Book contents
- Frontmatter
- Contents
- Preface to the First Edition
- Preface to the Second Edition
- 1 Macroevolution: The Problem and the Field
- 2 Genealogy, Systematics, and Macroevolution
- 3 Genetics, Speciation, and Transspecific Evolution
- 4 Development and Evolution
- 5 The Constructional and Functional Aspects of Form
- 6 Patterns of Morphological Change in Fossil Lineages
- 7 Patterns of Diversity, Origination, and Extinction
- 8 A Cambrian Explosion?
- 9 Coda: Ten Theses
- Glossary of Macroevolution
- References
- Author Index
- Subject Index
4 - Development and Evolution
Published online by Cambridge University Press: 14 January 2010
- Frontmatter
- Contents
- Preface to the First Edition
- Preface to the Second Edition
- 1 Macroevolution: The Problem and the Field
- 2 Genealogy, Systematics, and Macroevolution
- 3 Genetics, Speciation, and Transspecific Evolution
- 4 Development and Evolution
- 5 The Constructional and Functional Aspects of Form
- 6 Patterns of Morphological Change in Fossil Lineages
- 7 Patterns of Diversity, Origination, and Extinction
- 8 A Cambrian Explosion?
- 9 Coda: Ten Theses
- Glossary of Macroevolution
- References
- Author Index
- Subject Index
Summary
“Fashion me, therefore, one form of a many-colored and many-headed beast. There is a ring of heads both of tame and wild beasts, and it can change and produce them out of itself at will.”
“That is clever molder's work,” he said.
– The Republic of PlatoConstraint and Saltation
Developmental biology has long been a focus for evolutionary theory (Bonner 1982; de Beer 1958; Garstang 1922; Goldschmidt 1938; Gould 1977; Haeckel 1866; Raff 1996; Raff and Kaufman 1983; Waddington 1940). Evolution can be seen as a change in developmental programs that elaborate the phenotype. The effects of genes and the range of genetic variation would best be investigated on a mechanistic basis, yet until the 1990s, we had only a very small window on this enormously important developmental landscape.
Once we can understand the nature of development and how it constructs the phenotype, we confront anew some of the age-old questions of evolutionary biology. Development is legendary for its organization, sometimes appearing to be remarkably automatic and even self-organizing. The strong integration of the developmental process might not easily be breached by a mutant, which would disrupt fundamental and tightly integrated cellular and molecular processes. This would suggest a force for conservatism in evolution. On the other hand, the tremendous organization of developmental processes suggest to many that simple genetic changes might beget enormous saltatory evolutionary change.
The Janus-headed coin of development is illustrated well by the evolutionary change of the tail in ascidian tadpole larva, which has been lost in evolution several times independently (Jeffery 1997).
- Type
- Chapter
- Information
- Genetics, Paleontology, and Macroevolution , pp. 157 - 226Publisher: Cambridge University PressPrint publication year: 2001