昆虫はどのように羽を制御しているのか?昆虫が空を飛ぶ不思議な仕組み(How Insects Control Their Wings: The Mysterious Mechanics of Insect Flight)

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2024-04-17 カリフォルニア工科大学(Caltech)

飛行は動物にとって広範囲に迅速に移動し、食料を探索する進化上の利点を提供します。特に昆虫の飛行能力は、植物の多様化や他の生物の進化に大きく寄与しています。地球上で飛行能力は鳥類、コウモリ、翼竜、昆虫の4回進化しました。カリフォルニア工科大学の研究では、ショウジョウバエの翅の動きを制御する12の筋肉を高速カメラと機械学習を用いて詳細に分析しました。この研究は、昆虫の翅の動きと脳の関連を解明し、飛行する能力がどのように進化したかを理解することを目指しています。これにより、昆虫の神経生物学的な回路と動きの制御方法が明らかになることが期待されます。

<関連情報>

昆虫の翅のヒンジの制御メカニズムを機械学習で解明 Machine learning reveals the control mechanics of an insect wing hinge

Johan M. Melis,Igor Siwanowicz & Michael H. Dickinson
Nature  Published:17 April 2024
DOI:https://doi.org/10.1038/s41586-024-07293-4

昆虫はどのように羽を制御しているのか?昆虫が空を飛ぶ不思議な仕組み(How Insects Control Their Wings: The Mysterious Mechanics of Insect Flight)

Abstract

Insects constitute the most species-rich radiation of metazoa, a success that is due to the evolution of active flight. Unlike pterosaurs, birds and bats, the wings of insects did not evolve from legs1, but are novel structures that are attached to the body via a biomechanically complex hinge that transforms tiny, high-frequency oscillations of specialized power muscles into the sweeping back-and-forth motion of the wings2. The hinge consists of a system of tiny, hardened structures called sclerites that are interconnected to one another via flexible joints and regulated by the activity of specialized control muscles. Here we imaged the activity of these muscles in a fly using a genetically encoded calcium indicator, while simultaneously tracking the three-dimensional motion of the wings with high-speed cameras. Using machine learning, we created a convolutional neural network3 that accurately predicts wing motion from the activity of the steering muscles, and an encoder–decoder4 that predicts the role of the individual sclerites on wing motion. By replaying patterns of wing motion on a dynamically scaled robotic fly, we quantified the effects of steering muscle activity on aerodynamic forces. A physics-based simulation incorporating our hinge model generates flight manoeuvres that are remarkably similar to those of free-flying flies. This integrative, multi-disciplinary approach reveals the mechanical control logic of the insect wing hinge, arguably among the most sophisticated and evolutionarily important skeletal structures in the natural world.

生物工学一般
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