• 1
    Milne L, Milne M. 1962. There's poison all around us now [review of Carson R, Silent Spring]. The New York Times, 23 September.
  • 2
    Wiener JG, Spry DJ. 1996. Toxicological significance of mercury in freswhater fish. In Beyer WN, Heinz GH, Redmon-Norwood AW, eds, Environmental Contaminants in Wildlife: Interpreting Tissue Concentrations. Lewis, Boca Raton, FL, pp 297340.
  • 3
    Blais JM, Macdonald RW, Mackey D, Webster E, Harvey C, Smol JP. 2007. Biologically mediated transport of contaminants to aquatic systems. Environ Sci Technol 41: 10751084.
  • 4
    Cristol DA, Brasso RL, Condon AM, Fovargue RE, Friedman SL, Hallinger KK, Monroe AP, White AE. 2008. The movement of aquatic mercury through terrestrial food webs. Science 320: 335335.
  • 5
    Baxter CV, Fausch KD, Sounders WC. 2005. Tangled webs: Reciprocal flows of invertebrate prey link streams and riparian zones. Freshw Biol 50: 201220.
  • 6
    Walters DM, Fritz KM, Otter RR. 2008. The dark side of subsidies: Adult stream insects export organic contaminants to riparian predators. Ecol Appl 18: 18351841.
  • 7
    Menzie CA. 1980. Potential significance of insects in the removal of contaminants from aquatic systems. Water, Air, Soil Pollut 13: 473479.
  • 8
    Rohr JR, Kerby JL, Sih A. 2006. Community ecology as a framework for predicting contaminant effects. Trends Ecol Evol 21: 606613.
  • 9
    Marentette JR, Gooderham KL, McMaster ME, Ng T, Parrott JL, Wilson JY, Wood CM, Balshine S. 2010. Signatures of contamination in invasive round gobies (Neogobius melanostomus): A double strike for ecosystem health? Ecotoxicol Environ Saf 73: 17551764.
  • 10
    Baxter CV, Fausch KD, Murakami M, Chapman PL. 2004. Fish invasion restructures stream and forest food webs by interrupting reciprocal prey subsidies. Ecology 85: 26562663.
  • 11
    Polis GA, Power ME, Huxel GR. 2004. Food webs at the landscape level. University of Chicago Press, Chicago, Illinois.
  • 12
    Sullivan SMP, Vierling KT. 2011. Exploring the influences of multiscale environmental factors on the American dipper Cinclus mexicanus. Ecography, DOI: 10.1111/j.1600-0587.2011.07071.x
  • 13
    Blais JM. 2005. Biogeochemistry of persistent bioaccumulative toxicants: processes affecting the transport of contaminants to remote areas. Can J Fish Aquat Sci 62: 236243.
  • 14
    Van Oostdam J, Donaldson SG, Feeley M, Arnold D, Ayotte P, Bondy G, Chan L, Dewaily E, Furgal CM, Kuhnlein H, Loring E, Muckle G, Myles E, Receveur O, Tracy B, Gill U, Kalhok S. 2005. Human health implications of environmental contaminants in Arctic Canada: A review. Sci Total Environ 351: 165246.
  • 15
    Cardoso PG, Lillebo AI, Pereira E, Duarte AC, Pardal MA. 2009. Different mercury bioaccumulation kinetics by two macrobenthic species: The bivalve Scrobicularia plana and the polychaete Hediste diversicolor. Mar Environ Res 68: 1218.
  • 16
    Akamatsu F, Toda H. 2011. Aquatic subsidies transport anthropogenic nitrogen to riparian spiders. Environmental Pollution 159: 13901397.
  • 17
    Daley JM, Corkum LD, Drouillard KG. 2011. Aquatic to terrestrial transfer of sediment-associated persistent organic pollutants is enhanced by bioamplification processes. Environ Toxicol Chem 30: 21672174.
  • 18
    Rypel AL, Findlay RH, Mitchell JB, Bayne DR. 2007. Variations in PCB concentrations between genders of six warmwater fish species in lake logan Martin, Alabama, USA. Chemosphere 68: 17071715.
  • 19
    Morrissey CA, Bendell-Young LI, Elliott JE. 2004. Linking contaminant profiles to the diet and breeding location of American dippers using stable isotopes. J Appl Ecol 41: 502512.
  • 20
    Guertin DA, Harestad AS, Ben-David M, Drouillard KG, Elliott JE. 2010. Fecal genotyping and contaminant analyses reveal variation in individual river otter exposure to localized persistent contaminants. Environ Toxicol Chem 29: 275284.
  • 21
    Echols KR, Tillitt DE, Nichols JW, Secord AL, McCarty JP. 2004. Accumulation of PCB congeners in nestling tree swallows (Tachycineta bicolor) on the Hudson River, New York. Environ Sci Technol 38: 62406246.
  • 22
    Kay DP, Blankenship AL, Coady KK, Neigh AM, Zwiernik MJ, Millsap SD, Strause K, Park C, Bradley P, Newsted JL, Jones PD, Giesy JP. 2005. Differential accumulation of polychlorinated biphenyl congeners in the aquatic food web at the Kalamazoo River superfund site, Michigan. Environ Sci Technol 39: 59645974.
  • 23
    Runck C. 2007. Macroinvertebrate production and food web energetics in an industrially contaminated stream. Ecol Appl 17: 740753.
  • 24
    Walters DM, Mills MA, Fritz KM, Raikow DF. 2010. Spider-mediated flux of PCBs from contaminated sediments to terrestrial ecosystems and potential risks to arachnivorous birds. Environ Sci Technol 44: 28492856.
  • 25
    Raikow DF, Walters DM, Fritz KM, Mills MA. 2011. The distance that contaminated aquatic subsidies extend into lake riparian zones. Ecol Appl 21: 983990.