The predictability and magnitude of life‐history divergence to ecological agents of selection: a meta‐analysis in livebearing fishes

Moore, Michael P.; Riesch, Rüdiger; Martin, Ryan A.

doi:10.1111/ele.12576

Cited by 30 publications

(34 citation statements)

References 57 publications

(120 reference statements)

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“…Likewise, increased fecundity and RA under high predation risk was reported for several poeciliids, including P. reticulata 2123, Brachyrhaphis rhabdophora 79, and G. hubbsi 66. This is in congruence with life-history theory, which predicts that when adult mortality rates are high relative to juvenile mortality rates, females increase reproductive effort, investing in as many offspring per clutch as possible to maximize fitness, even if this investment comes at the cost of producing smaller offspring2580.…”

Section: Discussionsupporting

confidence: 73%

“…Lowland rivers are slow-flowing, accumulate more nutrients, have higher photosynthetic primary production and thus, higher densities of guppies, and harbour an array of predatory species172021222324. Guppies show a repeated and predictable pattern of life-history divergence along this gradient, which was mainly interpreted as a consequence of differences in predation risk: under high predation (i.e., increased extrinsic mortality rates), guppy females produce more, but smaller offspring and allocate more resources to reproduction212325, while males mature at an earlier age and develop less conspicuous secondary sexual ornamentation2627. Several studies investigated guppy populations that are separated by waterfalls (allowing for a rather clear distinction between low- and high-predation habitats2123), but similar patterns of phenotypic differentiation were also found along a continuous gradient of predation28.…”

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confidence: 99%

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Shared and unique patterns of phenotypic diversification along a stream gradient in two congeneric species

Jourdan

Krause

Lazar

et al. 2016

Sci Rep

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Stream ecosystems show gradual variation of various selection factors, which can result in a zonation of species distributions and gradient evolution of morphological and life-history traits within species. Identifying the selective agents underlying such phenotypic evolution is challenging as different species could show shared and/or unique (species-specific) responses to components of the river gradient. We studied a stream gradient inhabited by two mosquitofishes (genus Gambusia) in the Río Grijalva basin in southern Mexico and found a patchy distribution pattern of both congeners along a stretch of 100 km, whereby one species was usually dominant at a given site. We uncovered both shared and unique patterns of diversification: some components of the stream gradient, including differences in piscine predation pressure, drove shared patterns of phenotypic divergence, especially in females. Other components of the gradient, particularly abiotic factors (max. annual temperature and temperature range) resulted in unique patterns of divergence, especially in males. Our study highlights the complexity of selective regimes in stream ecosystems. It exemplifies that even closely related, congeneric species can respond in unique ways to the same components of the river gradient and shows how both sexes can exhibit quite different patterns of divergence in multivariate phenotypic character suites.

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Section: Discussionsupporting

confidence: 73%

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confidence: 99%

Shared and unique patterns of phenotypic diversification along a stream gradient in two congeneric species

Jourdan

Krause

Lazar

et al. 2016

Sci Rep

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“…Nevertheless, when the maternal environment predicts the offspring environment, selection on the considerable phenotypic variation determined by maternal effects should favour their adaptive evolution. Exploring the genetic (McAdam et al ) and environmental (Marshall & Monro ; Tschirren et al ; Moore et al ) factors that promote and/or limit the evolutionary origins and maintenance of adaptive maternal effects will remain an exciting area for inquiry (e.g. Walsh et al ).…”

Section: Discussionmentioning

confidence: 99%

A mother’s legacy: the strength of maternal effects in animal populations

Moore

Whiteman

Martin³

2019

Ecology Letters

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Although mothers influence the traits of their offspring in many ways beyond the transmission of genes, it remains unclear how important such ‘maternal effects’ are to phenotypic differences among individuals. Synthesizing estimates derived from detailed pedigrees, we evaluated the amount of phenotypic variation determined by maternal effects in animal populations. Maternal effects account for half as much phenotypic variation within populations as do additive genetic effects. Maternal effects most greatly affect morphology and phenology but, surprisingly, are not stronger in species with prolonged maternal care than in species without. While maternal effects influence juvenile traits more than adult traits on average, they do not decline across ontogeny for behaviour or physiology, and they do not weaken across the life cycle in species without maternal care. These findings underscore maternal effects as an important source of phenotypic variation and emphasise their potential to affect many ecological and evolutionary processes.

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“…When non-parallelism is detected, its cause can be hard to determine (Travisano et al 1995;Langerhans & DeWitt 2004). One reason is that the supposedly replicate environmentsand presumed similar selection pressuresactually differ cryptically (e.g., Berner et al 2008;Kaeuffer et al 2012;Moore et al 2016). Alternatively, past evolutionary events might generate cryptic genomic variation that makes different 'replicate' lineages respond differently to the same selective regime (Travisano et al 1995;Langerhans & DeWitt 2004;Pfenninger et al 2015;Blount et al 2018).…”

Section: Introductionmentioning

confidence: 99%

Independent lineages in a common environment: the roles of determinism and contingency in shaping the migration timing of even‐ versus odd‐year pink salmon over broad spatial and temporal scales

et al. 2019

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Studies of parallel evolution are seldom able to disentangle the influence of cryptic environmental variation from that of evolutionary history; whereas the unique life history of pink salmon (Oncorhynchus gorbuscha) presents an opportunity to do so. All pink salmon mature at age two and die after breeding. Hence, pink salmon bred in even years are completely reproductively isolated from those bred in odd years, even if the two lineages bred in same location. We used time series (mean = 7 years, maximum = 74 years) of paired even‐ and odd‐year populations from 36 rivers spanning over 2000 km to explore parallelism in migration timing, a trait with a strong genetic basis. Migration timing was highly parallel, being determined almost entirely by local environmental differences among rivers. Interestingly, interannual changes in migration timing different somewhat between lineages. Overall, our findings indicate very strong determinism, with only a minor contribution of contingency.

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The predictability and magnitude of life‐history divergence to ecological agents of selection: a meta‐analysis in livebearing fishes

Cited by 30 publications

References 57 publications

Shared and unique patterns of phenotypic diversification along a stream gradient in two congeneric species

Shared and unique patterns of phenotypic diversification along a stream gradient in two congeneric species

A mother’s legacy: the strength of maternal effects in animal populations

Independent lineages in a common environment: the roles of determinism and contingency in shaping the migration timing of even‐ versus odd‐year pink salmon over broad spatial and temporal scales

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