Developmental drive is characterized by positive biases toward other trajectories or phenotypes. Developmental drive is a type of developmental reprogramming of ontogenetic trajectory within a lineage in favor of certain changes. Developmental drive therefore has an influence on the direction of evolutionary change.
History
Over the last three decades, there has been rapid growth of a new approach to comprehending the evolution of organisms and the effect that development has on the direction of evolution. Evolutionary developmental biology or "evo-devo", is focused on the developmental genetic machinery that lies behind embryological phenotypes, which were all that could be studied in the past, stemming from the work of Von Baer and Ernst Haeckel.
Present day evo-devo erupted out of the discovery of the homeobox in the early 1980s. Proposals that biases (positive and negative) can potentially lead to the direction of evolutionary change being determined by developmental dynamics as well as by population dynamics are in contrast with the historical thrust of Darwinism and Neo-Darwinism, that the direction of change is determined exclusively by selection. Development has long been the missing link of evolutionary theory.
Developmental Reprogramming
Evolution is often portrayed as an interplay between mutation and selection, with the former providing a supply of variation, and the latter acting as fittness-based. But this picture has a major flaw, because mutation provides new genes, whereas selection acts not on genes but on phenotypes. The missing link is how we get from altered gene to new phenotype. This is the process of developmental reprogramming that is, a mutationally driven change in something that is itself a state of change. If a particular ontogeny is represented by a trajectory through multi-dimensional phenotypic space, then after reprogramming we have a different trajectory.
Developmental reprogramming is a mutation-based, and thus inherited change in the overall genetic/epigenetic/ecological program through which we get from genome to phenome. Reprogramming becomes controversial if it is proposed that it can be systematically biased, in that mutation more readily produces changes in certain directions than others, including the extreme case of some directions being prohibited.
Developmental Bias: Constraint vs. Drive
A bias in developmental reprogramming is reffered to as a mutation bias or a developmental bias (evolution biased by development). The term developmental bias is used for both positive and negative effects. Developmental is a term used solely for negative biases, whereas positive biases have recently been termed developmental drive. Evidence for a directional evolutionary role for development bias is limited and difficult to aquire.
Developmental Bias: Absolute vs. Relative
If a developmental system is incapable of producing a certain variant ontogeny, it is an absolute constraint. If the particular ontogeny x is difficult to produce, in the sense that a small proportion of mutations lead in that direction while many lead elsewhere, it is a relative constraint. The same distinction can be applied to developmental drive (positive biases).
Developmental Drive in the Real World
To show the involvement of developmental drive, it is necessary to compare existent and nonexistent morphologies. This is a difficult step and causes a problem because there must be a decision made about which nonexistent morphologies to compare with the existent. However, there is a broad scope for uninformative comparisons to be made so it must be done with careful consideration.
Developmental Drive: Centipede Segments
There exists at least 3000 species of centipede with trunk segment numbers that range from 15 to 191. There are two orders of centipedes in which developmental drive is evident.
The order Lithobiomorpha consists of about 1100 species. All have 15 trunk segments at their adult stage. However, these centipedes hatch from the egg with fewer than 15 segments. The segments are added with age through a series of moults through which the hatchling grows towards adulthood. Lithobiomorph centipedes with an even number of trunk segments exist, but only as juveniles. However, given the role of heterochrony in evolution, there have been no shifts of relative timing so that reproductive maturity and a cessation of segment addition have occurred in an even-numbered trunk segment juvenile in at least one of the many lithobiomorph species. It is more plausible that there is a drive towards odd-numbered trunk segments than a constraint of even-numbered trunk segments.
The order Geophilomorpha consists of about 1000 species with variable trunk segment numbers. The overall range of segment number for the order is from 27 to 191. Within this range almost all odd numbers are represented in individuals whereas all even numbers are completely absent. Despite the larger number of segments in geophilomorphs, all are formed during embryonic development. The tiny hatchling has its full adult complement of segments. There are no segments added in any series of moults in any geophilomorph species in postembryonic growth.
All variant centipede ontogenies, from whatever starting point, are driven into odd-segment-number character states. Therefore, there is absolute drive in this direction, and equivalently absolute constraint regarding even numbers of segments.
Developmental Drive: Gastropod Shells
Further Reading
Biologie évolutive du développement