School of Biological Sciences, University of Leeds, Leeds, United Kingdom.
Institute of Integrative Biology, University of Liverpool, Liverpool, United Kingdom.
PLoS One. 2014 Feb 25;9(2):e90236. doi: 10.1371/journal.pone.0090236. eCollection 2014.
Phenotypic plasticity is a key mechanism by which animals can cope with rapidly changeable environments, but the evolutionary lability of such plasticity remains unclear. The socio-sexual environment can fluctuate very rapidly, affecting both the frequency of mating opportunities and the level of competition males may face. Males of many species show plastic behavioural responses to changes in social environment, in particular the presence of rival males. For example, Drosophila pseudoobscura males respond to rivals by extending mating duration and increasing ejaculate size. Whilst such responses are predicted to be adaptive, the extent to which the magnitude of response is heritable, and hence selectable, is unknown. We investigated this using isofemale lines of the fruit fly D. pseudoobscura, estimating heritability of mating duration in males exposed or not to a rival, and any genetic basis to the change in this trait between these environments (i.e. degree of plasticity). The two populations differed in population sex ratio, and the presence of a sex ratio distorting selfish chromosome. We find that mating duration is heritable, but no evidence of population differences. We find no significant heritability of plasticity in mating duration in one population, but borderline significant heritability of plasticity in the second. This difference between populations might be related to the presence of the sex ratio distorting selfish gene in the latter population, but this will require investigation in additional populations to draw any conclusions. We suggest that there is scope for selection to produce an evolutionary response in the plasticity of mating duration in response to rivals in D. pseudoobscura, at least in some populations.
表型可塑性是动物应对快速变化环境的关键机制,但这种可塑性的进化不稳定性尚不清楚。社会-性环境可以非常迅速地波动,影响交配机会的频率和雄性可能面临的竞争水平。许多物种的雄性对社会环境的变化表现出可塑性的行为反应,特别是存在竞争对手雄性时。例如,黑腹果蝇雄性对竞争对手的反应是延长交配持续时间和增加精液量。虽然这些反应被预测是适应性的,但反应幅度的遗传程度,即选择的程度,尚不清楚。我们使用黑腹果蝇的同性别系来研究这一点,估计在有或没有竞争对手的情况下雄性交配持续时间的遗传力,以及在这些环境之间(即可塑性程度)这种特征变化的任何遗传基础。这两个种群在种群性别比例上存在差异,并且存在一种性别比例扭曲的自私染色体。我们发现交配持续时间是可遗传的,但没有种群差异的证据。我们发现一个种群中交配持续时间的可塑性没有显著的遗传力,但第二个种群的可塑性有边缘显著的遗传力。这种种群间的差异可能与后者种群中存在性别比例扭曲的自私基因有关,但这需要在更多的种群中进行调查才能得出结论。我们认为,在黑腹果蝇中,至少在某些种群中,竞争对手的存在有可能使交配持续时间的可塑性产生进化反应。
