Larry G. Cabral scite author profile

Laboratory selection experiments are alluring in their simplicity, power, and ability to inform us about how evolution works. A longstanding challenge facing evolution experiments with metazoans is that significant generational turnover takes a long time. In this work, we present data from a unique system of experimentally evolved laboratory populations of Drosophila melanogaster that have experienced three distinct life-history selection regimes. The goal of our study was to determine how quickly populations of a certain selection regime diverge phenotypically from their ancestors, and how quickly they converge with independently derived populations that share a selection regime. Our results indicate that phenotypic divergence from an ancestral population occurs rapidly, within dozens of generations, regardless of that population's evolutionary history. Similarly, populations sharing a selection treatment converge on common phenotypes in this same time frame, regardless of selection pressures those populations may have experienced in the past. These patterns of convergence and divergence emerged much faster than expected, suggesting that intermediate evolutionary history has transient effects in this system. The results we draw from this system are applicable to other experimental evolution projects, and suggest that many relevant questions can be sufficiently tested on shorter timescales than previously thought.

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Genomics of Early Cardiac Dysfunction and Mortality in ObeseDrosophila melanogaster

Phillips

Thomas

Ewunkem

et al. 2019

Physiological and Biochemical Zoology

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Does Sex Trade with Violence among Genotypes in Drosophila melanogaster?

2008

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The evolutionary forces shaping the ability to win competitive interactions, such as aggressive encounters, are still poorly understood. Given a fitness advantage for competitive success, variance in aggressive and sexual display traits should be depleted, but a great deal of variation in these traits is consistently found. While life history tradeoffs have been commonly cited as a mechanism for the maintenance of variation, the variability of competing strategies of conspecifics may mean there is no single optimum strategy. We measured the genetically determined outcomes of aggressive interactions, and the resulting effects on mating success, in a panel of diverse inbred lines representing both natural variation and artificially selected genotypes. Males of one genotype which consistently lost territorial encounters with other genotypes were nonetheless successful against males that were artificially selected for supernormal aggression and dominated all other lines. Intransitive patterns of territorial success could maintain variation in aggressive strategies if there is a preference for territorial males. Territorial success was not always associated with male mating success however and females preferred ‘winners’ among some male genotypes, and ‘losers’ among other male genotypes. This suggests that studying behaviour from the perspective of population means may provide limited evolutionary and genetic insight. Overall patterns of competitive success among males and mating transactions between the sexes are consistent with mechanisms proposed for the maintenance of genetic variation due to nonlinear outcomes of competitive interactions.

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Evolutionary Biology of Diet, Aging, and Mismatch

Rutledge¹,

Mueller²,

Cabral³

et al. 2018

jevohealth

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Does Phenotypic Plasticity for Adult Size Versus Food Level In drosophila Melanogaster evolve in Response to Adaptation to Different Rearing Densities?

Mueller

Cabral

2011

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Recent studies with Drosophila have suggested that there is extensive genetic variability for phenotypic plasticity of body size versus food level. If true, we expect that the outcome of evolution at very different food levels should yield genotypes whose adult size show different patterns of phenotypic plasticity. We have tested this prediction with six independent populations of Drosophila melanogaster kept at extreme densities for 125 generations. We found that the phenotypic plasticity of body size versus food level is not affected by selection or the presence of competitors of a different genotype. However, we document increasing among population variation in phenotypic plasticity due to random genetic drift. Several reasons are explored to explain these results including the possibility that the use of highly inbred lines to make inferences about the evolution of genetically variable populations may be misleading. K E Y W O R D S :Drosophila, density-dependent selection, drift, experimental evolution, phenotypic plasticity.

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Larry G. Cabral

Rapid divergence and convergence of life‐history in experimentally evolved Drosophila melanogaster

Genomics of Early Cardiac Dysfunction and Mortality in ObeseDrosophila melanogaster

Does Sex Trade with Violence among Genotypes in Drosophila melanogaster?

Evolutionary Biology of Diet, Aging, and Mismatch

Does Phenotypic Plasticity for Adult Size Versus Food Level In drosophila Melanogaster evolve in Response to Adaptation to Different Rearing Densities?

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