There is little doubt that the vertebrate brain is the most
complex structure we know. As with any complex structure, there is
the immediate question about its origins. How could such a complex
design develop from the simplest multicellular animals? This
problem has pervaded the study of evolutionary biology since its
beginnings. Although Darwin (1859, 1871) proposed an impecable
mechanism (natural selection) for the gradual transformation of
species including human origins, even he sometimes expressed
certain doubts about the origin of highly complex structures. This
issue has been highly debated both within science and outside
it.
The authors follow an approach that has been termed
"developmental evolutionary genetics," which seeks to establish a
correspondence between embryological processes and the phylogenetic
history of an organism. Modern understanding of these hypotheses
acknowledges that in fact, early embryos are readily
distinguishable among them, and that human embryos are human
embryos during all development; they do not pass from a jellyfish
stage to a fish stage and so on (Garstang 1922; Gould 1977;
Richardson et al. 1997). However, it is also recognized that
embryos pass through successive stages in which they acquire the
characters proper to each of the nested phylogenetic categories to
which they belong. Thus, there is a general concordance between
embryonic stages and the phylogenetic history.
General
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