Laboratorio de Anatomía Comparada, Facultad de Ciencias Naturales y Museo, Universidad Nacional de La Plata, 1900 La Plata, Buenos Aires, Argentina.
Evolution and Optics of Nanostructures Lab, Department of Biology, Ghent University, 9000 Gent, Belgium.
Biol Lett. 2023 Jun;19(6):20230148. doi: 10.1098/rsbl.2023.0148. Epub 2023 Jun 7.
The value of birds' ability to move the upper beak relative to the braincase has been shown in vital tasks like feeding and singing. In woodpeckers, such cranial kinesis has been thought to hinder pecking as delivering forceful blows calls for a head functioning as a rigid unit. Here, we tested whether cranial kinesis is constrained in woodpeckers by comparing upper beak rotation during their daily activities such as food handling, calling and gaping with those from closely related species that also have a largely insectivorous diet but do not peck at wood. Both woodpeckers and non-woodpecker insectivores displayed upper beak rotations of up to 8 degrees. However, the direction of upper beak rotation differed significantly between the two groups, with woodpeckers displaying primarily depressions and non-woodpeckers displaying elevations. The divergent upper beak rotation of woodpeckers may be caused either by anatomical modifications to the craniofacial hinge that reduce elevation, by the caudal orientation of the mandible depressor muscle forcing beak depressions, or by both. Our results suggest that pecking does not result in plain rigidification at the upper beak's basis of woodpeckers, but it nevertheless significantly influences the way cranial kinesis is manifested.
鸟类相对于脑壳移动上喙的能力在进食和鸣叫等重要任务中具有重要意义。在啄木鸟中,这种颅部运动被认为会阻碍啄食,因为强力击打需要头部作为一个刚性单元发挥作用。在这里,我们通过比较啄木鸟在日常活动(如处理食物、鸣叫和张口)中与那些具有相似饮食但不啄食木材的近亲物种的上喙旋转情况,来测试啄木鸟的颅部运动是否受到限制。啄木鸟和非啄木食虫动物的上喙旋转都可达 8 度。然而,两组之间上喙旋转的方向有显著差异,啄木鸟主要表现为下凹,而非啄木食虫动物则主要表现为上凸。啄木鸟上喙的这种发散性旋转可能是由于颅面铰链的解剖结构发生了改变,从而减少了上凸,或者是由于下颌骨降肌的尾向取向迫使喙下凹,或者是这两个因素共同导致的。我们的研究结果表明,啄食并不会导致啄木鸟上喙基部变得单纯的刚性化,但它仍然会显著影响颅部运动的表现方式。
