Laboratory maintenance does not alter ecological and physiological patterns among species: a Drosophila case study

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Large comparative studies in animal ecology, physiology and evolution often use animals reared in the laboratory for many generations; however, the relevance of these studies hinges on the assumption that laboratory populations are still representative for their wild living conspecifics. In this study, we investigate whether laboratory-maintained and freshly collected animal populations are fundamentally different and whether data from laboratory-maintained animals are valid to use in large comparative investigations of ecological and physiological patterns. Here, we obtained nine species of Drosophila with paired populations of laboratory-maintained and freshly collected flies. These species, representing a range of ecotypes, were assayed for four stress-tolerance, two body-size traits and six life-history traits. For all of these traits, we observed small differences in species-specific comparisons between field and laboratory populations; however, these differences were unsystematic and laboratory maintenance did not eclipse fundamental species characteristics. To investigate whether laboratory maintenance influence the general patterns in comparative studies, we correlated stress tolerance and life-history traits with environmental traits for the laboratory-maintained and freshly collected populations. Based on this analysis, we found that the comparative physiological and ecological trait correlations are similar irrespective of provenience. This finding is important for comparative biology in general because it validates comparative meta-analyses based on laboratory-maintained populations.

Original languageEnglish
JournalJournal of Evolutionary Biology
Pages (from-to)530-542
Number of pages13
Publication statusPublished - Apr 2018

Bibliographical note

© 2018 European Society For Evolutionary Biology. Journal of Evolutionary Biology © 2018 European Society For Evolutionary Biology.

    Research areas

  • critical thermal maximum, critical thermal minimum, developmental time, fecundity, laboratory adaptation, standard metabolic rate, LARGE-SCALE PATTERNS, THERMAL TOLERANCE, STRESS RESISTANCE, METABOLIC-RATE, LIFE-HISTORY, WILD-TYPE, MELANOGASTER, ADAPTATION, TEMPERATURE, POPULATIONS

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