Karubian J, Swaddle J P
Department of Ecology and Evolution, University of Chicago, IL 60637, USA.
Proc Biol Sci. 2001 Apr 7;268(1468):725-8. doi: 10.1098/rspb.2000.1407.
In many bird and mammal species, males are significantly larger than females. The prevailing explanation for larger-sized males is that sexual selection drives increased male size. In addition, researchers commonly assume that the extent of dimorphism indicates the strength of selection for increased size in males. Here, through reconstruction of ancestral morphology for males and females of one large avian clade we present data that contradict this assumption and illustrate that selection for decreased female size explains 'male-biased' dimorphism ca. 50% of the time. Our findings are also inconsistent with ecological niche partitioning between the sexes and increased breeding benefits from reduced female size as general explanations for the evolution of size dimorphism within the clade. We conclude that it is incorrect to assume sexual dimorphism results from a single selective factor, such as directional sexual selection on increased male size. Rather, we suggest that the selective forces leading to sexual dimorphism may vary between species and should be tested on a case-by-case basis using a phylogenetic approach.
在许多鸟类和哺乳动物物种中,雄性明显比雌性体型大。对于雄性体型较大这一现象,普遍的解释是性选择促使雄性体型增大。此外,研究人员通常认为两性异形的程度表明了对雄性体型增大的选择强度。在此,通过对一个大型鸟类分支的雄性和雌性祖先形态进行重建,我们呈现的数据与这一假设相矛盾,并表明对雌性体型减小的选择在约50%的情况下解释了“雄性偏向”的两性异形。我们的研究结果也与两性之间的生态位划分以及雌性体型减小带来的繁殖益处增加这两种对该分支内体型两性异形进化的普遍解释不一致。我们得出结论,认为两性异形是由单一选择因素(如对雄性体型增大的定向性选择)导致的这一假设是错误的。相反,我们认为导致两性异形的选择力量可能因物种而异,应该使用系统发育方法逐案进行检验。