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. 2012 Feb;5(2):192-201.
doi: 10.1111/j.1752-4571.2011.00213.x. Epub 2011 Nov 8.

The implications of nongenetic inheritance for evolution in changing environments

Russell Bonduriansky  1 Angela J Crean  1 Troy Day  2
Affiliations

The implications of nongenetic inheritance for evolution in changing environments

Russell Bonduriansky et al. Evol Appl. 2012 Feb.

Abstract

Nongenetic inheritance is a potentially important but poorly understood factor in population responses to rapid environmental change. Accumulating evidence indicates that nongenetic inheritance influences a diverse array of traits in all organisms and can allow for the transmission of environmentally induced phenotypic changes ('acquired traits'), as well as spontaneously arising and highly mutable variants. We review models of adaptation to changing environments under the assumption of a broadened model of inheritance that incorporates nongenetic mechanisms of transmission, and survey relevant empirical examples. Theory suggests that nongenetic inheritance can increase the rate of both phenotypic and genetic change and, in some cases, alter the direction of change. Empirical evidence shows that a diversity of phenotypes - spanning a continuum from adaptive to pathological - can be transmitted nongenetically. The presence of nongenetic inheritance therefore complicates our understanding of evolutionary responses to environmental change. We outline a research program encompassing experimental studies that test for transgenerational effects of a range of environmental factors, followed by theoretical and empirical studies on the population-level consequences of such effects.

Keywords: adaptation; climate change; conservation biology; conservation genetics; epigenetics; evolutionary theory; phenotypic plasticity.

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Figures

Figure 1
Figure 1
Two designs for split-brood experiments to test for transgenerational effects of an environmental factor (see text for explanation).
See this image and copyright information in PMC

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