Cousseau L, Husemann M, Foppen R, Vangestel C, Lens L
Terrestrial Ecology Unit, Department of Biology, Ghent University, Ghent, Belgium.
General Zoology, Martin-Luther University Halle-Wittenberg, Halle (Saale), Germany.
Heredity (Edinb). 2016 Oct;117(4):259-67. doi: 10.1038/hdy.2016.38. Epub 2016 Jun 8.
Dutch house sparrow (Passer domesticus) densities dropped by nearly 50% since the early 1980s, and similar collapses in population sizes have been reported across Europe. Whether, and to what extent, such relatively recent demographic changes are accompanied by concomitant shifts in the genetic population structure of this species needs further investigation. Therefore, we here explore temporal shifts in genetic diversity, genetic structure and effective sizes of seven Dutch house sparrow populations. To allow the most powerful statistical inference, historical populations were resampled at identical locations and each individual bird was genotyped using nine polymorphic microsatellites. Although the demographic history was not reflected by a reduction in genetic diversity, levels of genetic differentiation increased over time, and the original, panmictic population (inferred from the museum samples) diverged into two distinct genetic clusters. Reductions in census size were supported by a substantial reduction in effective population size, although to a smaller extent. As most studies of contemporary house sparrow populations have been unable to identify genetic signatures of recent population declines, results of this study underpin the importance of longitudinal genetic surveys to unravel cryptic genetic patterns.
自20世纪80年代初以来,荷兰家麻雀(Passer domesticus)的密度下降了近50%,欧洲各地也报告了类似的种群数量崩溃情况。这种相对较新的人口变化是否以及在何种程度上伴随着该物种遗传种群结构的相应变化,还有待进一步研究。因此,我们在此探讨了七个荷兰家麻雀种群在遗传多样性、遗传结构和有效大小方面的时间变化。为了进行最有力的统计推断,在相同地点对历史种群进行了重新采样,并使用九个多态性微卫星对每只鸟进行基因分型。尽管遗传多样性的降低并未反映出种群历史,但遗传分化水平随时间增加,原始的随机交配种群(从博物馆样本推断)分化为两个不同的遗传簇。有效种群大小的大幅减少支持了普查规模的下降,尽管程度较小。由于大多数当代家麻雀种群的研究都无法识别近期种群下降的遗传特征,本研究结果强调了纵向遗传调查对于揭示隐秘遗传模式的重要性。