Evolution, 4th Edition

LC–26 LITERATURE CITED

71. Mayr, E. 1985. The probability of extraterrestrial intelligent life. In
    E. Regis, Jr. (ed.), Extraterrestrials: Science and Alien Intelligence, pp.
    25–30. Cambridge University Press, Cambridge.


72. McCutcheon, J. P., and N. A. Moran. 2012. Extreme genome
    reduction in symbiotic bacteria. Nat. Rev. Microbiol. 10: 13–26.


73. McShea, D. W. 1994. Mechanisms of large-scale evolutionary trends.
    Evolution 48: 1747–1763.


74. McShea, D. W. 1998. Possible largest–scale trends in organismal
    evolution: Eight “live hypotheses.” Annu. Rev. Ecol. Syst. 29: 293–318.


75. McShea, D. W. 2001. The hierarchical structure of organisms: A scale
    and documentation of a trend in the maximum. Paleobiology 27:
    405–423.


76. Michod, R. E. 1999. Darwinian Dynamics: Evolutionary Transitions in
    Fitness and Individuality. Princeton University Press, Princeton, NJ.


77. Mitgutsch, C., M. K. Richardson, R. Jiménez, J. E. Martin, P.
    Kondrashov, M. A. G. de Bakker, and M. R. Sánchez-Villagra. 2012.
    Circumventing the polydactyly “constraint”: The mole’s “thumb.” Biol.
    Lett. 8: 74–77.


78. Moczek, A. 2006. Integrating micro- and macroevolution of
    development through the study of horned beetles. Heredity 97:
    168–178.


79. Müller, G. B., and G. P. Wagner. 1991. Novelty in evolution:
    Restructuring the concept. Annu. Rev. Ecol. Syst. 23: 229–256.


80. Nagashima, H., and 6 others. 2009. Evolution of the turtle body plan
    by the folding and creation of new muscle connections. Science 325:
    193–196.


81. Nilsson, D. E., and S. Pelger. 1994. A pessimistic estimate of the time
    required for an eye to evolve. Proc. R. Soc. Lond. B 256: 59–65.


82. Oakley, T. H., and D. I. Speiser. 2015. How complexity originates: The
    evolution of animal eyes. Annu. Rev. Ecol. Evol. Syst. 46: 237–260.


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


84. Orr, H. A., and J. Coyne. 1992. The genetics of adaptation: A
    reassessment. Am. Nat. 140: 725–742.


85. Osorio, D. 1994. Eye evolution: Darwin’s shudder stilled. Trends Ecol.
    Evol. 9: 241–242.


86. Pagel, M., C. Venditti, and A. Meade. 2006. Large punctuational
    contribution of speciation to evolutionary divergence at the
    molecular level. Science 314: 119–121.


87. Pavlicev, M., and G. P. Wagner. 2012. A model of developmental
    evolution: Selection, pleiotropy and compensation. Trends Ecol. Evol.
    27: 316–322.


88. Ralph, P. L., and G. Coop. 2015. The role of standing variation in
    geographic convergent adaptation. Am. Nat. 186: S5–S23.


89. Ravigné, V., U. Dieckmann, and I. Olivieri. 2009. Live where you
    thrive: Joint evolution of habitat choice and local adaptation
    facilitates specialization and promotes diversity. Am. Nat. 174: E141–
    E169.


90. Rensch, B. 1959. Evolution above the Species Level. Columbia
    University Press, New York.


91. Romer, A. S. 1966. Vertebrate Paleontology. University of Chicago
    Press, Chicago.


92. Rowe, T. B., T. E. Macrini, and Z.-X. Luo. 2011. Fossil evidence on
    origin of the mammalian brain. Science 332: 955–957.


93. Ruse, M. 1996. Monad to Man: The Concept of Progress in Evolutionary
    Biology. Harvard University Press, Cambridge, MA.


94. Salvini-Plawen, L. V., and E. Mayr. 1977. On the evolution of
    photoreceptors and eyes. Evol. Biol. 10: 207–263.


95. Saupe, E. E., and 6 others. 2014. Macroevolutionary consequences of
    profound climate change on niche evolution in marine molluscs over
    the past three million years. Proc. R. Soc. B 281 (1795), art. 20141995.


96. Shubin, N., C. Tabin, and S. Carroll. 2009. Deep homology and the
    origins of evolutionary novelty. Nature 457: 818–823.


97. Sidor, C. A. 2001. Simplification as a trend in synapsid cranial
    evolution. Evolution 55: 1419–1442.
    98. Sidor, C. A., and J. A. Hopson. 1998. Ghost lineages and
    “mammalness”: Assessing the temporal pattern of character
    acquisition in the Synapsida. Paleobiology 24: 254–273.
    99. Simpson, G. G. 1944. Tempo and Mode in Evolution. Columbia
    University Press, New York.


98. Simpson, G. G. 1953. The Major Features of Evolution. Columbia
    University Press, New York.


99. Simpson, G. G. 1964. This View of Life: The World of an Evolutionist.
    Harcourt, Brace and World, New York.


100. Stanley, S. M. 1979. Macroevolution: Pattern and Process. W. H.
     Freeman, San Francisco.


101. Stanley, S. M., and X. Yang. 1987. Approximate evolutionary stasis
     for bivalve morphology over millions of years: A multivariate,
     multilineage study. Paleobiology 13: 113–139.


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


103. Stern, D. L., and V. Orgogozo. 2009. Is genetic evolution predictable?
     Science 323: 746–751.


104. Strotz, L. C., and A. P. Allen. 2013. Assessing the role of cladogenesis
     in macroevolution by integrating fossil and molecular evidence. Proc.
     Natl. Acad. Sci. USA 110: 2104–2107.


105. Thewissen, J. G. M., L. N. Cooper, M. T. Clementz, S. Bajpal, and B.
     N. Tiwari. 2007. Whales originated from aquatic artiodactyls in the
     Eocene epoch of India. Nature 450: 1190–1194.


106. Uyeda, J. C., T. F. Hansen, S. J. Arnold, and J. Pienaar. 2011. The
     million-year wait for macroevolutionary bursts. Proc. Nat. Acad. Sci.
     USA 108: 15908–15913.


107. Van Valen, L. 1982. Integration of species: Stasis and biogeography.
     Evol. Theory 6: 99–112.


108. Vargas, A. O., and G. P. Wagner. 2009. Frame-shifts of digit identity
     in bird evolution and Cyclopamine-treated wings. Evol. Devel.
     11:163–169.


109. Wagner, G. P. 1989. The biological homology concept. Annu. Rev. Ecol.
     Syst. 20: 51–69.


110. Wagner, G. P. 2015. Homology, Genes, and Evolutionary Innovation.
     Princeton University Press, Princeton, N. J.


111. Wake, D. B. 1982. Functional and developmental constraints and
     opportunities in the evolution of feeding systems in urodeles. In
     D. Mossakowski and G. Roth (eds.), Environmental Adaptation and
     Evolution, pp. 51–66. G. Fischer, Stuttgart.


112. Wang, Z., R. L. Young, X. H.-L. Xue, and G. P. Wagner. 2011.
     Transcriptomic analysis of avian digits reveals conserved and derived
     digit identities in birds. Nature 477: 583–586.


113. Wiens, J. J., and C. H. Graham. 2005. Niche conservatism: Integrating
     evolution, ecology, and conservation biology. Annu. Rev. Ecol. Evol.
     Syst. 36: 519–539.


114. Wilson, E. O. 1975. Sociobiology: The New Synthesis. Harvard
     University Press, Cambridge, MA.


115. Zufall, R. A., and M. D. Rausher. 2004. Genetic changes associated
     with floral adaptation restrict future evolutionary potential. Nature
     428: 847–850.

CHAPTER 21

1. Benton, M. J., and P. C. J. Donoghue. 2007. Paleontological evidence
   to date the tree of life. Mol. Biol. Evol. 24: 26–53.


2. Berbudi, A., J. Ajendra, A. P. F. Wardani, A. Hoerauf, and M. P.
   Hübner. 2016. Parasitic helminths and their beneficial impact on type
   1 and type 2 diabetes. Diabetes Metab. Res. Rev. 32: 238–250.


3. Blumler, M. A. 2015. Agriculturalism. In M. P. Muehlenbein (ed.),
   Basics in Human Evolution, pp. 349–365. Academic Press, Amsterdam.


4. Boyd, R., and P. J. Richerson. 1985. Culture and the Evolutionary
   Process. University of Chicago Press, Chicago.


5. Briggs, A. W., and 17 others. 2009. Targeted retrieval and analysis of
   five Neandertal mtDNA genomes. Science 325: 318–321.

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