Evolution, 4th Edition

(Amelia) #1

LITERATURE CITED LC–15



  1. Mallet, J., and M. Joron. 1999. Evolution of diversity in warning color
    and mimicry: polymorphisms, shifting balance, and speciation. Annu.
    Rev. Ecol. Syst. 30: 201–233.

  2. Martin, W., and 9 others. 2002. Evolutionary analysis of Arabidopsis,
    cyanobacterial, and chloroplast genomes reveals plastid phylogeny
    and thousands of cyanobacterial genes in the nucleus. Proc. Natl.
    Acad. Sci. 99: 12246–12251.

  3. Mittelbach, G. G., and D. W. Schemske. 2015. Ecological and
    evolutionary perspectives on community assembly. Trends Ecol. Evol.
    30: 241–247.

  4. Moran, N. A. 2007. Symbiosis as an adaptive process and source of
    phenotypic complexity. Proc. Natl. Acad. Sci. USA 104: 8627–8633.

  5. Moran, N. A., and P. Baumann. 1994. Phylogenetics of
    cytoplasmically inherited microorganisms of arthropods. Trends Ecol.
    Evol. 9: 15–20.

  6. Muchhala, N., and J. D. Thomson. 2009. Going to great lengths:
    Selection for long corolla tubes in an extremely specialized bat-
    flower mutualism. Proc. R. Soc.Lond. B 276: 2147–2152.

  7. Nicholson, J. K., and 6 others. 2012. Host-gut microbiota metabolic
    interactions. Science 336: 1262–1267.

  8. Nuismer, S. L., B. J. Ridenhour, and B. P. Oswald. 2007. Antagonistic
    coevolution mediated by phenotypic differences between
    quantitative traits. Evolution 61: 1823–1834.

  9. Page, R. D. M. 2002. Introduction. In R. D. M. Page (ed.), Tangled
    Trees: Phylogeny, Cospeciation, and Coevolution, pp. 1–21. University of
    Chicago Press, Chicago.

  10. Pauw, A., J. Stofberg, and R. J. Waterman. 2009. Flies and flowers in
    Darwin’s race. Evolution 63: 268–279.

  11. Pellmyr, O., and J. Leebens-Mack. 1999. Forty million years of
    mutualism: Evidence for Eocene origin of the yucca-yucca moth
    association. Proc. Natl. Acad. Sci. USA 96: 9178–9183.

  12. Pfennig, D. W., and K. S. Pfennig. 2010. Character displacement and
    the origins of diversity. Am. Nat. 176: S26–S44.

  13. Porco, T. C., J. O. Lloyd-Smith, K. L. Gross, and A. P. Galvani. 2005.
    The effect of treatment on pathogen virulence. J. Theor. Biol. 233:
    91–102.

  14. Read, A. F., and 8 others. 2015. Imperfect vaccination can enhance
    the transmission of highly virulent pathogens. PLoS Biol. 13 (7), no.
    e1002198.

  15. Rezende, E. L., P. Jordano, and J. Bascomte. 2007. Effects of
    phenotypic complementarity and phylogeny on the nested structure
    of mutualistic networks. Oikos 116: 1919–1929.

  16. Robinson, B. W., D. S. Wilson, and A. S. Margosian. 2000. A pluralistic
    analysis of character release in pumpkinseed sunfish (Lepomis
    gibbosus). Ecology 81: 2799–2812.

  17. Rothstein, S. I., and S. K. Robinson (eds.). 1998. Parasitic Birds and
    Their Hosts: Studies in Coevolution. Oxford University Press, NY.

  18. Schluter, D. 2000. The Ecology of Adaptive Radiation. Oxford
    University Press, Oxford.

  19. Siepelski, A. M., and C. W. Benkman. 2007. Convergent patterns in
    the selection mosaic for two North American bird-dispersed pines.
    Ecol. Monogr. 77: 203–220.

  20. Slatkin, M. 1980. Ecological character displacement. Ecology 61:
    163–177.

  21. Stuart, Y. E., T. S. Campbell, P. A. Hohenlohe, R. G. Reynolds, L. J.
    Revell, and J. B. Losos. 2014. Rapid evolution of a native species
    following Invasion by a congener. Science 346: 463–466.

  22. Taper, M. L., and T. J. Case. 1992. Coevolution among competitors.
    Oxford Surv. Evol. Biol. 8: 63–109.

  23. Terborgh, J. 2012. Enemies maintain hyperdiverse tropical forests.
    Am. Nat. 179: 303–314.

  24. Thompson, J. N. 1994. The Coevolutionary Process. University of
    Chicago Press, Chicago.

  25. Thompson, J. N. 2009. The coevolving web of life. Am. Nat. 173:
    125–140.
    74. Thompson, J. N. 2013. Relentless Evolution. University of Chicago
    Press, Chicago and London.
    75. Timmermans, M. J. T. N., and 12 others. 2014. Comparative genetics
    of the mimicry switch in Papilio dardanus. Proc. R. Soc. Lond. B 281:
    20140645.
    76. Toju, H., and T. Sota. 2006. Imbalance of predator and prey
    armament: Geographic clines in phenotypic interface and natural
    selection. Am. Nat. 167: 105–117.
    77. Uesugi, A., and A. Kessler. 2013. Herbivore exclusion drives the
    evolution of plant competitiveness via increased allelopathy. New
    Phytol. 198: 916–924.
    78. Ullstrup, A. J. 1972. The impacts of the southern corn leaf blight
    epidemic of 1970–1971. Annu. Rev. Phytopathol. 19: 37–50.
    79. Van Valen, L. 1973. A new evolutionary law. Evol. Theory 1: 1–30.
    80. Webb, C. O. 2000. Exploring the phylogenetic structure of ecological
    communities: An example for rain forest trees. Am. Nat. 156: 145–
    155.
    81. Weese, D. J., K. D. Heath, B. T. M. Dentlinger, and J. A. Lau.
    2015. Long-term nitrogen addition causes the evolution of less-
    cooperative mutualists. Evolution 69: 631–642.
    82. Winkler, I. S., and C. Mitter. 2008. The phylogenetic dimension of
    insect-plant interactions: A review of recent evidence. In K. J. Tilmon
    (ed.), Specialization, Speciation, and Radiation: The Evolutionary Biology
    of Herbivorous Insects, pp. 240–263. University of California Press,
    Berkeley.
    83. Woolhouse, M. E. J., D. T. Haydon, and R. Antia. 2005. Emerging
    pathogens: The epidemiology and evolution of species jumps. Trends
    Ecol. Evol. 20: 238–244.
    84. Yuan, Y., and 7 others. 2013. Enhanced allelopathy and competitive
    ability of invasive plant Solidago canadensis in its introduced range. J.
    Plant Ecol. 6: 253–263.


CHAPTER 14


  1. Adams, K. L., and J. D. Palmer. 2003. Evolution of mitochondrial gene
    content: Gene loss and transfer to the nucleus. Mol. Phylogenet. Evol.
    29: 380–395.

  2. Arnegard, M. E., D. J. Zwickl, Y. Lu, and H. H. Zakon. 2010. Old gene
    duplication facilitates origin and diversification of an innovative
    communication system—twice. Proc. Natl. Acad. Sci. USA 107:
    22172–22177.

  3. Batut, B., C. Knibbe, G. Marais, and V. Daubin. 2014. Reductive
    genome evolution at both ends of the bacterial population size
    spectrum. Nat. Rev. Microbiol. 12: 841–850.

  4. Batzer, M. A., and P. L. Deininger. 2002. Alu repeats and human
    genomic diversity. Nat. Rev. Genet. 3: 370–379.

  5. Belancio, V. P., D. J. Hedges, and P. Deininger. 2008. Mammalian non-
    LTR retrotransposons: For better or worse, in sickness and in health.
    Genome Res. 18: 343–358.

  6. Bennett, G. M., and N. A. Moran. 2013. Small, smaller, smallest: The
    origins and evolution of ancient dual symbioses in a phloem-feeding
    insect. Genome Biol. Evol. 5: 1675–1688.

  7. Bhutkar, A., S. W. Schaeffer, S. M. Russo, M. Xu, T. F. Smith, and
    W. M. Gelbart. 2008. Chromosomal rearrangement inferred from
    comparisons of 12 Drosophila genomes. Genetics 179: 1657–1680.

  8. Bird, D. M., J. T. Jones, C. H. Opperman, T. Kikuchi, and E. G. J.
    Danchin. 2015. Signatures of adaptation to plant parasitism in
    nematode genomes. Parasitology 142: S71–S84.

  9. Bosco, G., P. Campbell, J. T. Leiva-Neto, and T. A. Marko. 2007.
    Analysis of Drosophila species genome size and satellite DNA
    content reveals significant differences among strains as well as
    between species. Genetics 177: 1277–1290.

  10. Brenchley, R., and 28 others. 2012. Analysis of the breadwheat
    genome using whole-genome shotgun sequencing. Nature 491:
    705–710.


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