Beyond selection

It has been argued that the study of natural selection and quantitative genetics should have a central role in evolutionary thinking and undergraduate teaching in Chile. Extensive operational use of the concept of natural selection may seem consistent with this argument. However, advances of evoluti...

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Autor principal: VARGAS,ALEXANDER O
Lenguaje:English
Publicado: Sociedad de Biología de Chile 2005
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Acceso en línea:http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0716-078X2005000400012
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Sumario:It has been argued that the study of natural selection and quantitative genetics should have a central role in evolutionary thinking and undergraduate teaching in Chile. Extensive operational use of the concept of natural selection may seem consistent with this argument. However, advances of evolutionary knowledge in independent fields such as phylogenetic analysis, developmental evolution, and paleontology cannot be ignored. I argue here that the role of natural selection in contemporary evolutionary biology can be compared to that of Newtonian mechanics in contemporary physics: it can describe a given domain of observations, but it is insufficient to handle the different sources of evolutionary knowledge. Overemphasis on natural selection as the immediate mechanism of evolution may lead to disregard phylogenetic-historical evidence, and to ignore the important evolutionary role of non-adaptive change and epigenetic phenotypic plasticity. Natural selection deals with populations and leads to conceive the environment as a "sieve" of genetic variation, bypassing the role of the environment as a trigger of phenotypic and behavioral diversification. Alternatively, it is possible to conceive how part of the medium participates as an ontogenic niche in the trans-reproductive change or conservation of an ontogenic phenotype. The concept of drift, currently accepted for molecular and developmental change, can be applied to the level of the phenotype as an alternative to the concept of evolution as adaptation by natural selection