Institute of Ecology, Evolution and Diversity, Goethe University Max-von-Laue-Straße 13, 60439, Frankfurt am Main, Germany ; Institute of Pharmacy and Molecular Biotechnology, Heidelberg University Im Neuenheimer Feld 364, 69120, Heidelberg, Germany.
Institute of Zoology, Johannes Gutenberg University 55099, Mainz, Germany.
Ecol Evol. 2015 Feb;5(3):781-98. doi: 10.1002/ece3.1400. Epub 2015 Jan 20.
Songs in passerine birds are important for territory defense and mating. Speciation rates in oscine passerines are so high, due to cultural evolution, that this bird lineage makes up half of the extant bird species. Leaf warblers are a speciose Old-World passerine family of limited morphological differentiation, so that songs are even more important for species delimitation. We took 16 sonographic traits from song recordings of 80 leaf warbler taxa and correlated them with 15 potentially explanatory variables, pairwise, and in linear models. Based on a well-resolved molecular phylogeny of the same taxa, all pairwise correlations were corrected for relatedness with phylogenetically independent contrasts and phylogenetic generalized linear models were used. We found a phylogenetic signal for most song traits, but a strong one only for the duration of the longest and of the shortest element, which are presumably inherited instead of learned. Body size of a leaf warbler species is a constraint on song frequencies independent of phylogeny. At least in this study, habitat density had only marginal impact on song features, which even disappeared through phylogenetic correction. Maybe most leaf warblers avoid the deterioration through sound propagation in dense vegetation by singing from exposed perches. Latitudinal (and longitudinal) extension of the breeding ranges was correlated with most song features, especially verse duration (longer polewards and westwards) and complexity (lower polewards). Climate niche or expansion history might explain these correlations. The number of different element types per verse decreases with elevation, possibly due to fewer resources and congeneric species at higher elevations.
鸣禽的歌声对于领地防御和求偶至关重要。鸣禽中的雀形目鸟类由于文化进化,物种形成率非常高,以至于它们构成了现存鸟类物种的一半。柳莺是一个形态分化有限的世界性鸣禽科,因此歌声对于物种界定更为重要。我们从 80 个柳莺类群的歌声记录中提取了 16 个超声特征,并将它们与 15 个潜在的解释变量进行了两两相关和线性模型分析。基于同一类群分辨率较高的分子系统发育,我们对所有的成对相关关系进行了校正,以消除亲缘关系的影响,并使用了系统发育独立对比和系统发育广义线性模型。我们发现大多数歌声特征都存在系统发育信号,但只有最长和最短元素的持续时间具有很强的信号,这两个特征可能是遗传的而不是后天学习的。柳莺物种的体型大小是独立于系统发育的歌声频率的限制因素。至少在这项研究中,栖息地密度对歌声特征的影响很小,甚至通过系统发育校正后就消失了。也许大多数柳莺通过在茂密的植被中从暴露的栖息处歌唱来避免声音传播的恶化。繁殖范围的纬度(和经度)延伸与大多数歌声特征相关,特别是诗句的持续时间(越往极地方向和西部越长)和复杂度(越往极地方向越低)。气候生态位或扩张历史可能解释了这些相关性。每首诗中的不同元素类型数量随海拔升高而减少,这可能是由于高海拔地区资源和同属物种较少所致。
