Abstract
An important step in diagnosing local adaptation is the demonstration that phenotypic variation among populations is at least in part genetically based. To do this, many methods experimentally minimize the environmental effect on the phenotype to elucidate the genetic effect. Minimizing the environmental effect often includes reducing possible environmental maternal effects. However, maternal effects can be an important factor in patterns of local adaptation as well as adaptive plasticity. Here, we report the results of an experiment with males from two populations of the poeciliid fish, Heterandria formosa, designed to examine the relative influence of environmental maternal effects and environmental effects experienced during growth and development on body morphology, and, in addition, whether the balance among those effects is unique to each population. We used a factorial design that varied thermal environment and water chemistry experienced by mothers and thermal environment and water chemistry experienced by offspring. We found substantial differences between the two populations in their maternal and offspring norms of reaction of male body morphology to differences in thermal environment and water chemistry. We also found that the balance between maternal effects and postparturition environmental effects differed from one thermal regime to another and among traits. These results indicate that environmental maternal effects can be decidedly population‐specific and, as a result, might either contribute to the appearance of or blur evidence for local adaptation. These results also suggest that local adaptation might also occur through the evolution of maternal norms of reaction to important, and varying, environmental factors.
Highlights
Local adaptation occurs when genotypes have higher fitness in their native environment relative to genotypes from other populations (Hereford, 2009; Kawecki & Ebert, 2004)
The typical demonstration of local adaptation begins with documenting an association between population variation in morphology, physiology, life history, or behavior and differences in one or more abiotic or biotic ecological factors (Hoeksema & Forde, 2008; Reznick & Travis, 1996)
We found substantial differences between the two populations of H. formosa in their norms of reaction of male body morphology to differences in thermal environment and water chemistry, interactions between the direct effects of thermal environment and water chemistry, and a difference between those populations in the strength of maternal effects on development
Summary
Local adaptation occurs when genotypes have higher fitness in their native environment relative to genotypes from other populations (Hereford, 2009; Kawecki & Ebert, 2004). Many common garden and reciprocal transplant studies use F2 individuals whose mothers were raised in a common laboratory environment (Kawecki & Ebert, 2004; Torres-Dowdall, Handelsman, Reznick, & Ghalambor, 2012) This procedure minimizes any differences in environmental maternal effects across individuals from different populations so that phenotypic differences observed in F2 individuals or individuals from subsequent generations represent accurately their genotypic distinctions. | 6267 perhaps many others, exploring and not minimizing environmental maternal effects is a key component in a complete understanding of local adaptation
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