[The flight of pterosaurs].

Pub Date : 2016-05-01
A V Koroljov
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引用次数: 0

Abstract

There are known three groups of vertebrates, representatives of which are gifted in active flight, namely birds, bats, and pterosaurs. Among them, the group biologists and engineers are most interested in is birds. In essence, the flight of birds is considered as a basic type, with which other groups are to be compared when studying the flight of vertebrates or trying to reconstruct it. However, while aerodynamic principles are common for all groups due to environmental uniformity, biomechanical means of flying turn out to be dependent on the wing morphological features that evolved within a specific group. At that, as for birds and bats, there is a possibility for making direct observations of the flight and comparisons between presumable and actual states, while for pterosaurs such a possibility is lacking. So, the principles of pterosaurs' flight have to be reconstructed using only paleontological data on their wing morphology and evolution.

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[翼龙的飞行]。
已知有三种脊椎动物,它们的代表是具有主动飞行天赋的鸟类、蝙蝠和翼龙。其中,生物学家和工程师最感兴趣的是鸟类。从本质上讲,鸟类的飞行被认为是一种基本类型,在研究或试图重建脊椎动物的飞行时,可以将其他类群与鸟类的飞行进行比较。然而,由于环境的一致性,空气动力学原理对所有群体都是共同的,而生物力学的飞行方式却依赖于特定群体中进化出来的翅膀形态特征。因此,对于鸟类和蝙蝠来说,有可能对飞行进行直接观察,并将假设状态和实际状态进行比较,而对于翼龙来说,这种可能性是缺乏的。因此,翼龙飞行的原理必须仅利用它们翅膀形态和进化的古生物数据来重建。
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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