14.9 Ontogeny (Development)
211
simultaneously, and if those that do so first can then prevent their neighbours from
doing so, segregation is assured. A great variety of specific molecular mechanisms
is available for the realization of such processes.
14.9.3
The Epigenetic Landscape
Waddington introduced the term “epigenetics” as the name for the study of “the
causal interactions between genes and their products, which bring the phenotype
into being”, 64 and it is particularly associated with the ontogenic level of pheno-
type; that is, possibly stable and preferably heritable changes in gene expression and
phenotype not requiring changes in the sequence of the four fundamental bases of
DNA (Fig. 15.3) in the genome. Waddington is also credited with introducing the
vivid imagery of the “epigenetic landscape” (Fig. 14.5); this represents the process of
successive decision-making during cellular development, most decisions implying
different ultimate outcomes of cell differentiation. 65 More recently, attempts have
been made to describe the epigenetic landscape in more mathematical terms. 66
Development of course continues throughout the lifetime of the organism, influ-
enced by its environment and its response to that environment. It is enabled through
the mechanisms of DNA methylation (Sect. 14.8.4) and chromatin structural modu-
lation; to some degree at least the former can be inherited, 67 engendering the notion
of “soft inheritance”. This has in turn led to a revival of Lamarck’s ideas about the
inheritance of acquired characters. 68
14.9.4
rr and upper KK Selection
In an ecological void (i.e., a new environment empty of life), at least of the types we
are considering, or a highly fluctuating environment, growth is limited only by the
coefficientrr in Eq. (12.5) (rr-selection). This circumstance favours progenesis—rapid
proliferation at the cost of sophistication; and slight acceleration of development (cf.
Table 14.6) leads to a disproportionately greater increase in fecundity.
In an older, more complex ecosystem (with a high density of organisms and
intense competition for resources), or a very stable environment, growth is limited
by its carrying capacity—the coefficientupper KK in Eq. (12.5) (upper KK-selection). This circum-
stance favours neoteny. Development is stretched out to enable the development of
more sophisticated forms. There is no pressure to be fecund; the young offspring have
64 Goldberg et al. (2007).
65 See Gilbert (1991) for a critique and Buss and Blackstone (1991) for an experimental exploration.
66 Bhattacharya et al. (2011).
67 Richards (2006).
68 Burckhardt (2013), Skinner (2015), Penny (2015).