Department of Biology, Lund University, 22362, Lund, Sweden.
Institute for Life Sciences/Electronics and Computer Science, University of Southampton, SO17 1BJ, Southampton, UK.
Bioessays. 2022 Sep;44(9):e2100225. doi: 10.1002/bies.202100225. Epub 2022 Jul 21.
Evolutionary biology is paying increasing attention to the mechanisms that enable phenotypic plasticity, evolvability, and extra-genetic inheritance. Yet, there is a concern that these phenomena remain insufficiently integrated within evolutionary theory. Understanding their evolutionary implications would require focusing on phenotypes and their variation, but this does not always fit well with the prevalent genetic representation of evolution that screens off developmental mechanisms. Here, we instead use development as a starting point, and represent it in a way that allows genetic, environmental and epigenetic sources of phenotypic variation to be independent. We show why this representation helps to understand the evolutionary consequences of both genetic and non-genetic phenotype determinants, and discuss how this approach can instigate future areas of empirical and theoretical research.
进化生物学越来越关注使表型可塑性、可进化性和非遗传继承成为可能的机制。然而,人们担心这些现象在进化理论中仍然没有得到充分的整合。要理解它们的进化意义,就需要关注表型及其变异,但这并不总是符合流行的遗传进化表示法,因为它屏蔽了发育机制。在这里,我们转而从发育开始,并以一种允许遗传、环境和表观遗传的表型变异源相互独立的方式来表示它。我们展示了为什么这种表示法有助于理解遗传和非遗传表型决定因素的进化后果,并讨论了这种方法如何引发未来的经验和理论研究领域。
