Evolution, 4th Edition

(Amelia) #1

LITERATURE CITED LC–5


CHAPTER 6
1a. Allen, C. E., P. Beldade, B. J. Zwaan, and P. M. Brakefield. 2008.
Differences in the selection response of serially repeated color
pattern characters: Standing variation, development, and evolution.
BMC Evol. Biol. 8: 94.
1b. Barrett, R. D. H., and D. Schluter. 2008. Adaptation from standing
genetic variation. Trends Ecol. Evolut. 23: 38–44.


  1. Beldade, P., K. Koops, and P. M. Brakefield. 2002a. Developmental
    conswtraints versus flexibility in morphological evolution. Nature
    416: 844–847.

  2. Beldade, P., K. Koops, and P. M. Brakefield. 2002b. Modularity,
    individuality, and evo-devo in butterfly wings. Proc. Natl. Acad. Sci.
    USA 99: 14262–14267.

  3. Bell, G., and A. Gonzalez. 2009. Evolutionary rescue can prevent
    extinction following environmental change. Ecol. Lett. 12: 942–948.

  4. Bell, G., and A. Gonzalez. 2011. Adaptation and evolutionary rescue
    in metapopulations experiencing environmental deterioration.
    Science 332: 1327–1330.

  5. Benkman, C. W. 2003. Divergent selection drives the adaptive
    radiation of crossbills. Evolution 57: 1176–1181.

  6. Boag, P. T. 1983. The heritability of external morphology in Darwin’s
    ground finches (Geospiza) on Isla Daphne Major, Galápagos.
    Evolution 37: 877–894.

  7. Boag, P. T., and P. R. Grant. 1984. The classical case of character
    release: Darwin’s finches (Geospiza) on Isla Daphne Major,
    Galápagos. Biol. J. Linn. Soc. 22: 243–287.

  8. Brodie, E. D. 1989. Genetic correlations between morphology and
    antipredator behaviour in natural populations of the garter snake
    Thamnophis ordinoides. Nature 342: 542–543.

  9. Brodie, E. D. 1992. Correlational selection for color pattern and
    antipredator behavior in the garter snake Thamnophis ordinoides.
    Evolution 46: 1284–1298.

  10. Carlson, S. M., C. J. Cunningham, and P. A. H. Westley. 2014.
    Evolutionary rescue in a changing world. Trends Ecol. Evolut. 29:
    521–530.

  11. Cavalli-Sforza, L. L., and W. F. Bodmer. 1971. The Genetics of Human
    Populations. W. H. Freeman, San Francisco.

  12. Chevin, L. M., R. Lande, and G. M. Mace. 2010. Adaptation, plasticity,
    and extinction in a changing environment: Towards a predictive
    theory. PLoS Biol. 8.

  13. Dudley, J. W., and R. J. Lambert. 2004. 100 generations of selection
    for oil and protein content in corn. Plant Breed. Rev. 24: 79–110.

  14. Etterson, J. R. 2004. Evolutionary potential of Chamaecrista fasciculata
    in relation to climate change. 1. Clinal patterns of selection along an
    environmental gradient in the great plains. Evolution 58: 1446–1458.

  15. Etterson, J. R., and R. G. Shaw. 2001. Constraint to adaptive evolution
    in response to global warming. Science 294: 151–154.

  16. Florez, J. C., J. Hirschhorn, and D. Altshuler. 2003. The inherited basis
    of diabetes mellitus: Implications for the genetic analysis of complex
    traits. Annu. Rev. Genomics Hum. Genet. 4: 257–291.

  17. Frary, A., and 9 others. 2000. fw2.2: A quantitative trait locus key to
    the evolution of tomato fruit size. Science 289: 85–88.

  18. Gejman, P. V., A. R. Sanders, and K. S. Kendler. 2011. Genetics of
    schizophrenia: New findings and challenges. Annu. Rev. Genomics
    Hum. Genet. 12: 121–144.

  19. Ghalambor, C. K., J. K. McKay, S. P. Carroll, and D. N. Reznick.

  20. Adaptive versus non-adaptive phenotypic plasticity and the
    potential for contemporary adaptation in new environments. Funct.
    Ecol. 21: 394–407.

  21. Gomulkiewicz, R., and R. D. Holt. 1995. When does evolution by
    natural selection prevent extinction? Evolution 49: 201–207.

  22. Hansen, T. F., and D. Houle. 2008. Measuring and comparing
    evolvability and constraint in multivariate characters. J. Evol. Biol. 21:
    1201–1219.

  23. Hill, W. G., and M. Kirkpatrick. 2010. What animal breeding has
    taught us about evolution. Annu. Rev. Ecol. Evol. Syst. 41: 1–19.

  24. Houde, A. E. 1987. Mate choice based upon naturally occurring color
    pattern variation in a guppy population. Evolution 41: 1–10.

  25. Houle, D. 1992. Comparing evolvability and variability of quantitative
    traits. Genetics 130: 194–204.

  26. Hughes, K. A., A. E. Houde, A. C. Price, and F. H. Rodd. 2013. Mating
    advantage for rare males in wild guppy populations. Nature 503:
    108–110.

  27. Johnson, T., and N. Barton. 2005. Theoretical models of selection
    and mutation on quantitative traits. Philos. Trans. R. Soc., B 360:
    1411–1425.

  28. Jones, F. C., and 33 others. 2012. The genomic basis of adaptive
    evolution in threespine sticklebacks. Nature 484: 55–61.

  29. Joron, M., and 22 others. 2011. Chromosomal rearrangements
    maintain a polymorphic supergene controlling butterfly mimicry.
    Nature 477: 203–206.

  30. Kellermann, V., B. van Heerwaarden, C. M. Sgrò, and A. A.
    Hoffmann. 2009. Fundamental evolutionary limits in ecological traits
    drive Drosophila species distributions. Science 325: 1244–1246.

  31. Kellermann, V. M., B. van Heerwaarden, A. A. Hoffmann, and C.
    M. Sgrò. 2006. Very low additive genetic variance and evolutionary
    potential in multiple populations of two rainforest Drosophila species.
    Evolution 60: 1104–1108.

  32. Kingsolver, J. G., and S. E. Diamond. 2011. Phenotypic selection in
    natural populations: What limits directional selection? Am. Nat. 177:
    346–357.

  33. Kirkpatrick, M. 2009. Patterns of quantitative genetic variation in
    multiple dimensions. Genetica 136: 271–284.

  34. Lande, R. 1979. Quantitative genetic analysis of multivariate
    evolution, applied to brain: Body size allometry. Evolution 33: 402–



  35. Lynch, M., and B. Walsh. 1998. Genetics and Analysis of Quantitative
    Traits. Sinauer Associates, Sunderland, MA.

  36. Mundy, N. I. 2005. A window on the genetics of evolution: MC1R
    and plumage colouration in birds. Proc. R. Soc. Lond. B 272: 1633–



  37. Musunuru, K., and S. Kathiresan. 2010. Genetics of coronary artery
    disease. Annu. Rev. Genomics Hum. Genet. 11: 91–108.

  38. Nienhuis, A. W., A. C. Nathwani, and A. M. Davidoff. 2016. Gene
    therapy for hemophilia. Hum. Gene Ther. 27: 305–308.

  39. Pfennig, D. W., A. Mabry, and D. Orange. 1991. Environmental
    causes of correlations between age and size of metamorphosis in
    Scaphiopus multiplicatus. Ecology 72: 2240–2248.

  40. Price, T. D., P. R. Grant, H. L. Gibbs, and P. T. Boag. 1984. Recurrent
    patterns of natural selection in a population of Darwin’s finches.
    Nature 309: 787–789.

  41. Quintero, I., and J. J. Wiens. 2013. Rates of projected climate change
    dramatically exceed past rates of climatic niche evolution among
    vertebrate species. Ecol. Lett. 16: 1095–1103.

  42. Schluter, D. 1988. Estimating the form of natural selection on a
    quantitative trait. Evolution 42: 849–861.

  43. Schluter, D. 1996. Adaptive radiation along genetic lines of least
    resistance. Evolution 50: 1766–1774.

  44. Scoville, A. G., and M. E. Pfrender. 2010. Phenotypic plasticity
    facilitates recurrent rapid adaptation to introduced predators. Proc.
    Natl. Acad. Sci. USA 107: 4260–4263.

  45. Shaw, R. G., and J. R. Etterson. 2012. Rapid climate change and the
    rate of adaptation: insight from experimental quantitative genetics.
    New Phytol. 195: 752–765.

  46. Sheldon, B. C., L. E. B. Kruuk, and J. Merila. 2003. Natural selection
    and inheritance of breeding time and clutch size in the collared
    flycatcher. Evolution 57: 406–420.

  47. Smith, T. B. 1993. Disruptive selection and the genetic basis of bill
    size polymorphism in the African finch Pyrenestes. Nature 363:
    618–620.

  48. Stern, D. L., and V. Orgogozo. 2008. The loci of evolution: How
    predictable is genetic evolution? Evolution 62: 2155–2177.


25_EVOL4E_LIT_CITED.indd 5 3/22/17 1:58 PM

Free download pdf