Synapomorphies

In the reconstruction of cladogenesis, all the homologous traits are not similarly useful. Systematic biologists have intuitively known these facts and have respected them for ages. However, it wasn’t until 1950 that Willi Hennig in his book “Grundzüge einer Theorie der phylogenetischen Systematik” explicitly stated the requirements that cladogenesis be reconstructed exclusively on the basis of a single category of homologous traits – termed synapomorphies. A trait is understood to refer to any structure, function or behavior that occurs in various species in at least two different forms. From an evolutionary standpoint, the individual forms of a certain traits are not equivalent; one of them, the plesiomorphic form, for short plesiomorphy, is evolutionarily older in the particular phylogenetic line and the other forms were formed secondarily all at once or in a certain order as a consequence of anagenetic changes in the original form of the trait. These evolutionarily derived forms are termed apomorphic forms, abbreviated apomorphies. If several species (or higher taxa) within the studied phylogenetic line inherited certain apomorphies from their common ancestor, this apomorphy is termed a synapomorphy; in contrast an autapomorphy is an apomorphy that no other species shares with the given species. The distribution of synapomorphies within the given set of studied species is the best guide for reconstruction of cladogenesis. Even if two species share a large number of plesiomorphies, they need not be closely related in the particular line (Fig. XXIII.6). This could be only a consequence of the fact that the particular species did not change much during evolution, in contrast to other species, for example because it lives in the same environment as the common ancestor of the given line. In contrast, if two species share a large number of synapomorphies, this is most probably a result of the fact that they have a common ancestor that is simultaneously not the common ancestor of any of other studied species.

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The classical Darwinian theory of evolution can explain the evolution of adaptive traits only in asexual organisms. The frozen plasticity theory is much more general: It can also explain the origin and evolution of adaptive traits in both asexual and sexual organisms Read more