2015
DOI: 10.1038/hdy.2015.8
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Constraints on the evolution of phenotypic plasticity: limits and costs of phenotype and plasticity

Abstract: Phenotypic plasticity is ubiquitous and generally regarded as a key mechanism for enabling organisms to survive in the face of environmental change. Because no organism is infinitely or ideally plastic, theory suggests that there must be limits (for example, the lack of ability to produce an optimal trait) to the evolution of phenotypic plasticity, or that plasticity may have inherent significant costs. Yet numerous experimental studies have not detected widespread costs. Explicitly differentiating plasticity … Show more

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Cited by 535 publications
(558 citation statements)
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References 79 publications
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“…Where possible, natural selection is expected to reduce costs by "canalizing" plastic responses to recurring environmental situations as automatic parts of normal development (68). The tethering hypothesis suggests that such innate specializations are most likely to be found in relatively heritable sensorimotor systems and with respect to behaviors/stimuli that have been relatively invariant over long periods of time.…”
Section: An Extended Evolutionary Frameworkmentioning
confidence: 99%
“…Where possible, natural selection is expected to reduce costs by "canalizing" plastic responses to recurring environmental situations as automatic parts of normal development (68). The tethering hypothesis suggests that such innate specializations are most likely to be found in relatively heritable sensorimotor systems and with respect to behaviors/stimuli that have been relatively invariant over long periods of time.…”
Section: An Extended Evolutionary Frameworkmentioning
confidence: 99%
“…One explanation could be that osmoregulatory plasticity may be costly to maintain, but nevertheless adaptive for populations such as MAR(H) that reside in fluctuating environments characterized by daily salinity variations due to tidal cycles (salinity ranges from 17 to 24 ppt) and even more dramatic seasonal changes associated with spawning and egg rearing in freshwater. Adaptation to the relative osmotic stability of the low-salinity environment should select for more canalized and/or specialist genotypes (DeWitt et al, 1998;Kvitek and Sherlock, 2013;Murren et al, 2015). Conversely, residency in a less heterogeneous environment may simply reflect a relaxation of selection, which in turn might yield a loss of plasticity via random mutational processes Maughan et al, 2007).…”
Section: Kidney Morphologymentioning
confidence: 99%
“…The lack of genetic variation typical of many populations living in marginal areas has been pointed out as a classic constraint for the evolution and maintenance of high levels of plasticity (Schlichting and Pigliucci 1998;Murren et al 2015). Interestingly, we detected the highest levels of developmental plasticity in the marginal Swedish pool frog populations, which harbour very low variability in genetic markers (Sj€ ogren 1991;Zeisset and Beebee 2001).…”
Section: Discussionmentioning
confidence: 61%