Division of Ecology & Evolution, Research School of Biology, The Australian National University, Canberra, ACT 2601, Australia.
Division of Ecology & Evolution, Research School of Biology, The Australian National University, Canberra, ACT 2601, Australia.
Curr Biol. 2017 Nov 20;27(22):3520-3525.e4. doi: 10.1016/j.cub.2017.09.068. Epub 2017 Nov 9.
In his book on sexual selection, Darwin [1] devoted equal space to non-vocal and vocal communication in birds. Since then, vocal communication has become a model for studies of neurobiology, learning, communication, evolution, and conservation [2, 3]. In contrast, non-vocal "instrumental music," as Darwin called it, has only recently become subject to sustained inquiry [4, 5]. In particular, outstanding work reveals how feathers, often highly modified, produce distinctive sounds [6-9], and suggests that these sounds have evolved at least 70 times, in many orders [10]. It remains to be shown, however, that such sounds are signals used in communication. Here we show that crested pigeons (Ochyphaps lophotes) signal alarm with specially modified wing feathers. We used video and feather-removal experiments to demonstrate that the highly modified 8 primary wing feather (P8) produces a distinct note during each downstroke. The sound changes with wingbeat frequency, so that birds fleeing danger produce wing sounds with a higher tempo. Critically, a playback experiment revealed that only if P8 is present does the sound of escape flight signal danger. Our results therefore indicate, nearly 150 years after Darwin's book, that modified feathers can be used for non-vocal communication, and they reveal an intrinsically reliable alarm signal.
达尔文在其关于性选择的著作中[1],对鸟类的非发声和发声通讯给予了同等篇幅的关注。从那时起,发声通讯就成为神经生物学、学习、通讯、进化和保护[2,3]领域研究的典范。相比之下,正如达尔文所称的“非发声‘器乐’”[4,5],直到最近才成为持续研究的主题。特别是,杰出的工作揭示了羽毛如何产生独特的声音[6-9],并表明这些声音至少在 70 个不同的进化支中进化而来[10]。然而,这些声音是否是用于通讯的信号仍有待证明。在这里,我们展示了凤头鸠(Ochyphaps lophotes)会用特别修饰的翅膀羽毛来发出警报信号。我们使用视频和羽毛去除实验证明,高度修饰的第 8 根主翼羽(P8)在每次下挥时都会产生一个独特的音符。声音随翼拍频率而变化,因此逃离危险的鸟类会产生更高节奏的翼音。关键的是,播放实验表明,只有当 P8 存在时,逃跑飞行的声音才会发出危险信号。因此,我们的研究结果表明,在达尔文的书出版近 150 年后,经过修饰的羽毛可用于非发声通讯,并且揭示了一种内在可靠的警报信号。
