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LITERATURE CITED

  • Agrawal, A. F., E. D. Brodie III, and L. H. Rieseberg. 2001. Possible consequences of genes of major effect: transient changes in the G-matrix. Genetica 112–113:3343.
  • Arnold, S. J. 1988. Quantitative genetics and selection in natural populations: microevolution of vertebral numbers in the garter snake Thamnophis elegans. Pp. 619636 in B. S.Weir, E. J.Eisen, M. M.Goodman, and G.Namkoong, eds. Proceedings of the Second International Conference on Quantitative Genetics. Sinauer Associates, Sunderland , MA .
  • Arnold, S. J. 1992. Constraints on phenotypic evolution. Am. Nat. 140:S85S107.
  • Arnold, S. J., M. E. Pfrender, and A. G. Jones. 2001. The adaptive landscape as a conceptual bridge between micro- and macroevolution. Genetica 112/113:932.
  • Barton, N. H., and M. Turelli. 1989. Evolutionary quantitative genetics—how little do we know? Annu. Rev. Genet. 23:337370.
  • Brodie, E. D., III. 1992. Correlational selection for color pattern and antipredator behavior in the garter snake Thamnophis ordinoides. Evolution 46:12841298.
  • Bürger, R. 2000. The mathematical theory of selection, recombination, and mutation. Wiley, Chichester , U.K.
  • Bürger, R., and R. Lande. 1994. On the distribution of the mean and variance of a quantitative trait under mutation-selection-drift balance. Genetics 138:901912.
  • Bürger, R., G. P. Wagner, and F. Stettinger. 1989. How much heritable variation can be maintained in finite populations by mutation-selection balance. Evolution 43:17481766.
  • Camara, M., and M. Pigliucci. 1999. Mutational contribution to genetic variance-covariance matrices: an experimental approach using induced mutations in Arabidopsis thaliana. Evolution 53:16921703.
  • Cheverud, J. M. 1984. Quantitative genetics and developmental constraints on evolution by selection. J. Theor. Biol. 110:155171.
  • Cheverud, J. M. 1996. Developmental integration and the evolution of pleiotropy. Am. Zool. 36:4450.
  • Crow, J. F., and M. Kimura. 1964. The theory of genetic loads. Pp. 495505 in S. J.Geerts, ed. Proceedings of the XI international congress of genetics. Pergamon, Oxford , U.K.
  • Dawkins, R. 1989. The evolution of evolvability. Pp. 201220 in C.Langton, ed. Artificial life. Addison-Wesley, Santa Fe , NM .
  • Estes, S. R., B. C. Ajie, M. Lynch, and P. C. Phillips. 2005. Spontaneous mutational correlations for life history, morphological and behavioral characters in Caenorhabditis elegans. Genetics 170:645653.
  • Fernández, J., and C. López-Fanjul. 1996. Spontaneous mutational variances and covariances for fitness-related traits in Drosophila melanogaster. Genetics 143:829837.
  • Flury, B. 1988. Common principal components and related multivariate models. John Wiley and Sons, New York , NY .
  • Hansen, T. F. 2003. Is modularity necessary for evolvability? Remarks on the relationship between pleiotropy and evolvability. Biosystems 69:8394.
  • Hansen, T. F., and D. Houle. 2004. Evolvability, stabilizing selection, and the problem of stasis. Pp. 130150 in M.Pigliucci and K.Preston, eds. Phenotypic integration. Oxford Univ. Press, Oxford , UK .
  • Hermisson, J., T. F. Hansen, and G. P. Wagner. 2003. Epistasis in polygenic traits and the evolution of genetic architecture. Am. Nat. 161:708734.
  • Houle, D., K. A. Hughes, D. K. Hoffmaster, J. Ihara, S. Assimocopoulous, D. Canada, and B. Charlesworth. 1994. The effects of spontaneous mutations on quantitative traits. I. Variances and covariances of life history traits. Genetics 138:773785.
  • Jones, A. G., S. J. Arnold, and R. Bürger. 2003. Stability of the G-matrix in a population experiencing stabilizing selection, pleiotropic mutation, and genetic drift. Evolution 57:17471760.
  • Jones, A. G., S. J. Arnold, and R. Bürger. 2004. Evolution and stability of the G-matrix on a landscape with a moving optimum. Evolution 58:16391654.
  • Keightley, P. D., E. K. Davies, A. D. Peters, and R. G. Shaw. 2000. Properties of ethylmethane sulfonate-induced mutations affecting life history traits in Caenorhabditis elegans and inferences about bivariate distributions of mutation effects. Genetics 156:143154.
  • Kingsolver, J. G., H. E. Hoekstra, J. M. Hoeskstra, D. Berrigan, S. N. Vignieri, C. E. Hill, A. Hoang, P. Gilbert, and P. Beerli, 2001. The strength of phenotypic selection in natural populations. Am. Nat. 157:245261.
  • Kirschner, M., and J. Gerhart. 1998. Evolvability. Proc. Nat. Acad. Sci. U.S.A. 95:84208427.
  • Krall, C. 2005. Effects of pleiotropy on genetic variance and extinction time of small populations. [Ph.D. diss], Department of Mathematics, University of Vienna, Austria .
  • Lande, R. 1979. Quantitative genetic analysis of multivariate evolution, applied to brain: body size allometry. Evolution 33:402416.
  • Lande, R. 1980. The genetic covariance between characters maintained by pleiotropic mutations. Genetics 94:203215.
  • Lande, R., and S. J. Arnold. 1983. The measurement of selection on correlated characters. Evolution 37:12101226.
  • Liberman, U., and M. W. Feldman. 2005. On the evolution of epistasis I: diploids under selection. Theor. Popul. Biol. 67:141160.
  • Lynch, M. 1985. Spontaneous mutation for life history characters in an obligate parthenogen. Evolution 39:804818.
  • Lynch, M., and B. Walsh. 1998. Genetics and analysis of quantitative traits. Sinauer Associates, Sunderland , MA .
  • Lynch, M., M. Pfrender, K. Spitze, N. Lehman, J. Hicks, D. Allen, L. Latta, M. Ottene, F. Bogue, and J. Colbourne. 1999. The quantitative and molecular genetic architecture of a subdivided species. Evolution 53:100110.
  • McDonald, J. F. 1995. Transposable elements—possible catalysts of organismic evolution. Trends Ecol. Evol. 10:123126.
  • Olson, E. C., and R. I. Miller. 1958. Morphological Integration. Univ. Chicago Press, Chicago , IL .
  • Phillips, P. C., and S. J. Arnold, 1989. Visualizing multivariate selection. Evolution 43:12091222.
  • Radman, M., I. Matic, and F. Taddei. 1999. The evolution of evolvability. Ann. N. Y. Acad. Sci. 870:14655.
  • Schlötterer, C., M. Imhof, H. Wang, V. Nolte, and B. Harr. 2006. Low abundance of Escherichia coli microsatellites is associated with an extremely low mutation rate. J. Evol. Biol. 19:16711676.
  • Schluter, D. 1996. Adaptive radiation along genetic lines of least resistance. Evolution 50:17661774.
  • Schwenk, K., and G. P. Wagner. 2004. The relativism of constraints on phenotypic evolution. Pp. 390408 in M.Pigliucci and K.Preston, eds. Phenotypic integration: studying the ecology and evolution of complex phenotypes. Oxford Univ. Press, New York .
  • Turelli, M. 1984. Heritable genetic variation via mutation-selection balance: Lerch's zeta meets the abdominal bristle. Theor. Pop. Biol. 25:138193.
  • Turelli, M. 1985. Effects of pleiotropy on predictions concerning mutation-selection balance for polygenic traits. Genetics 111:165195.
  • Wagner, G. P., and L. Altenberg. 1996. Complex adaptations and evolution of evolvability. Evolution 50:967976.
  • Wratten, N. S., A. P. McGregor, P. J. Shaw, and G. A. Dover. 2006. Evolutionary and functional analysis of the tailless enhancer in Musca domestica and Drosophila melanogaster. Evol. Dev. 8:615.
  • Zhang, X. S., and W. G. Hill. 2002. Joint effects of pleiotropic selection and stabilizing selection on the maintenance of quantitative genetic variation at mutation-selection balance. Genetics 162:459471.