Dyson Emily A, Hurst Gregory D D
Department of Biology, University College London, 4 Stephenson Way, London NW1 2HE, England.
Proc Natl Acad Sci U S A. 2004 Apr 27;101(17):6520-3. doi: 10.1073/pnas.0304068101. Epub 2004 Apr 15.
The sex ratio is a key parameter in the evolution and ecology of a species. Selfish genetic elements that bias the sex ratio of affected individuals are well known and characterized, but their effect on populations has been considered limited, because either the element does not achieve high prevalence or the host rapidly evolves resistance to the distorting element, reducing its prevalence. We tested whether the host necessarily prevails by using a butterfly system where records from the early part of the 20th century reported extreme sex-ratio bias in nature. We reexamined this population and found the bias was present today, 400 generations after the original record, with a population sex ratio of 100 females per male. The sex-ratio bias was associated with the presence of a heritable male-killing Wolbachia infection in 99% of adult females, against which the host butterfly has failed to evolve resistance. The resultant dearth of males causes an average 57% reduction in the reproductive output of adult females. Persistence of the population despite the very high frequency of the sex-ratio distorter appears to be associated with the ability of males to mate >50 times in their life combined with a high intrinsic rate of increase of the species.
性别比例是一个物种进化和生态中的关键参数。使受影响个体的性别比例产生偏差的自私遗传元件已为人熟知并得到了充分研究,但其对种群的影响一直被认为是有限的,因为要么该元件未能达到高流行率,要么宿主会迅速进化出对这种扭曲元件的抗性,从而降低其流行率。我们利用一个蝴蝶系统来测试宿主是否必然占上风,在这个蝴蝶系统中,20世纪早期的记录表明自然界中存在极端的性别比例偏差。我们重新研究了这个种群,发现在原始记录后的400代,即如今,这种偏差依然存在,种群的性别比例为每100只雌性对应1只雄性。这种性别比例偏差与99%的成年雌性体内存在可遗传的杀雄沃尔巴克氏体感染有关,宿主蝴蝶未能进化出对其的抗性。由此导致的雄性短缺使成年雌性的生殖产出平均减少了57%。尽管性别比例扭曲者的频率非常高,但该种群仍能持续存在,这似乎与雄性一生能交配50次以上的能力以及该物种较高的内在增长率有关。