Lesser Woodcreepers excavate nest cavities in trees

Kristina L Cockle, Milka R Gomez, Carlos A Ferreyra, Facundo G Di Sallo, Alejandro Bodrati
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Abstract

To understand the evolution, life-history tradeoffs, and population ecology of cavity nesters, it is critical to identify the avian lineages and circumstances in which birds excavate tree cavities. Woodcreepers (Furnariidae: Dendrocolaptinae; 56 species) are considered non-excavators dependent on existing cavities. We overturn this assumption by providing definitive evidence that the Lesser Woodcreeper (Xiphorhynchus fuscus, 23 g) is a facultative tree-cavity excavator. From 2007 to 2022 in the Atlantic forest of Misiones, Argentina, Lesser Woodcreepers nested in preexisting tree crevices (4 nests), or excavated cavities in trunks of large-diameter trees in advanced stages of decay (mean diameter: 58 cm, range: 22–121 cm, 22 nests). Nest entrances were vertically elongated and chambers were usually pocket like, excavated in the exterior of the trees (sapwood), with floors that curved along the trees’ circumference. Excavating woodcreepers pulled out elongated pieces of spongy, fibrous decayed wood, tapping only when inside cavities. Published and online photographs of nests of Xiphorhynchus species suggest that excavation may be widespread in the genus. Our observations that woodcreepers tore out elongated pieces of spongy wood (rather than hammering) are consistent with the idea that their long, thin bills are more resistant to torsion and less resistant to impact compared to the stouter bills of other excavators in Passeriformes and Piciformes. Research has tended to focus on birds with chisel-shaped bills, perforating harder sapwood to create nesting chambers in the center of heartrot-infected trees (resulting in typical woodpecker cavities, with circular floors). We hypothesize that Lesser Woodcreepers have adopted an alternative strategy, selecting large trunks with soft outer wood (sapwood), stopping their excavation radially if they reach harder wood, and then expanding the nest chamber laterally. Furnariidae may offer a useful model family for understanding ecological and evolutionary factors that influence cavity excavation. We provide a Spanish translation in Supplementary Material.
小啄木鸟在树上挖掘巢穴
要了解穴居鸟的进化、生活史权衡和种群生态学,关键是要确定鸟类的品系以及鸟类挖掘树洞的情况。啄木鸟(Furnariidae: Dendrocolaptinae; 56种)被认为是依赖现有树洞的非挖掘者。我们推翻了这一假设,提供了确凿证据,证明小食木鸟(Xiphorhynchus fuscus,23 g)是一种表面性树洞挖掘者。从 2007 年到 2022 年,在阿根廷米西奥内斯的大西洋森林中,小食木鸟在已有的树缝中筑巢(4 个巢),或在处于晚期腐烂阶段的大直径树干上挖掘树洞(平均直径:58 厘米,范围:22-121 厘米,22 个巢)。巢穴入口呈垂直拉长状,巢室通常呈口袋状,开凿在树木(边材)的外部,地面沿着树木的圆周弯曲。啄木鸟在挖掘时会掏出细长的海绵状纤维朽木,只有在洞穴内才会敲击。已发表的和网上的 Xiphorhynchus 种类巢穴照片表明,挖掘在该属中可能很普遍。我们观察到啄木鸟撕出细长的海绵状木片(而不是锤击),这与啄木鸟细长的喙更耐扭转、耐冲击的能力不如其他百灵目和双翅目挖掘者的粗壮喙的观点是一致的。研究的重点往往是喙呈凿形的鸟类,它们的喙会穿透较硬的边材,在受心腐病感染的树木中心形成巢室(形成典型的啄木鸟巢穴,地面呈圆形)。我们推测,小食木鸟采用了另一种策略,即选择外层木质(边材)较软的大树干,如果挖到较硬的木质,就停止径向挖掘,然后横向扩大巢室。红腹滨鹬科可能是了解影响蛀洞挖掘的生态和进化因素的一个有用的模式科。我们在补充材料中提供了西班牙文译文。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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