• 1
    Neely WB. 1979. Estimating rate constants for the uptake and clearance of chemicals by fish. Environ Sci Technol 13:15061510.
  • 2
    Mackay D. 1982. Correlation of bioconcentration factors. Environ Sci Technol 16:274278.
  • 3
    Thomann RV, Connelly JP. 1984. Model of PCB in the Lake Michigan lake trout food chain. Environ Sci Technol 18:6571.
  • 4
    Oliver BG, Niimi AJ. 1988. Trophodynamic analysis of polychlorinated biphenyl congeners and other chlorinated hydrocarbons in the Lake Ontario ecosystem. Environ Sci Technol 22:388397.
  • 5
    Connolly JP, Pedersen CJ. 1988. A thermodynamic-based evaluation of organic chemical accumulation in aquatic organisms. Environ Sci Technol 22:99103.
  • 6
    Thomann RV. 1989. Bioaccumulation model of organic chemical distribution in aquatic food chains. Environ Sci Technol 23:699707.
  • 7
    Gobas FAPC, Wilcockson RWR, Haffner GD. 1999. Mechanism of biomagnification in fish under laboratory and field conditions. Environ Sci Technol 33:133141.
  • 8
    Connolly JP, Tonelli R. 1985. A model of kepone in the striped bass food chain of the James River estuary. Estuar Coast Shelf S 20:349366.
  • 9
    Connolly JP. 1991. Application of a food chain model to polychlorinated biphenyl contamination of the lobster and winter flounder food chains in New Bedford Harbor. Environ Sci Technol 25:760770.
  • 10
    Thomann RV, Connolly JP, Parkerton TF. 1992. An equilibrium model of organic chemical accumulation in aquatic food webs with sediment interaction. Environ Toxicol Chem 11:615629.
  • 11
    Hendriks AJ. 1995. Modeling nonequilibrium concentrations of microcontaminants in organisms—Comparative kinetics as a function of species size and octanol water partitioning. Chemosphere 30:265292.
  • 12
    Barber MC. 2003. A review and comparison of models for predicting dynamic chemical bioconcentration in fish. Environ Toxicol Chem 22:19631992.
  • 13
    Kelly BC, Gobas FAPC, McLachlan MS. 2004. Intestinal absorption and biomagnification of organic contaminants in fish, wildlife, and humans. Environ Toxicol Chem 23:23242336.
  • 14
    deBruyn AMH, Gobas FAPC. 2006. A bioenergetic biomagnification model for the animal kingdom. Environ Sci Technol 40:15811587.
  • 15
    Barber MC. 2008. Dietary uptake models used for modeling the bioaccumulation of organic contaminants in fish. Environ Toxicol Chem 27:755777.
  • 16
    Campfens J, Mackay D. 1997. Fugacity-based model of PCB bioaccumulation in complex aquatic food webs. Environ Sci Technol 31:577583.
  • 17
    Zaranko DT, Griffiths FW, Kaushik NK. 1997. Biomagnification of polychlorinated biphenyls through a riverine food web. Environ Toxicol Chem 16:14631471.
  • 18
    Patwa Z, Christensen R, Lasenby DC. 2007. An exploration of the role of mysids in benthic-pelagic coupling and biomagnification using a dynamic bioaccumulation model. Environ Toxicol Chem 26:12241232.
  • 19
    Drouillard KG, Paterson G, Haffner GD. 2009. A combined food web toxicokinetic and species bioenergetic model for predicting seasonal PCB elimination by yellow perch (Perca flavescens). Environ Sci Technol 43:28582864.
  • 20
    Thomann RV, Komlos J. 1999. Model of biota-sediment accumulation factor for polycyclic aromatic hydrocarbons. Environ Toxicol Chem 18:10601068.
  • 21
    Mackintosh CE, Maldonado J, Hongwu J, Hoover N, Chong A, Ikonomou M, Gobas FAPC. 2004. Distribution of phthalate esters in a marine aquatic food web: Comparison to polychlorinated biphenyls. Environ Sci Technol 38:20112020.
  • 22
    van Beusekom OC, Eljarra E, Barceló D, Koelmans AA. 2006. Dynamic modeling of food-chain accumulation of brominated flame retardants in fish from the Ebro River Basin, Spain. Environ Toxicol Chem 25:25532560.
  • 23
    Moermond CTA, Traas TP, Roessink I, Veltman K, Hendriks AJ, Koelmans AA. 2007. Modeling decreased food chain accumulation of PAHs due to strong sorption to carbonaceous materials and metabolic transformation. Environ Sci Technol 41:61856191.
  • 24
    Bhavsar SP, Gandhi N, Gewurtz SB. 2008. Fate of PBDEs in juvenile lake trout estimated using a dynamic multichemical fish model. Environ Sci Technol 42:37243731.
  • 25
    Marinov D, Dueri S, Puillat I. 2009. Integrated modeling of polycyclic aromatic hydrocarbons in the marine environment: Coupling of hydrodynamic, fate and transport, bioaccumulation and planktonic food-web models. Mar Pollut Bull 58:15541561.
  • 26
    Webster EM, Ellis DA. 2012. Estimating chemical biotransformation rates from food web concentrations. Chemosphere 87:404412.
  • 27
    US Environmental Protection Agency. 1995. Great Lakes water quality initiative technical support document for the procedure to determine bioaccumulation factors. EPA 820/B-95/005. Washington, DC.
  • 28
    Gobas FAPC, Pasternak KL, Duncan RK. 1998. Development and field validation of a multimedia exposure assessment model for waste load allocation in aquatic ecosystems: Application to 2,3,7,8-tetrachlorodibenzo-p-dioxin and 2,3,7,8-tetrachlorodibenzofuran in the Fraser River watershed. Environ Sci Technol 32:24422449.
  • 29
    Farley KJ, Wands JR, Damiani DR, Cooney TF. 2006. Transport, fate and bioaccumulation of PCBs in the Lower Hudson River. In Levinton JS, Waldman JR, eds, The Hudson River Estuary. Cambridge University Press, New York, NY, USA, pp 368382.
  • 30
    Iannuzzi TJ, Ludwig DF. 2000. The role of food web models in the environmental management of bioaccumulative chemicals. Soil & Sediment Contamination 9:181195.
  • 31
    Loizeau V, Abarnou A, Menesquen A. 2001. A steady-state model of PCB bioaccumulation in the sea bass (Dicentrarchus labrax) food web from the Seine estuary, France. Estuaries 24:10741087.
  • 32
    Connolly JP, Glaser D. 2002. DDE bioaccumulation in female sea lions of the California Channel Islands. Cont Shelf Res 22:10591078.
  • 33
    Binelli A, Provini A. 2003. The PCB pollution of Lake Iseo (N. Italy) and the role of biomagnification in the pelagic food web. Chemosphere 53:143151.
  • 34
    Le Blanc LA, Buckel JA, Conover DO, Brownawell BJ. 2006. Tests of bioaccumulation models for polychlorinated biphenyl compounds: A study of young-of-the-year bluefish in the Hudson River estuary, USA. Environ Toxicol Chem 25:20672076.
  • 35
    Rashleigh B, Barber MC, Walters DM. 2009. Foodweb modeling for polychlorinated biphenyls (PCBs) in the Twelvemile Creek Arm of Lake Hartwell, South Carolina, USA. Ecol Model 220:254264.
  • 36
    Gobas FAPC, Arnot JA. 2010. Food web bioaccumulation model for polychlorinated biphenyls in San Francisco Bay, California, USA. Environ Toxicol Chem 29:13851395.
  • 37
    Gustavson K, von Stackelberg T, Linkov I, Bridges T. 2011. Bioaccumulation models: State of the application at large superfund sites. ERDC Tn-DOER-R15. US Army Engineer Research and Development Center, Vicksburg, MS.
  • 38
    Kaur J, DePinto JV, Atkinson JF. 2012. Development of a spatially resolved linked hydrodynamic and exposure model (LOTOX2) for PCBs in Lake Ontario. J Great Lakes Res 38:490503.
  • 39
    Environment Canada. 2003. Guidance manual for the categorization of organic and inorganic substances on Canada's Domestic Substances List: Determining persistence, bioaccumulation potential, and inherent toxicity to non-human organisms. Gatineau, PQ.
  • 40
    MacLeod M, McKone TE, Foster KL, Maddalena RL, Parkerton TF, Mackay D. 2004. Applications of contaminant fate and bioaccumulation models in assessing ecological risks of chemicals:□ A case study for gasoline hydrocarbons. Environ Sci Technol 38:62256233.
  • 41
    Traas TP, van Wezel AP, Hermens JLM, Zorn M, van Hattum AGM, van Leeuwen CJ. 2004. Environmental quality criteria for organic chemicals predicted from internal effect concentrations and a food web model. Environ Toxicol Chem 23:25182527.
  • 42
    Arnot JA, Mackay D, Parkerton TF, Zaleski RT, Warren CS. 2010. Multimedia modeling of human exposure to chemical substances: The roles of food web biomagnification and biotransformation. Environ Toxicol Chem 29:4555.
  • 43
    Costanza J, Lynch DG, Boethling RS, Arnot JA. 2012. Use of bioaccumulation factor to screen chemicals for bioaccumulation potential. Environ Toxicol Chem 31:22612268.
  • 44
    Organisation for Economic Co-operation and Development. 2012. Bioaccumulation in fish: Aqueous and dietary exposure. Test Guidelines Programme, TG305. ENV/JM/TG (2012) 31. Paris, France.
  • 45
    Nichols JW, Huggett DB, Arnot JA, Fitzsimmons PN, Cowan-Ellsberry CE. 2013. Towards improved models for predicting bioconcentration of well-metabolized compounds by rainbow trout using measured rates of in vitro intrinsic clearance. Environ Toxicol Chem 7:16111622.
  • 46
    Gobas FAPC, MacLean LG. 2003. Sediment − water distribution of organic contaminants in aquatic ecosystems: The role of organic carbon mineralization. Environ Sci Technol 37:735741.
  • 47
    Burkhard LP, Cook PM, Lukasewycz MT. 2008. Organic carbon − water concentration quotients (Πsocs and πpocs): Measuring apparent chemical disequilibria and exploring the impact of black carbon in Lake Michigan. Environ Sci Technol 42:36153621.
  • 48
    Morgan EJ, Lohmann R. 2010. Dietary uptake from historically contaminated sediments as a source of PCBs to migratory fish and invertebrates in an urban estuary. Environ Sci Technol 44:54445449.
  • 49
    Jahnke A, Mayer P, McLachlan MS. 2012. Sensitive equilibrium sampling to study polychlorinated biphenyl disposition in Baltic Sea sediment. Environ Sci Technol 46:1011410122.
  • 50
    van Noort PCM, Koelmans AA. 2012. Nonequilibrium of organic compounds in sediment–water systems. Consequences for risk assessment and remediation measures. Environ Sci Technol 46:1090010908.
  • 51
    US Environmental Protection Agency. 2012. Guidelines for using passive samplers to monitor organic contaminants at Superfund sediment sites. Sediment Assessment and Monitoring Sheet No 3. OSWER Directive 9200.1-110 FS. Washington, DC.
  • 52
    Ghosh U, Luthy RG, Cornelissen G, Werner D, Menzie C. 2011. In-situ sorbent amendments: A new direction in contaminated sediment management. Environ Sci Technol 45:11631168.
  • 53
    Janssen EML, Thompson JK, Luoma SN, Luthy RG. 2011. PCB-induced changes of a benthic community and expected ecosystem recovery following in situ sorbent amendment. Environ Toxicol Chem 30:18191826.
  • 54
    Burkhard LP, Borgå K, Powell DE, Leonards P, Muir DCG, Parkerton TF, Woodburn KB. 2013. Improving the quality and scientific understanding of trophic magnification factors (TMFs). Environ Sci Technol 47:11861187.