Department of Biological Sciences, University of Pittsburgh, 4249 Fifth Ave, Pittsburgh, PA 15260-3929, USA.
New Phytol. 2011 Jun;190(4):1058-1068. doi: 10.1111/j.1469-8137.2011.03657.x. Epub 2011 Feb 25.
Here we examined the roles of sex-differential plasticity (SDP) and gene flow in sex ratio evolution of subdioecious Fragaria virginiana. We assessed whether female frequency varied with resource availability in 17 natural populations and then characterized plasticity and mean investment in allocation to female function at flower and plant levels in the sex morphs in the glasshouse. We estimated patterns of population divergence using five microsatellite markers. We reveal SDP in fruit production substantial enough to translate into a higher equilibrium female frequency at low resources. Thus SDP can account, in part, for the strong negative relationship between female frequency and resources found in the field. Pollen-bearing morphs varied in plasticity across populations, and the degree of plasticity in fruit number was positively correlated with in situ variation in nitrogen (N) availability, suggesting an adaptive component to sex-allocation plasticity. Low neutral genetic differentiation, indicating high gene flow or recent divergence, may contribute to the absence of population differentiation in fruit-setting ability of pollen-bearing morphs despite considerable sex ratio variation. We consider how these processes, in addition to other features of this system, may work in concert to influence sex ratios and to hinder the evolution of dioecy in F. virginiana.
在这里,我们研究了性差塑性(SDP)和基因流动在亚雌雄同体草莓( Fragaria virginiana )的性别比例进化中的作用。我们评估了 17 个自然种群中雌性频率是否随资源可用性而变化,然后在温室中对花和植株水平的性形态中的雌性功能分配进行了可塑性和平均投资特征描述。我们使用五个微卫星标记估计了种群分歧模式。我们揭示了果实产量的 SDP 足够大,以至于在低资源条件下可以转化为更高的雌性频率平衡。因此,SDP 可以部分解释在野外发现的雌性频率与资源之间的强烈负相关关系。有花粉的形态在不同种群中的可塑性存在差异,并且果实数量的可塑性与氮(N)可用性的原位变化呈正相关,这表明对性分配可塑性的适应性成分。低中性遗传分化,表明基因流动或最近的分化,可能导致尽管花粉形态的果实结实能力存在相当大的性别比例变化,但仍缺乏种群分化。我们考虑了这些过程,以及该系统的其他特征,如何协同作用以影响性别比例并阻碍草莓的雌雄异株进化。
