density within lake catchments predicts fish mercury concentrations in remote subalpine lakes, Environ Pollut, vol.212, pp.279-289, 2016.

C. A. Eagles-smith, T. H. Suchanek, A. E. Colwell, N. L. Anderson, and P. B. Moyle, Changes in Fish Diets and Food Web Mercury Bioaccumulation Induced by an Invasive Planktivorous Fish, Ecological Applications, vol.18, pp.213-226, 2008.

J. G. Ehrenfeld, Effects of exotic plant invasions on soil nutrient cycling processes, Ecosystems, vol.6, pp.503-523, 2003.

G. B. Ehret, P. B. Munroe, K. M. Rice, M. Bochud, A. D. Johnson et al., Genetic variants in novel pathways influence blood pressure and cardiovascular disease risk, Nature, vol.478, pp.103-109, 2011.

K. Engstrom, S. Ameer, L. Bernaudat, G. Drasch, J. Baeuml et al.,

K. Broberg, Polymorphisms in Genes Encoding Potential Mercury Transporters and Urine Mercury Concentrations in Populations Exposed to Mercury Vapor from Gold Mining, Environmental Health Perspectives, vol.121, pp.85-91, 2013.

T. E. Essington, A. H. Beaudreau, and J. Wiedenmann, Fishing through marine food webs, Proc Natl Acad Sci U S A, vol.103, pp.3171-3175, 2006.

T. E. Essington and J. N. Houser, The effect of whole-lake nutrient enrichment on mercury concentration in age-1 yellow perch, Transactions of the American Fisheries Society, vol.132, pp.57-68, 2003.

D. O. Evans and D. H. Loftus, Colonization of Inland Lakes in the Great-Lakes Region by Rainbow Smelt, Osmerus-Mordax -Their Fresh-Water Niche and Effects on Indigenous Fishes, Canadian Journal of Fisheries and Aquatic Sciences, vol.44, pp.249-266, 1987.

R. D. Evans, N. M. Grochowina, N. Basu, E. M. O'connor, B. E. Hickie et al.,

H. M. Chan, Uptake of selenium and mercury by captive mink: Results of a controlled feeding experiment, Chemosphere, vol.144, pp.1582-1588, 2016.

D. C. Evers, L. J. Savoy, C. R. Desorbo, D. E. Yates, W. Hanson et al., Adverse effects from environmental mercury loads on breeding common loons, Ecotoxicology, vol.17, pp.69-81, 2008.

D. M. Fallacara, R. S. Halbrook, and J. B. French, TOXIC EFFECTS OF DIETARY METHYLMERCURY ON IMMUNE FUNCTION AND HEMATOLOGY IN AMERICAN KESTRELS (FALCO SPARVERIUS). Environmental Toxicology and Chemistry, vol.30, pp.1320-1327, 2011.

X. B. Feng, P. Li, G. L. Qiu, S. Wang, G. H. Li et al., Human exposure to methylmercury through rice intake in mercury mining areas, guizhou province, china. Environmental Science & Technology, vol.42, pp.326-332, 2008.

A. D. Ficke, C. A. Myrick, and L. J. Hansen, Potential impacts of global climate change on freshwater fisheries, Reviews in Fish Biology and Fisheries, vol.17, pp.581-613, 2007.

C. Fischer, A. Fredriksson, and P. Eriksson, Neonatal co-exposure to low doses of an ortho-PCB (PCB 153) and methyl mercury exacerbate defective developmental neurobehavior in mice, Toxicology, vol.244, pp.157-165, 2008.

W. G. Franzin, B. A. Barton, R. A. Remnant, W. D. , and P. S. , Range extension, present and potential distribution, and possible effects of rainbow smelt in Hudson Bay drainage waters of northwestern Ontario, North American Journal of Fisheries Management, vol.14, pp.65-76, 1994.

K. J. French, M. R. Anderson, D. A. Scruton, and L. J. Ledrew, Fish mercury levels in relation to characteristics of hydroelectric reservoirs in Newfoundland, Canada. Biogeochemistry, vol.40, pp.217-233, 1998.

G. Friedl and A. Wuest, Disrupting biogeochemical cycles -Consequences of damming, Aquatic Sciences, vol.64, pp.55-65, 2002.

H. Frouin, L. L. Loseto, G. A. Stern, M. Haulena, and P. S. Ross, Mercury toxicity in beluga whale lymphocytes: Limited effects of selenium protection, Aquat Toxicol, vol.109, pp.185-193, 2012.

G. M. Gadd, Metals, minerals and microbes: geomicrobiology and bioremediation, vol.156, pp.609-643, 2010.

C. M. Gallagher, D. M. Smith, M. G. Golightly, and J. R. Meliker, Total blood mercury and rubella antibody concentrations in US children aged 6-11 years, Science of the Total Environment, vol.442, pp.48-55, 2003.

C. M. Gallagher, D. M. Smith, and J. R. Meliker, Total blood mercury and serum measles antibodies in US children, Science of the Total Environment, vol.410, pp.65-71, 2003.

J. Gao and Y. S. Liu, Climate warming and land use change in Heilongjiang Province, Northeast China. Applied Geography, vol.31, pp.476-482, 2011.

R. M. Gardner, J. F. Nyland, and E. K. Silbergeld, Differential immunotoxic effects of inorganic and organic mercury species in vitro, Toxicology Letters, vol.198, pp.182-190, 2010.

R. M. Gardner, J. F. Nyland, I. A. Silva, A. M. Ventura, J. M. De-souza et al., Mercury exposure, serum antinuclear/antinucleolar antibodies, and serum cytokine levels in mining populations in Amazonian Brazil: A cross-sectional study, Environmental Research, vol.110, pp.345-354, 2010.

M. H. Gbetoh and M. Amyot, Mercury, hydroquinone and clobetasol propionate in skin lightening products in West Africa and Canada, Environmental Research, vol.150, pp.403-410, 2016.

L. A. Geer, M. D. Persad, C. D. Palmer, A. J. Steuerwald, M. Dalloul et al., Assessment of prenatal mercury exposure in a predominately Caribbean, Journal of Environmental Monitoring, vol.14, pp.1035-1043, 2012.

S. Gentes, M. Monperrus, A. Legeay, R. Maury-brachet, S. Davail et al., Incidence of invasive macrophytes on methylmercury budget in temperate lakes: Central role of bacterial periphytic communities, Environmental Pollution, vol.172, pp.116-123, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01702557

P. M. Gerrard and V. L. St-louis, The effects of experimental reservoir creation on the bioaccumulation of methylmercury and reproductive success of tree swallows (Tachycineta bicolor), Environ Sci Technol, vol.35, pp.1329-1338, 2001.

H. Gibb and K. G. O'leary, Mercury Exposure and Health Impacts among Individuals in the Artisanal and Small-Scale Gold Mining Community: A Comprehensive Review, Environmental Health Perspectives, vol.122, pp.667-672, 2014.

C. C. Gilmour, M. Podar, A. L. Bullock, A. M. Graham, S. D. Brown et al., Mercury Methylation by Novel Microorganisms from New Environments. Environmental Science & Technology, vol.47, pp.11810-11820, 2013.

J. M. Goodrich, N. Basu, A. Franzblau, and D. C. Dolinoy, Mercury biomarkers and DNA methylation among michigan dental professionals, Environmental and Molecular Mutagenesis, vol.54, pp.195-203, 2013.

J. M. Goodrich, H. N. Chou, S. E. Gruninger, A. Franzblau, and N. Basu, Exposures of dental professionals to elemental mercury and methylmercury, Journal of Exposure Science and Environmental Epidemiology, vol.26, pp.78-85, 2016.

A. Goutte, C. Barbraud, D. Herzke, P. Bustamante, F. Angelier et al., Survival rate and breeding outputs in a high Arctic seabird exposed to legacy persistent organic pollutants and mercury, Environmental Pollution, vol.200, pp.1-9, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01143766

P. Grandjean, P. Weihe, V. W. Burse, L. L. Needham, E. Storr-hansen et al., Neurobehavioral deficits associated with PCB in 7-year-old children prenatally exposed to seafood neurotoxicants, Neurotoxicology and Teratology, vol.23, pp.305-317, 2001.

D. J. Green, M. Duffy, D. M. Janz, K. Mccullum, G. Carriere et al., Historical and Contemporary Patterns of Mercury in a Hydroelectric Reservoir and Downstream Fishery: Concentration Decline in Water and Fishes, Archives of Environmental Contamination and Toxicology, vol.71, pp.157-170, 2016.

M. O. Gribble, R. Karimi, B. J. Feingold, J. F. Nyland, T. M. O'hara et al., Mercury, selenium and fish oils in marine food webs and implications for human health, Journal of the Marine Biological Association of the United Kingdom, vol.96, pp.43-59, 2016.

C. Gundacker, G. Komamicki, P. Jagiello, A. Gencikova, N. Dahmen et al., Glutathione-S-transferase polymorphism, metallothionein expression, and mercury levels among students in Austria, Science of the Total Environment, vol.385, pp.37-47, 2007.

C. Gundacker, K. J. Wittmann, M. Kukuckova, G. Komarnicki, I. Hikkel et al., Genetic background of lead and mercury metabolism in a group of medical students in Austria, Environmental Research, vol.109, pp.786-796, 2009.

E. Ha, N. Basu, S. Bose-o'reilly, J. G. Dorea, E. Mcsorley et al., Current progress on understanding the impact of mercury on human health, Environmental Research, vol.152, pp.419-433, 2017.

C. W. Hanna, M. S. Bloom, W. P. Robinson, D. Kim, P. J. Parsons et al.,

V. Y. Fujimoto, DNA methylation changes in whole blood is associated with exposure to the environmental contaminants, mercury, lead, cadmium and bisphenol A, in women undergoing ovarian stimulation for IVF, Human Reproduction, vol.27, pp.1401-1410, 2012.

R. Harari, F. Harari, L. Gerhardsson, T. Lundh, S. Skerfving et al., Exposure and toxic effects of elemental mercury in gold-mining activities in Ecuador, Toxicology Letters, vol.213, pp.75-82, 2012.

J. E. Havel, C. E. Lee, and M. J. Vander-zanden, Do reservoirs facilitate invasions into landscapes, Bioscience, vol.55, pp.518-525, 2005.

D. M. Hawley, K. K. Hallinger, and D. A. Cristol, Compromised immune competence in free-living tree swallows exposed to mercury, Ecotoxicology, vol.18, pp.499-503, 2009.

G. H. Heinz, D. J. Hoffman, J. D. Klimstra, and K. R. Stebbins, A Comparison of the Teratogenicity of Methylmercury and Selenomethionine Injected Into Bird Eggs, Archives of Environmental Contamination and Toxicology, vol.62, pp.519-528, 2012.

B. L. Henderson, M. M. Chumchal, R. W. Drenner, Y. C. Deng, P. Diaz et al., Effects of fish on mercury contamination of macroinvertebrate communities of Grassland ponds, Environmental Toxicology and Chemistry, vol.31, pp.870-876, 2012.

E. R. Herbert, P. Boon, A. J. Burgin, S. C. Neubauer, R. B. Franklin et al., A global perspective on wetland salinization: ecological consequences of a growing threat to freshwater wetlands, 2015.

G. Herring, C. A. Eagles-smith, J. T. Ackerman, D. E. Gawlik, and J. M. Beerens, Landscape factors and hydrology influence mercury concentrations in wading birds breeding in the Florida Everglades, Science of the Total Environment, vol.458, pp.637-646, 2013.

J. M. Hightower and D. Moore, Mercury levels in high-end consumers of fish, Environmental Health Perspectives, vol.111, pp.604-608, 2003.

G. Hilson and C. Garforth, Agricultural Poverty' and the expansion of artisanal mining in sub-Saharan Africa: experiences from southwest Mali and southeast Ghana, Population Research and Policy Review, vol.31, pp.435-464, 2012.

C. Holeton, P. A. Chambers, and L. Grace, Wastewater release and its impacts on Canadian waters, Canadian Journal of Fisheries and Aquatic Sciences, vol.68, pp.1836-1859, 2011.

D. U. Hooper, E. C. Adair, B. J. Cardinale, J. E. Byrnes, B. A. Hungate et al.,

M. I. O'connor, A global synthesis reveals biodiversity loss as a major driver of ecosystem change, Nature, vol.486, pp.105-108, 2012.

B. C. Hopkins, J. D. Willson, and W. A. Hopkins, Mercury exposure is associated with negative effects on turtle reproduction, Environmental Science & Technology, vol.47, pp.2416-2422, 2013.

T. R. Hrabik, J. J. Magnuson, and A. S. Mclain, Predicting the effects of rainbow smelt on native fishes in small lakes: evidence from long-term research on two lakes, Canadian Journal of Fisheries and Aquatic Sciences, vol.55, pp.1364-1371, 1998.

H. Hsu-kim, C. Eckley, D. Acha, X. Feng, C. C. Gilmour et al., Challenges and Opportunities for Managing Aquatic Mercury Pollution in Altered Landscapes, p.2, 2017.

X. F. Hu, K. M. Eccles, and H. M. Chan, High selenium exposure lowers the odds ratios for hypertension, stroke, and myocardial infarction associated with mercury exposure among Inuit in Canada, Environment International, vol.102, pp.200-206, 2017.

S. S. Huang, A. B. Strathe, J. G. Fadel, M. L. Johnson, P. P. Lin et al., The interactive effects of selenomethionine and methylmercury on their absorption, disposition, and elimination in juvenile white sturgeon, Aquat Toxicol, vol.126, pp.274-282, 2013.

L. L. Hui, M. H. Chan, H. S. Lam, P. H. Chan, K. M. Kwok et al., Impact of fetal and childhood mercury exposure on immune status in children, Environmental Research, vol.144, pp.66-72, 2016.

C. Huttenhower, D. Gevers, R. Knight, S. Abubucker, J. H. Badger et al., Human Microbiome Project. 2012. Structure, function and diversity of the healthy human microbiome, Nature, vol.486, pp.207-214

L. D. Hylander, J. Grohn, M. Tropp, A. Vikstrom, H. Wolpher et al.,

L. J. Oliveira, Fish mercury increase in Lago Manso, a new hydroelectric reservoir in tropical Brazil, J Environ Manage, vol.81, pp.155-166, 2006.

N. G. Ilback, P. Frisk, J. Tallkvist, I. L. Gadhasson, J. Blomberg et al., Gastrointestinal uptake of trace elements are changed during the course of a common human viral (Coxsackievirus B3) infection in mice, Journal of Trace Elements in Medicine and Biology, vol.22, pp.120-130, 2008.

. Ipcc, Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, Synthesis Report, 2014.

J. H. Janse, J. J. Kuiper, M. J. Weijters, E. P. Westerbeek, M. Jeuken et al., GLOBIO-Aquatic, a global model of human impact on the biodiversity of inland aquatic ecosystems, Environmental Science & Policy, vol.48, pp.99-114, 2015.

S. Jennings, G. D. Stentiford, A. M. Leocadio, K. R. Jeffery, J. D. Metcalfe et al., Aquatic food security: insights into challenges and solutions from an analysis of interactions between fisheries, aquaculture, food safety, human health, fish and human welfare, economy and environment, Fish and Fisheries, vol.17, pp.893-938, 2016.

B. M. Johnson, J. M. Lepak, and B. A. Wolff, Effects of prey assemblage on mercury bioaccumulation in a piscivorous sport fish, Science of the Total Environment, vol.506, pp.330-337, 2015.

C. Johnson, Elemental mercury use in religious and ethnic practices in Latin American and Caribbean communities in New York City, Population and Environment, vol.20, pp.443-453, 1999.

T. A. Johnston, W. C. Leggett, R. A. Bodaly, and H. K. Swanson, Temporal changes in mercury bioaccumulation by predatory fishes of boreal lakes following the invasion of an exotic forage fish, Environmental Toxicology and Chemistry, vol.22, pp.2057-2062, 2003.

T. A. Jones, M. M. Chumchal, R. W. Drenner, G. N. Timmins, and W. H. Nowlin, Bottomup nutrient and top-down fish impacts on insect-mediated mercury flux from aquatic ecosystems, Environmental Toxicology and Chemistry, vol.32, pp.612-618, 2013.

N. C. Kamman, N. M. Burgess, C. T. Driscoll, H. A. Simonin, M. W. Goodale et al.,

D. A. Scruton, Mercury in Freshwater Fish of Northeast North America -A Geographic Perspective Based on Fish Tissue Monitoring Databases, Ecotoxicology, vol.14, pp.163-180, 2005.

M. R. Karagas, A. L. Choi, E. Oken, M. Horvat, R. Schoeny et al.,

S. Korrick, Evidence on the Human Health Effects of Low-Level Methylmercury Exposure, Environmental Health Perspectives, vol.120, pp.799-806, 2012.

R. Karimi, C. Y. Chen, and C. L. Folt, Comparing nearshore benthic and pelagic prey as mercury sources to lake fish: the importance of prey quality and mercury content, Sci Total Environ, vol.565, pp.211-221, 2016.

R. Karimi, T. P. Fitzgerald, and N. S. Fisher, A Quantitative Synthesis of Mercury in Commercial Seafood and Implications for Exposure in the United States, Environmental Health Perspectives, vol.120, pp.1512-1519, 2012.

R. Karimi, S. Silbernagel, N. S. Fisher, and J. R. Meliker, Elevated blood Hg at recommended seafood consumption rates in adult seafood consumers, International Journal of Hygiene and Environmental Health, vol.217, pp.758-764, 2014.

R. Karimi, C. Vacchi-suzzi, and J. R. Meliker, Mercury exposure and a shift toward oxidative stress in avid seafood consumers, Environmental Research, vol.146, pp.100-107, 2016.

D. Kasper, B. R. Forsberg, J. H. Amaral, R. P. Leitao, S. S. Py-daniel et al., Reservoir Stratification Affects Methylmercury Levels in River Water, Plankton, and Fish Downstream from Balbina Hydroelectric Dam, Brazil. Environmental Science & Technology, vol.48, pp.1032-1040, 2014.

A. L. Kau, P. P. Ahern, N. W. Griffin, A. L. Goodman, and J. I. Gordon, Human nutrition, the gut microbiome and the immune system, Nature, vol.474, pp.327-336, 2011.


K. A. Kidd, M. J. Paterson, R. H. Hesslein, D. C. Muir, and R. E. Hecky, Effects of northern pike (Esox lucius) additions on pollutant accumulation and food web structure, as determined by delta C-13 and delta N-15, in a eutrophic and an oligotrophic lake, Canadian Journal of Fisheries and Aquatic Sciences, vol.56, pp.2193-2202, 1999.

R. Klaper, C. B. Rees, P. Drevnick, D. Weber, M. Sandheinrich et al., Gene expression changes related to endocrine function and decline in reproduction in fathead minnow (Pimephales promelas) after dietary methylmercury exposure, Environmental Health Perspectives, vol.114, pp.1337-1343, 2006.

K. Kruzikova, L. Dusek, J. Jarkovsky, M. Hejtmanek, J. Vostradovsky et al., Long-Term Monitoring of Mercury Content in Fish From the Zelivka Reservoir-Syndrom of Newly Filled Reservoir, International Journal of Electrochemical Science, vol.6, pp.5956-5967, 2011.

L. Landler, M. S. Painter, B. H. Coe, P. W. Youmans, W. A. Hopkins et al., High levels of maternally transferred mercury disrupt magnetic responses of snapping turtle hatchlings (Chelydra serpentina), Environmental Pollution, vol.11, pp.19-25, 2017.

J. H. Larson, R. P. Maki, B. C. Knights, and B. R. Gray, Can mercury in fish be reduced by water level management? Evaluating the effects of water level fluctuation on mercury accumulation in yellow perch (Perca flavescens), Ecotoxicology, vol.23, pp.1555-1563, 2014.

P. Larsson, L. Collvin, L. Okla, and G. Meyer, Lake Productivity and Water Chemistry as Governors of the Uptake of Persistent Pollutants in Fish, Environmental Science & Technology, vol.26, pp.346-352, 1992.

M. Lartey, F. D. Krampa, M. Abdul-rahman, N. L. Quarcoo, P. Yamson et al., Use of skin-lightening products among selected urban communities in, International Journal of Dermatology, vol.56, pp.32-39, 2017.

T. B. Lauber, N. A. Connelly, J. Niederdeppe, and B. A. Knuth, Urban anglers in the Great Lakes region: Fish consumption patterns, influences, and responses to advisory messages, Science of the Total Environment, vol.590, pp.495-501, 2017.

R. A. Lavoie, T. D. Jardine, M. M. Chumchal, K. A. Kidd, and L. M. Campbell, Biomagnification of mercury in aquatic food webs: a worldwide meta-analysis, Environ Sci Technol, vol.47, pp.13385-13394, 2013.

B. E. Lee, Y. C. Hong, H. Park, M. Ha, B. S. Koo et al., Interaction between GSTM1/GSTT1 Polymorphism and Blood Mercury on Birth Weight, Environmental Health Perspectives, vol.118, pp.437-442, 2010.

J. M. Lepak, K. D. Kinzli, E. R. Fetherman, W. M. Pate, A. G. Hansen et al., Manipulation of growth to reduce mercury concentrations in sport fish on a whole-system scale, Canadian Journal of Fisheries and Aquatic Sciences, vol.69, pp.122-135, 2012.

R. F. Lepak, D. P. Krabbenhoft, J. M. Ogorek, M. T. Tate, H. A. Bootsma et al., Influence of Cladophora-Quagga Mussel Assemblages on Nearshore Methylmercury Production in Lake Michigan, Environmental Science & Technology, vol.49, pp.7606-7613, 2015.

S. B. Levy and B. Marshall, Antibacterial resistance worldwide: causes, challenges and responses, Nature Medicine, vol.10, pp.122-129, 2004.
DOI : 10.1038/nm1145

C. A. Lewis, D. A. Cristol, J. P. Swaddle, C. W. Varian-ramos, and P. Zwollo, Decreased Immune Response in Zebra Finches Exposed to Sublethal Doses of Mercury, Archives of Environmental Contamination and Toxicology, vol.64, pp.327-336, 2013.

J. Li, Q. Zhou, G. L. Yuan, X. G. He, and P. Xie, Mercury bioaccumulation in the food web of Three Gorges Reservoir (China): Tempo-spatial patterns and effect of reservoir management, Science of the Total Environment, vol.527, pp.203-210, 2015.

L. G. Li, Y. Xia, and T. Zhang, Co-occurrence of antibiotic and metal resistance genes revealed in complete genome collection, Isme Journal, vol.11, pp.651-662, 2017.

M. Li, B. H. Wang, M. H. Zhang, M. Rantalainen, S. Y. Wang et al.,

L. P. Zhao, Symbiotic gut microbes modulate human metabolic phenotypes, Proc Natl Acad Sci U S A, vol.105, pp.2117-2122, 2008.

S. X. Li, L. F. Zhou, H. J. Wang, M. H. Xiong, Z. Yang et al., Shortterm impact of reservoir impoundment on the patterns of mercury distribution in a subtropical aquatic ecosystem, China. Environmental Science and Pollution Research, vol.20, pp.4396-4404, 2013.

Y. F. Li, Z. Q. Dong, C. Y. Chen, B. Li, Y. X. Gao et al., Organic Selenium Supplementation Increases Mercury Excretion and Decreases Oxidative Damage in Long-Term Mercury-Exposed Residents from Wanshan, China. Environmental Science & Technology, vol.46, pp.11313-11318, 2012.

S. Llop, M. J. Lopez-espinosa, M. Murcia, M. Alvarez-pedrerol, J. Vioque et al.,

F. Ballester, Synergism between exposure to mercury and use of iodine supplements on thyroid hormones in pregnant women, Environmental Research, vol.138, pp.298-305, 2015.

N. A. Lloyd, S. E. Janssen, J. R. Reinfelder, and T. Barkay, Co-selection of Mercury and Multiple Antibiotic Resistances in Bacteria Exposed to Mercury in the Fundulus heteroclitus Gut Microbiome, Current Microbiology, vol.73, pp.834-842, 2016.

A. S. Lopes, J. G. Ferreira, C. Vale, and J. Johansen, The mass balance of production and consumption: Supporting policy-makers for aquatic food security, Estuarine Coastal and Shelf Science, vol.188, pp.212-223, 2017.

J. L. Luque-garcia, P. Cabezas-sanchez, D. S. Anunciacao, and C. Camara, Analytical and bioanalytical approaches to unravel the selenium-mercury antagonism: A review, Analytica Chimica Acta, vol.801, pp.1-13, 2013.

R. N. Mack, D. Simberloff, W. M. Lonsdale, H. Evans, M. Clout et al., Biotic invasions: Causes, epidemiology, global consequences, and control, Ecological Applications, vol.10, pp.689-710, 2000.

J. C. Madan, S. F. Farzan, P. L. Hibberd, and M. R. Karagas, Normal neonatal microbiome variation in relation to environmental factors, infection and allergy, Current Opinion in Pediatrics, vol.24, pp.753-759, 2012.

J. J. Magnuson, K. E. Webster, R. A. Assel, C. J. Bowser, P. J. Dillon et al., Potential effects of climate changes on aquatic systems: Laurentian Great Lakes and Precambrian Shield Region, Hydrological Processes, vol.11, pp.825-871, 1997.

K. R. Mahaffey, R. P. Clickner, and R. A. Jeffries, Adult Women's Blood Mercury Concentrations Vary Regionally in the United States: Association with Patterns of Fish Consumption (NHANES 1999-2004), Environmental Health Perspectives, vol.117, pp.47-53, 2009.

R. C. Martin-doimeadios, R. Mateo, and M. Jimenez-moreno, Is gastrointestinal microbiota relevant for endogenous mercury methylation in terrestrial animals?, Environmental Research, vol.152, pp.454-461, 2017.

L. C. Masur, A Review of the Use of Mercury in Historic and Current Ritualistic and Spiritual Practices, Alternative Medicine Review, vol.16, pp.314-320, 2011.

J. B. Mauro, J. R. Guimaraes, H. Hintelmann, C. J. Watras, E. A. Haack et al., Mercury methylation in macrophytes, periphyton, and water -comparative studies with stable and radio-mercury additions, Analytical and Bioanalytical Chemistry, vol.374, pp.983-989, 2002.

T. Mcclanahan, E. H. Allison, and J. E. Cinner, Managing fisheries for human and food security, Fish and Fisheries, vol.16, pp.78-103, 2015.

C. Nilsson and K. Berggren, Alterations of riparian ecosystems caused by river regulation, Bioscience, vol.50, pp.783-792, 2000.

J. Nriagu, N. Basu, and S. Charles, Environmental Justice: The Mercury Connection, the Environment: Pattern and Process, 2012.

J. F. Nyland, D. Fairweather, D. L. Shirley, S. E. Davis, N. R. Rose et al., Low-Dose Inorganic Mercury Increases Severity and Frequency of Chronic Coxsackievirus-Induced Autoimmune Myocarditis in Mice, Toxicological Sciences, vol.125, pp.134-143, 2012.

J. F. Nyland, M. Fillion, F. Barbosa, D. L. Shirley, C. Chine et al.,

E. K. Silbergeld, Biomarkers of Methylmercury Exposure Immunotoxicity among Fish Consumers in Amazonian Brazil, Environmental Health Perspectives, vol.119, pp.1733-1738, 2011.

D. Obrist, J. Kirk, L. Zhang, E. M. Sunderland, M. Jiskra et al., A review of global environmental mercury processes in response to human and natural perturbations: changes of emissions, climate and land use, Ambio Synthesis, p.1, 2017.

A. Occhipinti-ambrogi and D. Savini, Biological invasions as a component of global change in stressed marine ecosystems, Mar Pollut Bull, vol.46, pp.542-551, 2003.

E. Oken, J. S. Radesky, R. O. Wright, D. C. Bellinger, C. J. Amarasiriwardena et al.,

M. W. Gillman, Maternal fish intake during pregnancy, blood mercury levels, and child cognition at age 3 years in a US cohort, American Journal of Epidemiology, vol.167, pp.1171-1181, 2008.

J. D. Olden and R. J. Naiman, Incorporating thermal regimes into environmental flows assessments: modifying dam operations to restore freshwater ecosystem integrity, Freshwater Biology, vol.55, pp.86-107, 2010.

O. Ouedraogo, J. Chetelat, and M. Amyot, Bioaccumulation and Trophic Transfer of Mercury and Selenium in African Sub-Tropical Fluvial Reservoirs Food Webs, PLoS One, p.10, 2015.

C. Pal, J. Bengtsson-palme, E. Kristiansson, and D. G. Larsson, Co-occurrence of resistance genes to antibiotics, biocides and metals reveals novel insights into their coselection potential, Bmc Genomics, vol.16, 2015.

R. P. Parajuli, J. M. Goodrich, H. N. Chou, S. E. Gruninger, D. C. Dolinoy et al., Genetic polymorphisms are associated with hair, blood, and urine mercury levels in the American Dental Association (ADA) study participants, Environmental Research, vol.149, pp.247-258, 2016.

A. R. Paranjape and B. Hall, Recent advances in the study of mercury methylation in aquatic systems, FACETS, vol.2, pp.85-119, 2017.

D. Pauly, V. Christensen, J. Dalsgaard, R. Froese, and F. Torres, Fishing down marine food webs, Science, vol.279, pp.860-863, 1998.

D. Pauly, R. Watson, and J. Alder, Global trends in world fisheries: impacts on marine ecosystems and food security, Philosophical Transactions of the Royal Society BBiological Sciences, vol.360, pp.5-12, 2005.

S. Penglase, K. Hamre, and S. Ellingsen, Selenium and Mercury have a synergistic negative effect on fish reproduction, Aquat Toxicol, vol.149, pp.16-24, 2014.

H. Perez, E. C. Sullivan, K. Michael, and R. Harris, Fish Consumption and Advisory Awareness Among the Philadelphia Asian Community: A Pilot Study, Journal of Environmental Health, vol.74, pp.24-28, 2012.

T. Perron, J. Chetelat, J. Gunn, B. E. Beisner, and M. Amyot, Effects of Experimental Thermocline and Oxycline Deepening on Methylmercury Bioaccumulation in a Canadian Shield Lake, Environmental Science & Technology, vol.48, pp.2626-2634, 2014.

O. L. Petchey, P. T. Mcphearson, T. M. Casey, and P. J. Morin, Environmental warming alters food-web structure and ecosystem function, Nature, vol.402, pp.69-72, 1999.

B. Phalan, A. Balmford, R. E. Green, and J. P. Scharlemann, Minimising the harm to biodiversity of producing more food globally, Food Policy, vol.36, pp.62-71, 2011.

B. L. Phillips, G. P. Brown, and R. Shine, Assessing the potential impact of cane toads on Australian snakes, Conservation Biology, vol.17, pp.1738-1747, 2003.

P. C. Pickhardt, C. L. Folt, C. Y. Chen, B. Klaue, and J. D. Blum, Algal blooms reduce the uptake of toxic methylmercury in freshwater food webs, Proc Natl Acad Sci U S A, vol.99, pp.4419-4423, 2002.

J. R. Pilsner, A. L. Lazarus, D. H. Nam, R. J. Letcher, C. Sonne et al., Mercury-associated DNA hypomethylation in polar bear brains via the LUminometric Methylation Assay: a sensitive method to study epigenetics in wildlife, Molecular Ecology, vol.19, pp.307-314, 2010.

D. Pimentel, L. Lach, R. Zuniga, and D. Morrison, Environmental and economic costs of nonindigenous species in the United States, Bioscience, vol.50, pp.53-65, 2000.

D. Pimentel, S. Mcnair, J. Janecka, J. Wightman, C. Simmonds et al.,

T. Tsomondo, Economic and environmental threats of alien plant, animal, and microbe invasions, Agriculture Ecosystems & Environment, vol.84, pp.1-20, 2001.

D. Pimentel, R. Zuniga, and D. Morrison, Update on the environmental and economic costs associated with alien-invasive species in the United States, Ecological Economics, vol.52, pp.273-288, 2005.

N. L. Poff, J. D. Olden, D. M. Merritt, and D. M. Pepin, Homogenization of regional river dynamics by dams and global biodiversity implications, Proc Natl Acad Sci U S A, vol.104, pp.5732-5737, 2007.

M. J. Polito, R. L. Brasso, W. Z. Trivelpiece, N. Karnovsky, W. P. Patterson et al., Differing foraging strategies influence mercury (Hg) exposure in an Antarctic penguin community, Environ Pollut, vol.218, pp.196-206, 2016.

P. Porvari, Development of fish mercury concentrations in Finnish reservoirs from 1979 to 1994, Science of the Total Environment, vol.213, pp.279-290, 1998.

S. L. Postel, G. C. Daily, and P. R. Ehrlich, Human appropriation of renewable fresh water, Science, vol.271, pp.785-788, 1996.

M. Power, G. M. Klein, K. Guiguer, and M. K. Kwan, Mercury accumulation in the fish community of a sub-Arctic lake in relation to trophic position and carbon sources, Journal of Applied Ecology, vol.39, pp.819-830, 2002.

F. J. Rahel and J. D. Olden, Assessing the effects of climate change on aquatic invasive species, Conservation Biology, vol.22, pp.521-533, 2008.

N. V. Ralston, C. R. Ralston, and L. J. Raymond, Selenium Health Benefit Values: Updated Criteria for Mercury Risk Assessments, Biol Trace Elem Res, vol.171, pp.262-269, 2016.

N. V. Ralston and L. J. Raymond, Dietary selenium's protective effects against methylmercury toxicity, Toxicology, vol.278, pp.112-123, 2010.

N. R. Razavi, M. Z. Qu, B. S. Jin, W. W. Ren, Y. X. Wang et al., Mercury biomagnification in subtropical reservoir fishes of eastern China, Ecotoxicology, vol.23, pp.133-146, 2014.

D. C. Rice, Overview of modifiers of methylmercury neurotoxicity: Chemicals, nutrients, and the social environment, Neurotoxicology, vol.29, pp.761-766, 2008.

D. M. Richardson, P. Pysek, M. Rejmanek, M. G. Barbour, F. D. Panetta et al., Naturalization and invasion of alien plants: concepts and definitions, Diversity and Distributions, vol.6, pp.93-107, 2000.

J. S. Richardson and S. Beraud, Effects of riparian forest harvest on streams: a metaanalysis, Journal of Applied Ecology, vol.51, pp.1712-1721, 2014.

D. M. Riley, C. A. Newby, T. O. Leal-almeraz, and V. M. Thomas, Assessing elemental mercury vapor exposure from cultural and religious practices, Environmental Health Perspectives, vol.109, pp.779-784, 2001.

C. S. Roegge, V. C. Wang, B. E. Powers, A. Y. Klintsova, S. Villareal et al., Motor impairment in rats exposed to PCBs and methylmercury during early development, Toxicological Sciences, vol.77, pp.315-324, 2004.

D. M. Rosenberg, P. Mccully, and C. M. Pringle, Global-scale environmental effects of hydrological alterations: Introduction, Bioscience, vol.50, pp.746-751, 2000.

I. R. Rowland, P. Grasso, and M. J. Davies, METHYLATION OF MERCURIC-CHLORIDE BY HUMAN INTESTINAL BACTERIA, Experientia, vol.31, pp.1064-1065, 1975.

I. R. Rowland, R. D. Robinson, and R. A. Doherty, EFFECTS OF DIET ON MERCURY METABOLISM AND EXCRETION IN MICE GIVEN METHYLMERCURY -ROLE OF GUT FLORA. Archives of Environmental Health, vol.39, pp.401-408, 1984.

J. W. Rudd and M. A. Turner, The English-Wabigoon River System: V. Mercury and Selenium Bioaccumulation as a Function of Aquatic Primary Productivity, Canadian Journal of Fisheries and Aquatic Sciences, vol.40, pp.2251-2259, 1983.

J. L. Sabo, T. Sinha, L. C. Bowling, G. H. Schoups, W. W. Wallender et al., Reclaiming freshwater sustainability in the Cadillac Desert, Proc Natl Acad Sci U S A, vol.107, pp.21263-21270, 2010.

D. Sahagian, Global physical effects of anthropogenic hydrological alterations: sea level and water redistribution, Global and Planetary Change, vol.25, pp.39-48, 2000.

D. Sampaio-da-silva, M. Lucotte, S. Paquet, and R. Davidson, Influence of ecological factors and of land use on mercury levels in fish in the Tapajos River basin, Amazon. Environ Res, vol.109, pp.432-446, 2009.

A. M. Scheuhammer and M. B. Sandheinrich, Recent advances in the toxicology of methylmercury in wildlife, Ecotoxicology, vol.17, pp.67-68, 2008.

H. Selin, S. Keane, N. E. Selin, S. Wang, D. Bally et al., Linking Science and Policy to Support the Implementation of the Minamata Convention, Ambio Synthesis, 2017.

N. E. Selin, E. M. Sunderland, C. D. Knightes, and R. A. Mason, Sources of Mercury Exposure for US Seafood Consumers: Implications for Policy, Environmental Health Perspectives, vol.118, pp.137-143, 2010.

P. B. Shafroth, J. R. Cleverly, T. L. Dudley, J. P. Taylor, C. Van-riper et al., Control of Tamarix in the Western United States: Implications for water salvage, wildlife use, and riparian restoration, Environ Manage, vol.35, pp.231-246, 2005.

M. C. Sheehan, T. A. Burke, A. Navas-acien, P. N. Breysse, J. Mcgready et al., Global methylmercury exposure from seafood consumption and risk of developmental neurotoxicity: a systematic review, Bulletin of the World Health Organization, vol.92, pp.254-269, 2014.

E. Silbergeld, R. Gardner, J. M. Souza, A. M. Ventura, and J. Nyland, Immunotoxic effects of mercury compounds in humans: Concordance of in vitro and in vivo studies, Toxicology Letters, vol.196, pp.202-202, 2010.

E. K. Silbergeld, D. Nash, C. Trevant, G. T. Strickland, J. M. De-souza et al., Mercury exposure and malaria prevalence among gold miners in Pará, Brazil. Revista da Sociedade Brasileira de Medicina Tropical, vol.35, pp.421-429, 2002.

E. K. Silbergeld, J. B. Sacci, and A. F. Azad, Mercury exposure and murine response to Plasmodium yoelii infection and immunization, Immunopharmacology and Immunotoxicology, vol.22, pp.685-695, 2000.

I. A. Silva, M. E. Nabawi, D. Hoover, and E. K. Silbergeld, Prenatal HgCl2 exposure in BALB/c mice: gender-specific effects on the ontogeny of the immune system, Developmental and Comparative Immunology, vol.29, pp.171-183, 2005.

I. A. Silva, J. Graber, J. F. Nyland, and E. Silbergeld, In vitro HgCl2 exposure of immune cells at different stages of maturation: Effects on phenotype and function, Environmental Research, vol.98, pp.341-348, 2005.

I. A. Silva, J. F. Nyland, A. Gorman, A. Perisse, A. M. Ventura et al.,

E. K. Silbergeld, Mercury exposure, malaria, and serum antinuclear/antinucleolar antibodies in Amazon populations in Brazil: a cross-sectional study, Environmental Health, vol.3, pp.1-12, 2004.

D. Skurnik, R. Ruimy, D. Ready, E. Ruppe, C. Bernede-bauduin et al.,

A. Andremont, Is exposure to mercury a driving force for the carriage of antibiotic resistance genes, Journal of Medical Microbiology, vol.59, pp.804-807, 2010.

D. G. Slotton, J. E. Reuter, and C. R. Goldman, MERCURY UPTAKE PATTERNS OF BIOTA IN A SEASONALLY ANOXIC NORTHERN CALIFORNIA RESERVOIR, Water Air and Soil Pollution, vol.80, pp.841-850, 1995.

J. Snodgrass, C. H. Jagoe, A. L. Bryan, H. A. Brant, and J. Burger, Effects of trophic status and wetland morphology, hydroperiod, and water chemistry on mercury concentrations in fish, Canadian Journal of Fisheries and Aquatic Sciences, vol.57, pp.171-180, 2000.

J. A. Sorensen, L. W. Kallemeyn, and M. Sydor, Relationship between Mercury Accumulation in Young-of-the-Year Yellow Perch and Water-Level Fluctuations, Environmental Science & Technology, vol.39, pp.9237-9243, 2005.

E. G. Sormo, T. M. Ciesielski, I. B. Overjordet, S. Lierhagen, G. S. Eggen et al., Selenium Moderates Mercury Toxicity in Free-Ranging Freshwater Fish, Environmental Science & Technology, vol.45, pp.6561-6566, 2011.

N. Steckling, S. Boese-o'reilly, C. Gradel, K. Gutschmidt, E. Shinee et al., Mercury exposure in female artisanal small-scale gold miners (ASGM) in Mongolia: An analysis of human biomonitoring (HBM) data from, Sci Total Environ, vol.409, pp.994-1000, 2008.

U. Steuerwald, P. Weihe, P. J. Jorgensen, K. Bjerve, J. Brock et al.,

P. Grandjean, Maternal seafood diet, methylmercury exposure, and neonatal neurologic function, Journal of Pediatrics, vol.136, pp.599-605, 2000.

P. W. Stewart, J. Reihman, E. I. Lonky, T. J. Darvill, and J. Pagano, Cognitive development in preschool children prenatally exposed to PCBs and MeHg, Neurotoxicology and Teratology, vol.25, pp.11-22, 2003.

K. Stratton, A. Gable, and M. C. Mccormick, Immunization Safety Review: Thimerosal-Containing Vaccines and Neurodevelopmental Disorders, 2001.

D. G. Streets, H. M. Horowitz, D. J. Jacob, Z. Lu, L. Levin et al., Total Mercury Released to the Environment by Human Activities, Environ Sci Technol, vol.51, pp.5969-5977, 2017.

S. M. Sullivan, L. E. Boaz, and K. Hossler, Fluvial geomorphology and aquatic-toterrestrial Hg export are weakly coupled in small urban streams of, Water Resources Research, vol.52, pp.2822-2839, 2016.


E. M. Sunderland, Mercury exposure from domestic and imported estuarine and marine fish in the US seafood market, Environmental Health Perspectives, vol.115, pp.235-242, 2007.

E. M. Sunderland and N. E. Selin, Future trends in environmental mercury concentrations: implications for preventions strategies, Environmental Health, vol.12, pp.1-5, 2013.

E. B. Swain, P. M. Jakus, G. Rice, F. Lupi, P. A. Maxson et al.,

M. M. Veiga, Socioeconomic consequences of mercury use and pollution, Ambio, vol.36, pp.45-61, 2007.

H. K. Swanson, T. A. Johnston, D. W. Schindler, R. A. Bodaly, and D. M. Whittle, Mercury bioaccumulation in forage fish communities invaded by rainbow smelt (Osmerus mordax, Environmental Science & Technology, vol.40, pp.1439-1446, 2006.

L. I. Sweet and J. T. Zelikoff, Toxicology and immunotoxicology of mercury: A comparative review in fish and humans, Journal of Toxicology and Environmental HealthPart B-Critical Reviews, vol.4, pp.161-205, 2001.

J. J. Swenson, C. E. Carter, J. C. Domec, and C. I. Delgado, Gold Mining in the Peruvian Amazon: Global Prices, Deforestation, and Mercury Imports, PLoS One, vol.6, 2011.

S. Tartu, F. Angelier, J. C. Wingfield, P. Bustamante, P. Labadie et al., O. Chastel. 2015a. Corticosterone, prolactin and egg neglect behavior in relation to mercury and legacy POPs in a long-lived Antarctic bird, Science of the Total Environment, vol.505, pp.180-188

S. Tartu, A. Goutte, P. Bustamante, F. Angelier, B. Moe et al., To breed or not to breed: endocrine response to mercury contamination by an Arctic seabird, Biology Letters, vol.9, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00828084

S. Tartu, A. Z. Lendvai, P. Blevin, D. Herzke, P. Bustamante et al., Increased adrenal responsiveness and delayed hatching date in relation to polychlorinated biphenyl exposure in Arctic-breeding black-legged kittiwakes (Rissa tridactyla), General and Comparative Endocrinology, vol.219, pp.165-172, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01217081

P. B. Tchounwou, W. K. Ayensu, N. Ninashvili, and D. Sutton, Environmental exposure to mercury and its toxicopathologic implications for public health, Environ Toxicol, vol.18, pp.149-175, 2003.

C. A. Thaiss, N. Zmora, M. Levy, and E. Elinav, The microbiome and innate immunity, Nature, vol.535, pp.65-74, 2016.

M. Thompson, B. H. Coe, R. Andrews, D. F. Stauffer, D. A. Cristol et al., Agricultural land use and mercury pollution interact to influence offspring sex of a freshwater turtleAgricultural land use and mercury pollution interact to influence offspring sex of a freshwater turtle, Biological Conservation

D. Tilman, P. B. Reich, J. Knops, D. Wedin, T. Mielke et al., Diversity and productivity in a long-term grassland experiment, Science, vol.294, pp.843-845, 2001.

S. Tirima, C. Bartrem, I. Von-lindern, M. Braun, D. Lind et al., Environmental Remediation to Address Childhood Lead Poisoning Epidemic due to Artisanal Gold Mining in Zamfara, Nigeria. Environmental Health Perspectives, vol.124, pp.1471-1478, 2016.

P. J. Turnbaugh, R. E. Ley, M. Hamady, C. M. Fraser-liggett, R. Knight et al., The Human Microbiome Project, Nature, vol.449, pp.804-810, 2007.

B. N. Tweedy, R. W. Drenner, M. M. Chumchal, and J. H. Kennedy, Effects of Fish on Emergent Insect-Mediated Flux of Methyl Mercury across a Gradient of Contamination, Environmental Science & Technology, vol.47, pp.1614-1619, 2013.

. Unep, Global Mercury Assessment 2013: Sources, Emissions, Releases, and Environmental Transport, UNEP Chemicals Branch, 2013.

M. J. Vander-zanden, J. M. Casselman, and J. B. Rasmussen, Stable isotope evidence for the food web consequences of species invasions in lakes, Nature, vol.401, pp.464-467, 1999.

M. J. Vander-zanden and J. B. Rasmussen, A trophic position model of pelagic food webs: impact on contaminant bioaccumulation in lake trout, Ecological Monographs, vol.66, pp.451-477, 1996.

M. J. Vander-zanden, K. A. Wilson, J. M. Casselman, and N. D. Yan, Species Introductions and their impacts in North American shield lakes. Pages 239-263 in, Boreal Shield Watersheds: Lake Trout Ecosystems in a Changing Environment, 2003.

C. W. Varian-ramos, J. P. Swaddle, and D. A. Cristol, Familial differences in the effects of mercury on reproduction in zebra finches, Environmental Pollution, vol.182, pp.316-323, 2013.

P. M. Vitousek, Beyond Global Warming: Ecology and Global Change, Ecology, vol.75, p.186101876, 1994.

P. M. Vitousek, J. D. Aber, R. W. Howarth, G. E. Likens, P. A. Matson et al., Human alteration of the global nitrogen cycle: Sources and consequences, Ecological Applications, vol.7, pp.737-750, 1997.

C. J. Vorosmarty, B. M. Fekete, M. Meybeck, and R. B. Lammers, Global system of rivers: Its role in organizing continental land mass and defining land-to-ocean linkages, Global Biogeochemical Cycles, vol.14, pp.599-621, 2000.

C. J. Vorosmarty and D. Sahagian, Anthropogenic disturbance of the terrestrial water cycle, Bioscience, vol.50, pp.753-765, 2000.

H. Wada, D. A. Cristol, F. M. Mcnabb, and W. A. Hopkins, Suppressed Adrenocortical Responses and Thyroid Hormone Levels in Birds near a Mercury-Contaminated River, Environmental Science & Technology, vol.43, pp.6031-6038, 2009.

D. M. Walters, D. F. Raikow, C. R. Hammerschmidt, M. G. Mehling, A. Kovach et al., Methylmercury Bioaccumulation in Stream Food Webs Declines with Increasing Primary Production, Environ Sci Technol, vol.49, pp.7762-7769, 2015.

R. Wang, X. Feng, and W. Wang, In Vivo Mercury Methylation and Demethylation in Freshwater Tilapia Quantified by Mercury Stable Isotopes, Environmental Science & Technology, vol.47, pp.7949-7957, 2013.

X. Wang, F. Wu, and W. Wang, In Vivo Mercury Demethylation in a Marine Fish (Acanthopagrus schlegeli, Environmental Science & Technology, vol.51, pp.6441-6451, 2017.

Y. Wang, J. Goodrich, B. Gillespiem, R. Werner, N. Basu et al., A Gene Environment Study of Mercury in The Michigan Dental Association Cohort, Epidemiology, vol.22, pp.134-134, 2011.

D. M. Ward, K. H. Nislow, C. Y. Chen, and C. L. Folt, Rapid, Efficient Growth Reduces Mercury Concentrations in Stream-Dwelling Atlantic Salmon, Transactions of the American Fisheries Society, vol.139, pp.1-10, 2010.

S. J. Wenger, A. H. Roy, C. R. Jackson, E. S. Bernhardt, T. L. Carter et al.,

C. J. Walsh, Twenty-six key research questions in urban stream ecology: an assessment of the state of the science, Journal of the North American Benthological Society, vol.28, pp.1080-1098, 2009.

. Who, Technical paper #1: Environmental and occupational health hazards associated with artisinal and small-scale gold mining, 2016.

J. G. Wiener, Mercury exposed: Advances in environmental analysis and ecotoxicology of a highly toxic metal, Environmental Toxicology and Chemistry, vol.32, pp.2175-2178, 2013.

J. G. Wiener, M. B. Sandheinrich, S. P. Bhavsar, J. R. Bohr, D. C. Evers et al., Toxicological significance of mercury in yellow perch in the Laurentian Great Lakes region, Environmental Pollution, vol.161, pp.350-357, 2012.

G. J. Wiles, J. Bart, R. E. Beck, and C. F. Aguon, Impacts of the brown tree snake: Patterns of decline and species persistence in Guam's avifauna, Conservation Biology, vol.17, pp.1350-1360, 2003.

J. J. Willacker, C. A. Eagles-smith, M. A. Lutz, M. T. Tate, J. M. Lepak et al., Reservoirs and water management influence fish mercury concentrations in the western United States and Canada, Science of the Total Environment, vol.568, pp.739-748, 2016.

J. D. Willson, Indirect effects of invasive species on ecosystems in south Florida, Journal of Applied Ecology, 2017.

M. L. Wilson, E. Renne, C. Roncoli, P. Agyei-baffour, and E. Y. Tenkorang, Integrated Assessment of Artisanal and Small-Scale Gold Mining in Ghana -Part 3: Social Sciences and Economics, International Journal of Environmental Research and Public Health, vol.12, pp.8133-8156, 2015.

J. Wireman, C. A. Liebert, T. Smith, and A. O. Summers, Association of mercury resistance with antibiotic resistance in the gram-negative fecal bacteria of primates, Applied and Environmental Microbiology, vol.63, pp.4494-4503, 1997.

G. Woodward, D. M. Perkins, and L. E. Brown, Climate change and freshwater ecosystems: impacts across multiple levels of organization, Philosophical Transactions of the Royal Society B-Biological Sciences, vol.365, pp.2093-2106, 2010.

X. X. Wu, Y. M. Lu, S. Zhou, L. F. Chen, and B. Xu, Impact of climate change on human infectious diseases: Empirical evidence and human adaptation, Environment International, vol.86, pp.14-23, 2016.

Y. Yamashita, Y. Omura, and E. Okazaki, Total mercury and methylmercury levels in commercially important fishes in Japan, Fisheries Science, vol.71, pp.1029-1035, 2005.

D. Y. Yang, Y. W. Chen, J. M. Gunn, and N. Belzile, Selenium and mercury in organisms: Interactions and mechanisms, Environmental Reviews, vol.16, pp.71-92, 2008.

L. H. Zayas and P. O. Ozuah, Mercury use in espiritismo: A survey of botanicas, American Journal of Public Health, vol.86, pp.111-112, 1996.

J. B. Zedler and S. Kercher, Wetland resources: Status, trends, ecosystem services, and restorability, Annual Review of Environment and Resources, vol.30, pp.39-74, 2005.

H. Zhang, X. B. Feng, H. M. Chan, and T. Larssen, New Insights into Traditional Health Risk Assessments of Mercury Exposure: Implications of Selenium, Environmental Science & Technology, vol.48, pp.1206-1212, 2014.

H. Zhang, X. B. Feng, T. Larssen, G. L. Qiu, and R. D. Vogt, Rather than Fish, Is the Major Pathway for Methylmercury Exposure, Environmental Health Perspectives, vol.118, pp.1183-1188, 2010.

Q. F. Zhang, Y. W. Li, Z. H. Liu, and Q. L. Chen, Exposure to mercuric chloride induces developmental damage, oxidative stress and immunotoxicity in zebrafish embryos-larvae, Aquat Toxicol, vol.181, pp.76-85, 2016.