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Literature cited

  • Allendorf, F. W., and J. J. Hard. 2009. Human-induced evolution caused by unnatural selection through harvest of wild animals. Proceedings of the National Academy of Sciences of the United States of America106:99879994.
  • Ando, D., S. Mano, N. Koide, and M. Nakajima. 2008. Estimation of heritability and genetic correlation of number of abdominal and caudal vertebrae in masu salmon. Fishery Science74:293298.
  • Biro, P. A., M. V. Abrahams, J. R. Post, and E. A. Parkinson. 2004. Predators select against high growth rates and risk-taking behaviour in domestic trout populations. Proceedings. Biological Sciences271:22332237.
  • Bochdansky, A. B., P. Grønkjær, P. Pepin, and W. C. Leggett. 2008. Food limitation in larval fish: ontogenetic variation in feeding scope and its potential effect on survival. Marine Ecology Progress Series367:239248.
  • Chiba, S., S. A. Arnott, and D. O. Conover. 2007. Coevolution of foraging behavior with intrinsic growth rate: risk-taking in naturally and artificially selected growth genotypes of Menidia menidia. Oecologia154:237246.
  • Conover, D. O., and S. B. Munch. 2002. Sustaining fisheries yields over evolutionary time scales. Science297:9496.
  • Conover, D. O., S. A. Arnott, M. R. Walsh, and S. B. Munch. 2005. Darwinian fishery science: lessons from the Atlantic silverside (Menidia menidia). Canadian Journal of Fisheries and Aquatic Sciences62:730737.
  • Conover, D. O., S. B. Munch, and S. A. Arnott. 2009. Reversal of evolutionary downsizing caused by selective harvest of large fish. Proceedings. Biological Sciences276:20152020.
  • Edeline, E., S. M. Carlson, L. C. Stige, I. J. Winfield, J. M. Fletcher, J. B. James, T. O. Haugen et al.2007. Trait changes in a harvested population are driven by a dynamic tug-of-war between natural and harvest selection. Proceedings of the National Academy of Sciences of the United States of America104:1579915804.
  • Estes, S., and H. Teotónio. 2009. The experimental study of reverse evolution. In T. Garland, and M. R. Rose, eds. Experimental Evolution: Concepts, Methods, and Applications of Selection Experiments, pp. 135171. University of California Press, Berkeley, CA.
  • Falconer, D. S., and T. F. C. Mackay. 1996. Introduction to Quantitative Genetics, 4th edn. Pearson, Essex.
  • Hard, J. J.2004. Evolution of Chinook salmon life history under size-selective harvest. In A. P. Hendry, and S. C. Stearns, eds. Evolution Illuminated: Salmon and their Relatives, pp. 315337. Oxford University Press, New York.
  • Hard, J. J., M. R. Gross, M. Heino, R. Hilborn, R. G. Kope, R. Law, and J. D. Reynolds. 2008. Evolutionary consequences of fishing and their implications for salmon. Evolutionary Applications1:388408.
  • Henryon, M., A. Jokumsen, P. Berg, I. Lund, P. B. Pedersen, N. J. Olesen, and W. J. Slierendrecht. 2002. Genetic variation for growth rate, feed conversion efficiency, and disease resistance exists within a farmed population of rainbow trout. Aquaculture209:5976.
  • Houde, E. D.1989. Subtleties and episodes in the early life of fishes. Journal of Fish Biology35(Suppl. A):2938.
  • Hutchings, J. A.2005. Life history consequences of overexploitation to population recovery in Northwest Atlantic cod (Gadus morhua). Canadian Journal of Fisheries and Aquatic Sciences62:824832.
  • Hutchings, J. A., and D. J. Fraser. 2008. The nature of fisheries- and farming-induced evolution. Molecular Ecology17:294313.
  • Jeffery, W. R.2001. Cavefish as a model system in evolutionary developmental biology. Developmental Biology231:112.
  • Jørgensen, C., K. Enberg, E. S. Dunlop, R. Arlinghaus, D. S. Boukal, K. Brander, B. Ernande et al.2007. Managing evolving fish stocks. Science318:12471248.
  • Kause, A., D. Tobin, D. F. Houlihan, S. A. M. Martin, E. A. Mäntysaari, O. Ritola, and K. Ruohonen. 2006. Feed efficiency of rainbow trout can be improved through selection: different genetic potential on alternative diets. Journal of Animal Science84:807817.
  • Law, R.2000. Fishing, selection, and phenotypic evolution. ICES Journal of Marine Science57:659668.
  • Law, R.2007. Fisheries-induced evolution: present status and future directions. Marine Ecology Progress Series335:271277.
  • Law, R., and C. A. Rowell. 1993. Cohort-structured populations, selection responses, and exploitation of the North Sea cod. In T. K. Stokes, J. M. McGlade, and R. Law, eds. The Exploitation of Evolving Resources, pp. 155173. Springer-Verlag, Berlin.
  • Mertz, G., and R. A. Myers. 1998. A simplified formulation for fish production. Canadian Journal of Fisheries and Aquatic Sciences55:478484.
  • Munch, S. B., M. R. Walsh, and D. O. Conover. 2005. Harvest selection, genetic correlations, and evolutionary changes in recruitment: one less thing to worry about?Canadian Journal of Fisheries and Aquatic Sciences62:802810.
  • Pepin, P., and R. A. Myers. 1991. Significance of egg and larval size to recruitment variability of temperate marine fish. Canadian Journal of Fisheries and Aquatic Sciences48:18201828.
  • Su, G.-S., L.-E. Liljedahl, and G. A. E. Gall. 2002. Genetic correlations between body weight at different ages and with reproductive traits in rainbow trout. Aquaculture213:8594.
  • Swain, D. P.2011. Life-history evolution and elevated natural mortality in a population of Atlantic cod (Gadus morhua). Evolutionary Applications4:1829.
  • Teotónio, H., M. Matos, and M. R. Rose. 2002. Reverse evolution of fitness in Drosophila melanogaster. Journal of Evolutionary Biology15:608617.
  • Thrower, F. P., J. J. Hard, and J. E. Joyce. 2004. Genetic architecture of growth and early life-history transitions in anadromous and derived freshwater populations of steelhead. Journal of Fish Biology65(Suppl. A):286307.
  • Walker, S. P. W., C. A. Ryen, and M. I. McCormick. 2007. Rapid larval growth predisposes sex change and sexual size dimorphism in a protogynous hermaphrodite, Parapercis snyderi Jordan & Starks 1905. Journal of Fish Biology71:13471357.
  • Walsh, M. R., S. B. Munch, S. Chiba, and D. O. Conover. 2006. Maladaptive changes in multiple traits caused by fishing: impediments to population recovery. Ecology Letters9:142148.