2011
DOI: 10.1038/hdy.2010.166
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Old wine in new bottles: reaction norms in salmonid fishes

Abstract: Genetic variability in reaction norms reflects differences in the ability of individuals, populations and ultimately species to respond to environmental change. By increasing our understanding of how genotype  environment interactions influence evolution, studies of genetic variation in phenotypic plasticity serve to refine our capacity to predict how populations will respond to natural and anthropogenic environmental variability, including climate change. Given the extraordinary variability in morphology, be… Show more

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Cited by 152 publications
(157 citation statements)
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“…The threshold size at maturity of fishes is thought to be influenced by both genetic [33] and environmental (i.e. plastic) [34] factors, but their relative contributions to the PMRN remain unclear [17]. With respect to plasticity, Jonsson et al [35,36] noted that the threshold size at maturity in Atlantic salmon was affected by both water temperature and food quality.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…The threshold size at maturity of fishes is thought to be influenced by both genetic [33] and environmental (i.e. plastic) [34] factors, but their relative contributions to the PMRN remain unclear [17]. With respect to plasticity, Jonsson et al [35,36] noted that the threshold size at maturity in Atlantic salmon was affected by both water temperature and food quality.…”
Section: Discussionmentioning
confidence: 99%
“…Anadromous males have high fertilization success by competing for females using their large body size, whereas smaller precocious mature parr achieve fertilizations by adopting a sneaking behaviour [16]. In salmonid males, life-history divergence is thought to depend on whether the current size or growth rate at the time of the life-history decision will result in the male exceeding a threshold size [17,18], such as the size at maturity for parr. Males that exceed this size become precocious mature parr, whereas those below this size become anadromous (see electronic supplementary material, figure S1a).…”
Section: Introductionmentioning
confidence: 99%
“…Plasticity and microevolution are not necessarily independent processes, however, because the extent to which traits change over a gradient might also be heritable [3,4]. In general, the majority of evolutionary ecology studies in wild populations have primarily focused on morphological and life-history traits.…”
Section: Introductionmentioning
confidence: 99%
“…Developmental phenotypic plasticity involves the ability of a developing animal to alter its phenotype in response to intrinsic (genetic) or extrinsic (environmental) variables (Pigliucci et al, 2006;Burggren and Reyna, 2011;Hutchings, 2011). For example, during development, periods may exist when the emerging phenotype of an animal is particularly plastic or susceptible to an environmental stressor -these periods are often termed 'critical windows' or 'sensitive periods' (Pinkerton and Joad, 2000;Rice and Barone, 2000;van Aerle et al, 2002;Chan and Burggren, 2005;Hogan et al, 2008;Burggren and Reyna, 2011;Burggren et al, 2014;Burggren and Mueller, 2015).…”
Section: Introductionmentioning
confidence: 99%