Evolution, 4th Edition

(Amelia) #1

LITERATURE CITED LC–3



  1. Grant, P. R., and B. R. Grant. 2006. Evolution of character
    displacement in Darwin’s finches. Science 313: 224–226.

  2. Grant, P. R., and B. R. Grant. 2008. How and Why Species Multiply: The
    Radiation of Darwin’s Finches. Princeton University Press, Princeton,
    NJ.

  3. Haldane, J. B. S. 1932. The Causes of Evolution. Longmans, Green,
    New York.

  4. Harvey, P. H., and M. D. Pagel. 1991. The Comparative Method in
    Evolutionary Biology. Oxford University Press, Oxford.

  5. Hendry, A. P., and M. T. Kinnison. 1999. Perspective: The pace of
    modern life: Measuring rates of contemporary microevolution.
    Evolution 53: 1637–1653.

  6. Hurst, G. D. D., and J. H. Werren. 2001. The role of selfish genetic
    elements in eukaryotic evolution. Nat. Rev. Genet. 2: 597–606.

  7. Jablonski, D. 2008. Species selection: Theory and data. Annu. Rev.
    Ecol. Evol. Syst. 39: 501–524.

  8. Keller, E. F., and E. A. Lloyd (eds.). 1992. Keywords in Evolutionary
    Biology. Harvard University Press, Cambridge, MA.

  9. Kuparinen, A., and J. Merilä. 2007. Detecting and managing
    fisheries-induced evolution. Trends Ecol. Evol. 22: 652–659.

  10. Lewontin, R. C. 2000. The Triple Helix: Gene, Organism, and
    Environment. Harvard University Press, Cambridge, MA.

  11. Macnair, M. R. 1981. Tolerance of higher plants to toxic materials. In
    J. A. Bishop and L. M. Cook (eds.), Genetic Consequences of Man Made
    Change, pp. 177–207. Academic Press, New York.

  12. Mayr, E. 1988. Cause and effect in biology. In E. Mayr (ed.), Toward
    a New Philosophy of Biology, pp. 24–37. Harvard University Press,
    Cambridge, MA.

  13. Metcalf, R. L., and W. H. Luckmann (eds.). 1994. Introduction to Insect
    Pest Management, 3rd ed. Wiley, New York.

  14. Normark, B. B., O. P. Judson, and N. A. Moran. 2003. Genomic
    signatures of ancient asexual lineages. Biol. J. Linn. Soc. 79: 69–84.

  15. Odling-Smee, F. J., K. N. Laland, and M. W. Feldman. 2003. Niche
    Construction: The Neglected Process in Evolution. Princeton University
    Press, Princeton, NJ.

  16. Okasha, S. 2006. Evolution and the Levels of Selection. Oxford
    University Press, Oxford.

  17. Olsen, E. M., and 6 others. 2004. Maturation trends indicative of
    rapid evolution preceded the collapse of northern cod. Nature 428:
    932–935.

  18. Paley, W. 1928. Natural Theology. (Reprinted 2009, Cambridge
    University Press, Cambridge).

  19. Palumbi, S. R. 2001. The Evolution Explosion: How Humans Cause
    Rapid Evolutionary Change. W. W. Norton, New York

  20. Porter, K. R. 1972. Herpetology. W. B. Saunders, Philadelphia, PA.

  21. Rabosky, D. L., and A. R. McCune. 2010. Reinventing species
    selection with molecular phylogenies. Trends Ecol. Evol. 25: 68–74.

  22. Reeve, H. K., and P. W. Sherman. 1993. Adaptation and the goals of
    evolutionary research. Q. Rev. Biol. 68: 1–32.

  23. Richerson, P. J., and R. Boyd. 2005. Not By Genes Alone: How Culture
    Transformed Human Evolution. University of Chicago Press, Chicago.

  24. Ruse, M. 1979. The Darwinian Revolution. University of Chicago
    Press, Chicago.

  25. Schluter, D., and P. R. Grant. 1984. Determinants of morphological
    patterns in communities of Darwin’s finches. Am. Nat. 123: 175–196.

  26. Smith, T. B., and L. Bernatchez. 2008. Evolutionary change in
    human-altered environments. Mol. Ecol. 17: 1–8.

  27. Sober, E. 1984. The Nature of Selection: Evolutionary Theory in
    Philosophical Focus. MIT Press, Cambridge, MA.

  28. Stearns, S. C. 1986. Natural selection and fitness, adaptation and
    constraint. In D. M. Raup and D. Jablonski (eds.), Patterns and
    Processes in the History of Life, pp. 23–44. Springer-Verlag, Berlin.

  29. Varela-Lasheras, I., A. J. Baker, S. D. van der Mije, J. A. J. Metz, J. van
    Alphen, and F. Galis. 2011. Breaking evolutionary and pleiotropic
    constraints in mammals: On sloths, manatees, and homeotic
    mutations. EvoDevo 2, article no. 11. doi:10.1186/2041-9139-2-11.
    51. Williams, G. C. 1966. Adaptation and Natural Selection. Princeton
    University Press, Princeton, NJ.
    52. Williams, G. C. 1992. Gaia, nature worship and biocentric fallacies. Q.
    Rev. Biol. 67: 479–486.


CHAPTER 4
1a. Allison, A. C. 1956. The sickle-cell and haemoglobin-C genes in
some African populations. Ann. Hum. Genet. 21: 67–89.
1b. Bank, C., R. T. Hietpas, A. Wong. D. N. Bolon, and J. D. Jenson. 2014.
A Bayesian approach to assess the complete distribution of fitness
effects of new mutations: Uncovering the potential for adaptive
walks in challenging environments. Genetics 196: 841–852.


  1. Bonduriansky, R., and T. Day. 2009. Nongenetic inheritance and its
    evolutionary implications. Annu. Rev. Ecol. Evol. Syst. 40: 103–125.

  2. Chandler, V. L. 2007. Paramutation: From maize to mice. Cell 128:
    641–645.

  3. Crosland, M. W. J., and R. H. Crozier. 1986. Myrmecia pilosula, an ant
    with only one pair of chromosomes. Science 231: 1278.

  4. Darmon, E., and D. R. F. Leach. 2014. Bacterial genome instability.
    Microbiol. Mol. Biol. Rev. 78: 1–39.

  5. Dobzhansky, Th. G. 1970. Genetics of the Evolutionary Process.
    Columbia University Press, New York.

  6. Eyre-Walker, A., and P. D. Keightley. 2007. The distribution of fitness
    effects of new mutations. Nat. Rev. Genet. 8: 610–618.

  7. Eyre-Walker, A., M. Woolfit, and T. Phelps. 2006. The distribution of
    fitness effects of new deleterious amino acid mutations in humans.
    Genetics 173: 891–900.

  8. Feuk, L., and 7 others. 2005. Discovery of human inversion
    polymorphisms by comparative analysis of human and chimpanzee
    DNA sequence assemblies. PLoS Genet. 1: 489–498.

  9. Ford, E. B. 1971. Ecological Genetics. Chapman & Hall, London.

  10. Keightley, P. D. 2012. Rates and fitness consequences of new
    mutations in humans. Genetics 190: 295–304.

  11. Khandelwal, S. 1990. Chromosome evolution in the genus
    Ophioglossum L. Bot. J. Linn. Soc. 102: 205–217.

  12. Kondrashov, F. A., and A. S. Kondrashov. 2010. Measurements of
    spontaneous rates of mutations in the recent past and the near
    future. Philos. Trans. R. Soc., B 365: 1169–1176.

  13. Lederberg, J., and E. M. Lederberg. 1952. Replica plating and indirect
    selection of bacterial mutants. J. Bacteriol. 63: 399–406.

  14. Lee, H., E. Popodi, H. X. Tang, and P. L. Foster. 2012. Rate and
    molecular spectrum of spontaneous mutations in the bacterium
    Escherichia coli as determined by whole-genome sequencing. Proc.
    Natl. Acad. Sci. USA 109: E2774–E2783.

  15. Lynch, M. 2010. Evolution of the mutation rate. Trends Genet. 26:
    345–352.

  16. Lynch, M., and 6 others. 2016. Genetic drift, selection and the
    evolution of the mutation rate. Nat. Rev. Genet. 17: 704–714.

  17. MacDougall-Shackleton, E. A., and S. A. MacDougall-Shackleton.

  18. Cultural and genetic evolution in mountain white-crowned
    sparrows: Song dialects are associated with population structure.
    Evolution 55: 2568–2575.

  19. Ochman, H., J. G. Lawrence, and E. A. Groisman. 2000. Lateral gene
    transfer and the nature of bacterial innovation. Nature 405: 299–304.

  20. Richardson, A. O., and J. D. Palmer. 2007. Horizontal gene transfer in
    plants. J. Exp. Bot. 58: 1–9.

  21. Sebat, J., and 20 others. 2004. Large-scale copy number
    polymorphism in the human genome. Science 305: 525–528.

  22. Sniegowski, P. D., P. J. Gerrish, T. Johnson, and A. Shaver. 2000. The
    evolution of mutation rates: Separating causes from consequences.
    Bioessays 22: 1057–1066.

  23. Sturtevant, A. H. 1923. Inheritance of direction of coiling in Limnaea.
    Science 58: 269–270.

  24. Swart, E. C., and 28 others. 2013. The Oxytricha trifallax macronuclear
    genome: A complex eukaryotic genome with 16,000 tiny
    chromosomes. PLoS Biol. 11: e1001473.


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