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LITERATURE CITED

  • Ackermann, R. R., and J. M. Cheverud. 2002. Discerning evolutionary processes in patterns of tamarin (genus Saguinus) craniofacial variation. Am. J. Phys. Anthropol. 117:260271.
  • Ackermann, R. R., and J. M. Cheverud. 2004. Detecting genetic drift versus selection in human evolution. Proc. Natl. Acad. Sci. USA. 101:1794617951.
  • Adams, D. C., F. J. Rohlf, and D. Slice, E. 2004. Geometric morphometrics: ten years of progress following the ‘revolution’. Ital. J. Zool. 71:516.
  • Alroy, J. 2002. Stratigraphy in phylogeny reconstruction–reply to Smith (2000). J. Paleont. 76:587589.
  • 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.
  • Arnold, S. J., and P. C. Phillips. 1999. Hierarchical comparison of genetic variance-covariance matrices. II. Coastal-inland divergence in the garter snake, Thamnophis elegans. Evolution 53:15161527.
  • Bader, R. S. 1955. Variability and evolutionary rate in the oreodonts. Evolution 9:119140.
  • Badyaev, A. V., and K. R. Foresman. 2000. Extreme environmental change and evolution: stress-induced morphological variation is strongly concordant with patterns of evolutionary divergence in shrew mandibles. Proc. R. Soc. Lond. B. 267:371377.
  • Badyaev, A. V., and G. E. Hill. 2000. The evolution of sexual dimorphism in the house finch. I. Population divergence in morphological covariance structure. Evolution 54:17841794.
  • Barton, N. H., and M. Turelli. 1989. Evolutionary quantitative genetics: how little do we know? Annu. Rev. Genet. 23:337370.
  • Bégin, M., and D. A. Roff. 2003. The constancy of the G matrix through species divergence and the effects of quantitative genetic constraints on phenotypic evolution: a case study in crickets. Evolution 57:11071120.
  • Bégin, M., and D. A. Roff. 2004. From micro- to macroevolution through quantitative genetic variation: positive evidence from field crickets. Evolution 58:22872304.
  • Bell, M. A., M. S. Sadagursky, and J. V. Baumgartner. 1987. Utility of lacustrine deposits for the study of variation within fossil samples. Palaios 2:455466.
  • Benson, R. H. 1972. The Bradleya problem, with descriptions of two new psychrospheric ostracode genera, Agrenocythere and Poseidonamicus (Ostracoda: Crustacea). Smithson. Contrib. Paleobiol. 12:1138.
  • Benson, R. H. 1975. Morphologic stability in Ostracoda. Am. Paleontol. Bull. 65:1345.
  • Berggren, W. A., F. J. Hilgen, C. G. Langereis, D. V. Kent, J. D. Obradovich, I. Raffi, M. E. Raymo, and N. J. Shackleton. 1995a. Late Neogene chronology: new perspectives in high-resolution stratigraphy. GSA Bull. 107:12721287.
  • Berggren, W. A., D. V. Kent, C. C. I. Swisher, and M.-P. Aubrey. 1995b. A revised Cenozoic geochronology and chronostratigraphy. Pp. 129212 in W. A.Berggren, D. V.Kent, M.-P.Aubrey, and J.Hardenbol, eds. Geochronology, Time Scales and Global Stratigraphic Correlation. Society for Sedimentary Geology, Tulsa , OK .
  • Blows, M. W., and M. Higgie. 2003. Genetic constraints on the evolution of mate recognition under natural selection. Am. Nat. 161:240253.
  • Bürger, R. 1986. Constraints for the evolution of functionally coupled characters: a nonlinear analysis of a phenotypic model. Evolution 40:182193.
  • Bush, A., M. G. Powell, W. S. Arnold, T. M. Bert, and G. M. Daley. 2002. Time-averaging, evolution and morphological variation. Paleobiology 28:925.
  • Charlesworth, B., R. Lande, and M. Slatkin. 1982. A neo-Darwinian commentary on macroevolution. Evolution 36:474498.
  • Cheverud, J. M. 1984. Quantitative genetics and developmental constraints on evolution by selection. J. Theor. Biol 110:155171.
  • Cheverud, J. M.. 1988. A comparison of genetic and phenotypic correlations. Evolution 42:958968.
  • Cohen, A. C., and J. G. Morin. 1990. Patterns of reproduction in ostracodes: a review. J. Crust. Biol. 10:184211.
  • Coles, G., M. Ayress, and R. C. Whatley. 1990. A comparison of North Atlantic and Pacfic Cainozoic deep-sea Ostracoda. Pp. 287305 in R.Whatley and C.Maybury, eds. Ostracoda and global events. Chapman and Hall, London .
  • Conner, J., and S. Via. 1992. Natural selection on body size in Tribolium: possible genetic constraints on adaptive evolution. Heredity 69:7383.
  • Cronin, T. M., D. M. DeMartino, G. S. Dwyer, and J. Rodriguez-Lazaro. 1999. Deep-sea ostracode species diversity: response to late quaternary climate change. Mar. Micropaleontol. 37:231249.
  • Cronin, T. M., M. E. Raymo, and K. P. Kyle. 1996. Pliocene (3.2–2.4 Ma) ostracode faunal cycles and deep ocean circulation, North Atlantic Ocean. Geology 24:695698.
  • Cunningham, C. W., K. E. Omland, and T. H. Oakley. 1998. Reconstructing ancestral character states: a critical reappraisal. Trends Ecol. Evol. 13:361366.
  • Dryden, I. L., and K. V. Mardia. 1998. Statistical shape analysis. John Wiley & Sons, Chichester , U. K .
  • Eldredge, N., and S. J. Gould. 1972. Punctuated equilibria: an alternative to phyletic gradualism in T. J. M.Schopf, ed. Models in paleobiology. Freeman, Cooper & Company, San Francisco, CA .
  • Erwin, D. H. 2000. Macroevolution is more than repeated rounds of microevolution. Evol. Dev. 2:7884.
  • Falconer, D. S., and T. F. C. Mackay. 1996. Introduction to quantitative genetics. Addison Wesley Longman Limited, Essex , U.K .
  • Felsenstein, J. 1985. Phylogenies and the comparative method. Am. Nat. 125:115.
  • Fisher, D. C., M. Foote, D. L. Fox, and L. R. Leighton. 2002. Stratigraphy in phylogeny reconstruction—comment on Smith (2000). J. Paleont. 76:585586.
  • Flury, B. 1988. Common principal components and related multivariate models. Wiley, New York .
  • Gingerich, P. D. 1983. Rates of evolution: effects of time and temporal scaling. Science 222:159161.
  • Gould, S. J. 2002. The structure of evolutionary theory. Belknap Press, Cambridge , MA .
  • Gould, S. J., and N. Eldredge. 1977. Punctuated equilibria: the tempo and mode of evolution reconsidered. Paleobiology 3:115151.
  • Grant, P. R., and B. R. Grant. 1995. Predicting microevolutionary responses to directional selection on heritable variation. Evolution 49:241251.
  • Guthrie, R. D. 1965. Variability in characters undergoing rapid evolution, an analysis of Microtus molars. Evolution 19:214233.
  • Hansen, T. F., and E. P. Martins. 1996. Translating between microevolutionary process and macroevolutionary patterns: the correlation structure of interspecific data. Evolution 50:14041417.
  • Hansen, T. F., C. Pélabon, W. S. Armbruster, and M. L. Carlson. 2003. Evolvability and genetic constraint in Dalechampia blossoms: components of variance and measures of evolvability. J. Evol. Biol. 16:754766.
  • Houle, D. 1998. How should we explain variation in the genetic variance of traits? Genetica 102/103:241253.
  • Hunt, G. 2004a. Phenotypic variance inflation in fossil samples: an empirical assessment. Paleobiology 30:487506.
  • Hunt, G.. 2004b. Phenotypic variation in fossil samples: modeling the consequences of time-averaging. Paleobiology 30:426443.
  • Hunt, G.. 2006. Fitting and comparing models of phyletic evolution: random walks and beyond. Paleobiology 32:578601.
  • Hunt, G.. 2007. Morphology, ontogeny, and phylogenetics of the genus Poseidonamicus (Ostracoda: Thaerocytherinae). J. Paleont. 81. In press .
  • Irizuki, T. 1993. Morphology and taxonomy of some Japanese hemicytherine Ostracoda with particular reference to ontogenetic changes of marginal pores. Trans. Proc. Palaeont. Soc. Japan, N.S. 170:186211.
  • Kelley, P. H. 1983. The role of within-species differentiation in macroevolution of Chesapeake group bivalves. Paleobiology 9:261268.
  • Keyser, D. 1995. Structural elements on the surface of ostracod shells. Pp. 510 in J.Riha, ed. Ostracoda and Biostratigraphy. Balkema, Rotterdam.
  • Kidwell, S. M., and A. K. Behrensmeyer, eds. 1993. Summary: estimates of time-averaging. Pp. 301302 Taphonomic approaches to time resolution in fossil assemblages. The Paleontological Society , Knoxville , TN .
  • Kingsolver, J. G., and D. W. Pfennig. 2004. Individual-level selection as a cause of Cope's Rule of phyletic size increase. Evolution 58:16081612.
  • Kirkpatrick, M. 1982. Quantum evolution and punctuated equilibria in continuous genetic characters. Am. Nat. 119:833848.
  • Kluge, A. G., and W. C. Kerfoot. 1973. The predictability and regularity of character divergence. Am. Nat. 107:426442.
  • Knuth, D. E. 1969. The art of computer programming. Addison Wesley, Reading , MA .
  • LaBarbera, M. 1986. The evolution and ecology of body size. Pp. 6998 in D. M.Raup and D.Jablonski, eds. Patterns and processes in the history of life. Springer-Verlag, Heidelberg .
  • 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.
  • Leroi, A. M. 2000. The scale independence of evolution. Evol. Dev. 2:6777.
  • Liebau, A. 1971. Homologous sculpture patterns in trachyleberididae and related ostracodes. Nolit Publishing House, Belgrade .
  • Lofsvold, D. 1988. Quantitative genetics of morphological differentiation in Peromyscus. II. Analysis of selection and drift. Evolution 42:5467.
  • Lynch, M. 1990. The rate of morphological evolution in mammals from the standpoint of the neutral expectation. Am. Nat. 136:727741.
  • Maddocks, R. F. 1992. Ostracoda. Pp. 415441 in F. W.Harrison and A. G.Humes, eds. Crustacea. Wiley-Liss, Inc., New York .
  • Marriog, G., and J. M. Cheverud. 2001. A comparison of phenotypic variation and covariation patterns and the role of phylogeny, ecology, and ontogeny during cranial evolution of New World monkeys. Evolution 55:25762600.
  • Marriog, G., and J. M. Cheverud. 2005. Size as a line of least resistance: diet and adaptive morphological radiation in New World monkeys. Evolution 59:11281142.
  • Marshall, C. R. 1990. Confidence intervals on stratigraphic ranges. Paleobiology 16:110.
  • Merilä, J., and M. Björklund. 1999. Population divergence and morphometric integration in the green-finch (Carduelis chloris)—evolution against the trajectory of least resistance? J. Evol. Biol. 12:103112.
  • Mezey, J. G., and D. Houle. 2005. The dimensionality of genetic variation for wing shape in Drosophila melanogaster. Evolution 59:10271038.
  • Mitchell-Olds, T. 1996. Pleiotropy causes long-term constraints on life-history evolution in Brassica rapa. Evolution 50:18491858.
  • Okada, Y. 1981. Development of cell arrangement in ostracod carapaces. Paleobiology 7:276280.
  • Okada, Y.. 1982a. Structure and cuticle formation of the reticulated carapace of the ostracode Bicornucythere bisanensis. Lethaia 15:85101.
  • Okada, Y.. 1982b. Ultrastructure and pattern of the carapace of Bicornucythere bisanensis (Ostracoda, Crustacea). Pp. 229267 in T.Hanai, ed. Studies on Japanese Ostracoda. Univ. Tokyo Press, Tokyo .
  • Paradis, E., J. Claude, and K. Strimmer. 2004. APE: analyses of phylogenetics and evolution in R language. Bioinformatics 20:289–2–90.
  • Price, T., and T. Langen. 1992. Evolution of correlated characters. Trends Ecol. Evol. 7:307310.
  • Price, T., M. Turelli, and M. Slatkin. 1993. Peak shifts produced by correlated response to selection. Evolution 47:280290.
  • R Development Core Team. 2005. R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna , Austria .
  • Renaud, S., J.-C. Auffray, and J. Michaux. 2006. Conserved phenotypic variation patterns, evolution along lines of least resistance, and departure due to selection in fossil rodents. Evolution 60:17011717.
  • Roff, D. A. 1995. The estimation of genetic correlations from phenotypic correlations: a test of Cheverud's conjecture. Heredity 74:481491.
  • Roff, D. A.. 1997. Evolutionary quantitative genetics. Chapman and Hall, New York .
  • Roff, D. A., T. A. Mousseau, and D. J. Howard. 1999. Variation in genetic architecture of calling song among populations of Allonemobius socius, A. fasciatus, and a hybrid population: drift or selection? Evolution 53:216224.
  • Rohlf, F. J., A. J. Gilmartin, and G. Hart. 1983. The Kluge-Kerfoot phenomenon—a statistical artifact. Evolution 37:180202.
  • Rohlf, F. J., and D. E. Slice. 1990. Extensions of the Procrustes method for the optimal superimposition of landmarks. Syst. Zool. 29:4059.
  • Schluter, D. 1996. Adaptive radiation along genetic lines of least resistance. Evolution 50:17661774.
  • Schluter, D.. 2000. The ecology of adaptive radiation. Oxford Univ. Press, Oxford, U.K .
  • Simpson, G. G. 1953. The major features of evolution. Columbia Univ. Press, New York .
  • Smith, A. 1994. Systematics and the fossil record. Blackwell Scientific, Oxford, U.K .
  • Smith, A. B. 2000. Stratigraphy in phylogeny reconstruction. J. Paleont. 74:763766.
  • Smith, A. B. 2002. Stratigraphy in phylogeny reconstruction–response. J. Paleont. 76:594595.
  • Sokal, R. R. 1976. The Kluge-Kerfoot phenomenon reexamined. Am. Nat. 110:10771091.
  • Solow, A. R. 2003. Estimation of stratigraphic ranges when fossil finds are not randomly distributed. Paleobiology 29:181185.
  • Stanley, S. M. 1979. Macroevolution. The Johns Hopkins Univ. Press, Baltimore , MD .
  • Steppan, S. J. 1997. Phylogenetic analysis of phenotypic covariance structure. II. Reconstructing matrix evolution. Evolution 51:587594.
  • Steppan, S. J., P. C. Phillips, and D. Houle. 2002. Comparative quantitative genetics: evolution of the G matrix. Trends Ecol. Evol. 17:320327.
  • Strauss, D., and P. Sadler. 1989. Classical confidence intervals and Bayesian probability estimates for ends of local taxon ranges. Math. Geol. 21:411427.
  • Venable, D. L., and A. Búrquez. 1990. Quantitative genetics of size, shape, life-history, and fruit characteristics of the seed heteromorphic composite Heterosperma pinnatum. II. Correlation structure. Evolution 44:17481763.
  • Via, S., and R. Lande. 1985. Genotype-environment interaction and the evolution of phenotypic plasticity. Evolution 39:505522.
  • Via, S., and A. J. Shaw. 1996. Short-term evolution in the size and shape of pea aphids. Evolution 50:163173.
  • Wagner, G. P. 1988. The influence of variation and of developmental constraints on the rate of multivariate phenotypic evolution. J. Evol. Biol. 1:4566.
  • Wagner, P. J. 2002. Testing phylogenetic hypotheses with stratigraphy and morphology—a comment on Smith (2000). J. Paleont. 76:590593.
  • Walker, J. A. 2000. Ability of geometric morphometric methods to estimate a known covariance matrix. Syst. Biol. 49:686696.
  • Webster, M., and N. C. Hughes. 1999. Compaction-related deformation in Cambrian olenelloid trilobites and its implications for fossil morphometry. J. Paleont. 73:355371.
  • Willis, J. H., J. A. Coyne, and M. Kirkpatrick. 1991. Can one predict the evolution of quantitative characters without genetics? Evolution 45:441444.
  • Zeng, Z.-B. 1988. Long-term correlated response, interpopulation covariation, and interspecific allometry. Evolution 42:363374.