论文信息 - The Evolution of Developmental Interactions: Epistasis, Canalization, and Integration

The Evolution of Developmental Interactions: Epistasis, Canalization, and Integration

Note: This is a book chapter that will have embedded in it a Box explaining the geometry of phenotype landscapes. The text for the Box, which includes Figures 1 and 2, is at the end of the manuscript.

Sean H. Rice | S. Rice

[1] M. Kimura,et al. An introduction to population genetics theory , 1971 .

[2] F. J. Odling-Smee,et al. The evolutionary consequences of niche construction: a theoretical investigation using two‐locus theory , 1996 .

[3] G. Wagner,et al. A POPULATION GENETIC THEORY OF CANALIZATION , 1997, Evolution; international journal of organic evolution.

[4] A. Romer. The vertebrate body , 1971 .

[5] C. Waddington,et al. GENETIC ASSIMILATION OF AN ACQUIRED CHARACTER , 1953 .

[6] C. Pigott. Genetics and the Origin of Species , 1959, Nature.

[7] G. Wagner,et al. Epistasis can facilitate the evolution of reproductive isolation by peak shifts: a two-locus two-allele model. , 1994, Genetics.

[8] S. Rice. THE EVOLUTION OF CANALIZATION AND THE BREAKING OF VON BAER'S LAWS: MODELING THE EVOLUTION OF DEVELOPMENT WITH EPISTASIS , 1998, Evolution; international journal of organic evolution.

[9] A. Hastings,et al. Founder Effect Speciation: A Theoretical Reassessment , 1996, The American Naturalist.

[10] R. A. Fortey,et al. Evolution and Escalation , 1988 .

[11] S. Counce. The Strategy of the Genes , 1958, The Yale Journal of Biology and Medicine.

[12] S. Stearns,et al. FITNESS SENSITIVITY AND THE CANALIZATION OF LIFE‐HISTORY TRAITS , 1994, Evolution; international journal of organic evolution.

[13] S. Rice. The bio-geometry of mollusc shells , 1998, Paleobiology.