Sydney K. Brannoch, Julian Katzke, Danielle S Taylor, Evan P Economo, Yuri Ogawa, Ajay Narendra, Gavin J Svenson, Joshua P Martin
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引用次数: 0
摘要
动物的感官系统使它们能够导航并与环境互动。这些系统的适应性特化可以产生支持高度独特的生态位适应的新型结构或器官。我们报告了在一群螳螂(昆虫纲,螳螂目,南螳螂科)中发现的一种新型感觉器官,这种螳螂有一种不寻常的铺叶异形生活策略,即靠着阔叶植被的背面铺叶。组织学、扫描电子显微镜和 X 射线计算机断层扫描都证实了这种独特形态的新颖性,而电生理学则揭示了该感觉器官(在此命名为 gustifolium 器官)能够检测植物挥发物。腮腺器官位于这些螳螂的腹部胸部表面,这似乎有利于对其所在的叶片进行化学检测。腮腺器官是一种新型的植物挥发性检测感官结构,存在于一种必须捕食的昆虫体内,与一种新发现的高度适应的生活策略直接相关。
A new leaf sensing organ in a predatory insect group, the praying mantises (Mantodea)
Animals' sensory systems enable them to navigate and interact with their environments. Adaptive specializations of these systems can generate novel structures or organs that support highly unique niche adaptations. We report the discovery of a novel sensory organ in a group of praying mantises (Insecta, Mantodea, Nanomantoidea), which have an unusual leaf-planking ecomorphic life strategy, laying against the undersides of broadleaf vegetation. Histology, scanning electron microscopy, and x-ray computed tomography all support the novelty of this distinct morphology while electrophysiology reveals that the sensory organ, herein designated the gustifolium organ, detects plant volatiles. The location of the gustifolium organon the ventral thoracic surface of these mantises appears to facilitate the chemical detection of the leaves on which it resides. The gustifolium is a novel plant volatile-detecting sensory structure in an obligate predatory insect, directly linked to a newly-identified, highly-adapted life strategy.
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