Evolution, 4th Edition

(Amelia) #1

LITERATURE CITED LC–11



  1. Westneat, D. F., and I. R. K. Stewart. 2003. Extra-pair paternity in
    birds: Causes, correlates, and conflict. Annu. Rev. Ecol., Evol. Syst. 34:
    365–396.

  2. Zuk, M., J. T. Rotenberry, and R. M. Tinghitella. 2006. Silent night:
    Adaptive disappearance of a sexual signal in a parasitized population
    of field crickets. Biol. Lett. (London, U.K.) 2: 521–524.


CHAPTER 11


  1. Alsop, D. J., and S. A. West. 2003. Constant relative age and size at
    sex change for sequentially hermaphroditic fish. J. Evol. Biol. 921–929.

  2. Angilleta, M. J., R. S. Wilson, C. A. Banav, and R. S. James. 2003.
    Trade-offs and the evolution of thermal reaction norms. Trends Ecol.
    Evol. 18: 234–240.

  3. Augspurger, C. K. 1984. Demography and life history variation of
    Puya dasylirioides, a long-lived rosette in tropical subalpine bogs.
    Oikos 45: 341–352.

  4. Auld, J. R., A. A. Agrawal, and R. A. Relyea. 2010. Reevaluating the
    costs and limits of adaptive phenotypic plasticity. Proc. R. Soc. Lond. B
    277: 503–511.

  5. Ayala, F. J. 1968. Genotype, environment, and population numbers.
    Science 162: 1453–1459.

  6. Bassar, R. D., A. Lopez-Sepulcre, D. N. Reznick, and J. Travis. 2013.
    Experimental evidence for density-dependent regulation and
    selection on Trinidadian guppy life-histories. Am. Nat. 181: 25–38.

  7. Bell, G., and V. Koufopanou. 1986. The cost of reproduction. Oxford
    Surv. Evol. Biol. 3: 83–131.

  8. Bernays, E. A. 2001. Neural limitations in phytophagous insects:
    Implications for diet breadth and evolution of host affiliation. Annu.
    Rev. Entomol. 46: 703–727.

  9. Bernays, E. A., and D. J. Funk. 1999. Specialists make faster decisions
    than generalists: Experiments with aphids. Proc. Soc. Lond. B 266:
    151–156.

  10. Bernays, E. A., and M. Graham. 1988. On the evolution of host
    specificity in phytophagous arthropods. Ecology 69: 886–892.

  11. Charlesworth, B. 1994. Evolution in Age-Structured Populations.
    Cambridge University Press, Cambridge.

  12. Charnov, E., and U. Skuladottir. 2000. Dimensionless invariants for
    the optimal size (age) of sex change. Evol. Ecol. Res. 2: 1067–1071.

  13. Cooper, V. S., and R. E. Lenski. 2000. The population genetics of
    ecological specialization in evolving Escherichia coli populations.
    Nature 407: 736–739.

  14. Cox, R. M., and R. Calsbeek. 2010. Severe costs of reproduction
    persist in Anolis lizards despite the evolution of a single-egg clutch.
    Evolution 64: 1321–1330.

  15. Croft, D. P., L. J. N. Brent, D. W. Franks, and M. A. Cant. 2015. The
    evolution of prolonged life after reproduction. Trends Ecol. Evol. 30:
    407–416.

  16. Deutsch, C. A., and 6 others. 2008. Impacts of climate warming on
    terrestrial ectotherms across latitude. Proc. Natl. Acad. Sci. USA 105:
    6668–6672.

  17. Forister, M. L., L. A. Dyer, M. S Singer, J. O. Stireman III, and J. T.
    Lill. 2012. Revisiting the evolution of ecological specialization, with
    emphasis on insect-plant interactions. Ecology 93: 981–991.

  18. Foster, S. A., and C. H. Janson. 1985. The relationship between seed
    size and establishment conditions in tropical woody plants. Ecology
    66: 773–780.

  19. Foster, E. A., and 6 others. 2012. Adaptive prolonged
    postreproductive life span in killer whales. Science 337: 1313.

  20. Franco, M., and J. Silvertown. 1996. Life history variation in plants:
    An exploration of the fast-slow continuum hypothesis. Phil. Trans. R.
    Soc.,B 351: 1341–1348.

  21. Fry, J. D. 1996. The evolution of host specialization: Are trade-offs
    overrated? Am. Nat. 148: S84–S107.

  22. Futuyma, D. J., and G. Moreno. 1988. The evolution of ecological
    specialization. Annu. Rev. Ecol. Syst. 19: 207–233.

  23. Futuyma, D. J., and T. E. Philippi. 1987. Genetic variation and
    covariation in responses to host plants by Alsophila pometaria
    (Lepidoptera: Geometridae). Evolution 41: 269–279.

  24. Ghalambor, C. K., R. B. Huey, P. R. Martin, J. J. Tewksbury, and G.
    Wang. 2006. Are mountain passes higher in the tropics? Janzen’s
    hypothesis revisited. Integr. Comp. Biol. 46: 5–17.

  25. Hall, A. R., and N. Colegrave. 2007. Decay of unused characters by
    selection and drift. J. Evol. Biol. 21: 610–617.

  26. Holt, R. D., and M. S. Gaines. 1992. Analysis of adaptation in
    heterogeneous landscapes: Implications for the evolution of
    fundamental niches. Evol. Ecol. 6: 433–447.

  27. Hughes, K.A., J. A. Alipaz, J. M. Drnevich, and R. M. Reynolds. 2002.
    A test of evolutionary theories of aging. Proc. Natl. Acad. Sci. USA 99:
    14286–14291.

  28. Janzen, D. H. 1967. Why mountain passes are higher in the tropics.
    Am. Nat. 101: 233–249.

  29. Jones, O. R., and 13 others. 2014. Diversity of ageing across the tree
    of life. Nature 505: 169–173.

  30. Kassen, R. 2002. The experimental evolution of specialists,
    generalists, and the maintenance of diversity. J. Evol. Biol. 15: 173–



  31. Kawecki, T. J., N. H. Barton, and J. D. Fry. 1997. Mutational collapse
    of fitness in marginal habitats and the evolution of ecological
    specialization. J. Evol. Biol. 10: 407–429.

  32. Keller, L. F., J. M. Reid, and P. Arcese. 2008. Testing evolutionary
    models of senescence in a natural population: Age and inbreeding
    effects on fitness components in song sparrows. Proc. R. Soc. Lond. B
    275: 597–604.

  33. Lack, D. 1954. The Natural Regulation of Animal Numbers. Oxford
    University Press, Oxford.

  34. Lee, C. E., J. L. Remfert, and G. W. Gelembiuk. 2003. Evolution
    of physiological tolerance and performance during freshwater
    invasions. Integr. Comp. Biol. 43: 439–449.

  35. López-Otín, C., M. A. Blasco, L. Partridge, M. Serrano, and G.
    Kroemer. 2013. The hallmarks of aging. Cell 153: 1194–1217.

  36. Medawar, P. B. 1952. An Unsolved Problem of Biology. H. K. Lewis,
    London.

  37. Messina, F. J., and J. D. Fry. 2003. Environment-dependent reversal of
    a life history trade-off in the seed beetle Callosobruchus maculatus. J.
    Evol. Biol. 16: 501–509.

  38. Metcalf, J. C., K. E. Rose, and M. Rees. 2003. Evolutionary
    demography of monocarpic perennials. Trends Ecol. Evol. 18: 471–480.

  39. Moles, A. T., and 6 others. 2005. Factors that shape seed mass
    evolution. Proc. Natl. Acad. Sci. USA 102: 10540–10544.

  40. Murren, C. J., and 15 others. 2015. Constraints on the evolution of
    phenotypic plasticity: Limits and costs of phenotype and plasticity.
    Heredity 115: 293–301.

  41. Nielsen, J., and 10 others. 2016. Eye lens radiocarbon reveals
    centuries of longevity in the Greenland shark (Somniosus
    microcephalus). Science 353: 702–704.

  42. Overgaard, J., T. N. Kristensen, K. A. Mitchell, and A. A. Hoffmann.

  43. Thermal tolerance in widespread and tropical Drosophila
    species: Does phenotypic plasticity increase with latitude? Am. Nat.
    178: S80–S96.

  44. Partridge, L. 2001. Evolutionary theories of ageing applied to long-
    lived organisms. Exper. Gerontol. 36: 641–650.

  45. Partridge, L., N. Prowse, and P. Pignatelli. 1999. Another set
    of responses and correlated responses to selection on age at
    reproduction in Drosophila melanogaster. Proc. R. Soc. Lond. B 266:
    255–261.

  46. Petralia, R. S., M. P. Mattson, and P. J. Yao. 2014. Aging and longevity
    in the simplest animals and the quest for immortality. Ageing Res.
    Rev.16: 66–82.


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