140                                                        The Toxicology of Fishes


                       Gruger, E.H., Karrick, N.L., Davidson, A.I., and Hruby, T. 1975. Accumulation of 3,4,3′,4′-hexachlorobiphenyl
                          and 2,4,5,2′,4′,5′- and 2,4,6,2′,4′,6′-hexachlorobiphenyl in juvenile Coho salmon. Environ. Sci. Technol.,
                          9: 121–127.
                       Guarino, A.M. and Lech, J.J. 1986. Metabolism, disposition, and toxicity of drugs and other xenobiotics in
                          aquatic species. Vet. Hum. Toxicol., 28(Suppl. 1): 38–44.
                       Guarino, A.M., Plakas, S.M., Dickey, R.W., and Zeeman, M. 1988. Principles of drug absorption and recent
                          studies of bioavailability in aquatic species. Vet. Hum. Toxicol., 30(Suppl. 1): 41–44.
                       Guiney, P.D. and Peterson, R.E. 1980. Distribution and elimination of a polychlorinated biphenyl after acute
                          dietary exposure in yellow perch and rainbow trout. Arch. Environ. Contam. Toxicol., 9: 667–674.
                       Guiney, P.D., Melancon, Jr., M.J., Lech, J.J., and Peterson, R.E. 1979. Effects of egg and sperm maturation
                          and spawning on the distribution and elimination of a polychlorinated biphenyl in rainbow trout (Salmo
                          gairdneri). Toxicol. Appl. Pharmacol., 47: 261–272.
                       Haggard H.W. 1924. The absorption, distribution and elimination of ethyl ether. I. The amount of ether absorbed
                          in relation to the concentration inhaled and its fate in the body. J. Biol. Chem., 59: 737–751.
                       Hamelink, J.L., Waybrant, R.C., and Ball, R.C. 1971. A proposal: exchange equilibria control the degree
                          chlorinated hydrocarbons are biologically magnified in lentic environments. Trans. Am. Fish. Soc., 100:
                          207–239.
                       Hampton, J.A., Lantz, R.C., and Hinton, D.E. 1989. Functional units in rainbow trout (Salmo gairdneri,
                          Richardson) liver. III. Morphometric analysis of parenchyma, stroma, and component cell types. Am. J.
                          Anat., 185: 58–73.
                       Hansch, C., Kim, D., Leo,  A.J., Novellino, E., Silipo, C., and  Vittoria,  A. 1989.  Toward a quantitative
                          comparative toxicology of organic compounds. Crit. Rev. Toxicol., 19: 185–226.
                       Hansen, L.G.,  Wiekhorst,  W.B., and Simon, J. 1976. Effects of dietary Aroclor 1242 on channel catfish
                          (Ictalurus punctatus) and the selective accumulation of PCB components. J. Fish. Res. Board Can., 33:
                          1343–1352.
                       Hawker, D.W. 1990. Description of fish bioconcentration factors in terms of solvatochromatic parameters.
                          Chemosphere, 20: 467–477.
                       Hayton, W.L. and Barron, M.G. 1990. Rate-limiting barriers to xenobiotic uptake by the gill. Environ. Toxicol.
                          Chem., 9: 151–157.
                       He, E. and Wurtsbaugh, W.A. 1993. An empirical model of gastric evacuation rates for fish and an analysis
                          of digestion in piscivorous brown trout. Trans. Am. Fish. Soc., 122: 717–730.
                       Heisler, N. 1993. Acid–base regulation, in The Physiology of Fishes, Evans, D.H., Ed., CRC Press, Boca
                          Raton, FL, pp. 343–378.
                       Hellou, J., Mackay, D., and Fowler, B. 1995. Bioconcentration of polycyclic aromatic compounds from
                          sediments to muscle of finfish. Environ. Sci. Technol., 29: 2555–2560.
                       Hemmer, M.J., Courtney, L.A., and Ortego, L.S. 1995. Immunohistochemical detection of P-glycoprotein in
                          teleost tissues using mammalian polyclonal and monoclonal antibodies. J. Exp. Zool., 272: 69–77.
                       Hickman, Jr., C.P. and Trump, B.F. 1969. The kidney, in Fish Physiology, Vol. 1, Hoar, W.S. and Randall,
                          D.J., Eds., Academic Press, New York, pp. 91–239.
                       Hinton, D.E. and Couch, J.A. 1998. Architectural pattern, tissue and cellular morphology in livers of fishes:
                          relationship to experimentally induced neoplastic responses, in Fish Ecotoxicology, Braunbeck, T., Hinton,
                          D.E., and Streit, B., Eds., Birkhauser Verlag, Basel, pp.141–164.
                       Hinton, D.E., Segner, H., and Braunbeck, T. 2001. Toxic response of the liver, in Target Organ Toxicity in
                          Marine and Freshwater Teleosts, Vol. I, Schlenk, D. and Benson, W.H., Eds., Taylor & Francis, New York,
                          pp. 224–268.
                       Hoensch, H.P. and Schwenk, M. 1984. Intestinal absorption and metabolism of xenobiotics in humans, in
                          Intestinal Toxicology, Schiller C.M., Ed., Raven Press, New York, pp. 169–192.
                       Hofer, R., Forstner, H., and Rettenwander, R. 1982. Duration of gut passage and its dependence on temperature
                          and food consumption in roach, Rutilus rutilus L.: laboratory and field experiments. J. Fish Biol., 20:
                          289–299.
                       Hoffman, A.D., Bertelsen, S.L., and Gargas, M.L. 1992. An in vitro gas equilibration method for determination
                          of chemical partition coefficients in fish. Comp. Biochem. Physiol., 101A: 47–51.
                       Horn, M.H. 1989. Biology of marine herbivorous fishes. Oceanogr. Mar. Biol. Annu. Rev., 27: 167–272.
                       Houston, J.B. and Carlile, D.J. 1997a. Incorporation of in vitro drug metabolism data in physiologically based
                          pharmacokinetic models. Toxicol. In Vitro, 11: 473–478.