This term, usually applied to animals, envisages a "blueprint" encompassing aspects such as symmetry, segmentation and limb disposition. Body plans have historically been considered to have evolved in a flash in the Cambrian explosion, but a more nuanced understanding of animal evolution suggests the gradual development of body plans throughout the early Palaeozoic.
Many body plans are often said to have originated in the Cambrian period, in the "Cambrian explosion", but complete body plans of many phyla, associated with the appearance of their respective crown group, did not emerge until much later in the Palaeozoic (or beyond).
Developmental biologists seek to understand how genes control the development of structural features through a cascade of processes in which key genes produce morphogens, chemicals that diffuse through the body to produce a gradient that acts as a position indicator for cells, turning on other genes, some of which in turn produce other morphogens. A key discovery was the existence of groups of homeobox genes, which are responsible for laying down the basic body plan in animals. The homeobox genes are remarkably conserved between species as diverse as the fruit fly and man, the basic segmented pattern of the worm or fruit fly being the origin of the segmented spine in man. The field of animal evolutionary developmental biology ('Evo Devo'), which studies the genetics of morphology in detail, is rapidly expanding with many of the developmental genetic cascades, particularly in the fruit fly Drosophila, catalogued in considerable detail.
The current range of body plans is far from exhaustive of the possible patterns for life: the Ediacaran biota includes body plans that differ from any found in currently living organisms, even though the overall arrangement of unrelated modern taxa is quite similar.
The vertebrate body plan is one of many: all other phyla are invertebrates.
- Anatomical terms of location
- Arthropod head problem
- Deep homology
- Definition of Phylum based on body plan
- Ediacaran biota
- Morphology (biology)
- Sean B. Carroll
- Supernumerary body part
- Symmetry in biology
- Valentine, James W (2004-06-18). On the Origin of Phyla. ISBN 9780226845487.
- Erwin, D. H. (1999). "The Origin of Bodyplans". Integrative and Comparative Biology 39 (3): 617–629. doi:10.1093/icb/39.3.617.
- Budd, G. E.; Jensen, S. (2000). "A critical reappraisal of the fossil record of the bilaterian phyla". Biological Reviews of the Cambridge Philosophical Society 75 (2): 253–95. doi:10.1111/j.1469-185X.1999.tb00046.x. PMID 10881389.
- Hall, Brian K. (28 March 2005). "Evo Devo is the New Buzzword...". Retrieved 13 September 2014.
- Arthur, Wallace. (1997). Animal Body Plans. Cambridge England: Cambridge University Press. ISBN 0-521-77928-6.
- e.g. Antcliffe, J. B.; Brasier, M. D. (2007). "Charnia and sea pens are poles apart". Journal of the Geological Society 164: 49. doi:10.1144/0016-76492006-080.