brachiation
简明释义
英[ˌbreɪkiˈeɪʃən]美[ˌbreɪkiˈeɪʃən]
n. 臂力摆荡
英英释义
The act of swinging through the trees using one's arms, typically seen in some primates. | 通过双臂在树间摆动的行为,通常见于某些灵长类动物。 |
单词用法
同义词
| 摆动 | 这只猴子以在树枝间摆动而闻名。 | ||
| 攀爬 | 许多灵长类动物在树上表现出攀爬行为。 | ||
| 抓握 | 抓握树枝的能力对摆动是至关重要的。 |
反义词
| 陆地运动 | Terrestrial locomotion is the primary mode of movement for most land animals. | 陆地运动是大多数陆生动物的主要运动方式。 | |
| 行走 | Walking is a common form of terrestrial locomotion that humans use daily. | 行走是人类每天使用的一种常见陆地运动形式。 |
例句
1.Physical programs such as running, brachiation, gymnastics, and ballet.
体能训练比如跑,悬梯,体操和芭蕾训练。
2.With dynamical servo control theory introduced, life-like brachiation control of underactuated two-link robot is studied.
引入动态伺服理论研究了欠驱动双摆机器人的仿生悬摆运动控制。
3.With dynamical servo control theory introduced, life-like brachiation control of underactuated two-link robot is studied.
引入动态伺服理论研究了欠驱动双摆机器人的仿生悬摆运动控制。
4.Children often enjoy brachiation on playground equipment, as it helps develop their motor skills.
孩子们常常喜欢在游乐设施上进行肢体摆动,因为这有助于发展他们的运动技能。
5.The gibbons are known for their impressive brachiation, which allows them to swing gracefully between branches.
长臂猿以其令人印象深刻的肢体摆动而闻名,这使它们能够优雅地在树枝之间摆动。
6.In physical therapy, brachiation can be used to improve upper body strength and coordination.
在物理治疗中,肢体摆动可以用来提高上肢力量和协调性。
7.Watching monkeys engage in brachiation can be fascinating for visitors at the zoo.
观看猴子进行肢体摆动对动物园的游客来说可能是非常吸引人的。
8.The study of brachiation in primates provides insights into the evolution of human bipedalism.
对灵长类动物的肢体摆动研究为人类双足行走的进化提供了见解。
作文
In the lush canopies of tropical rainforests, a fascinating form of locomotion takes place known as brachiation. This term refers to the way certain primates, such as gibbons and spider monkeys, move through the trees by swinging from one branch to another using their arms. The ability to perform brachiation is not just a remarkable adaptation for life in the trees; it also showcases the intricate evolution of primate species that have developed specialized physical traits to thrive in their arboreal environments.The mechanics of brachiation are truly impressive. Primates that utilize this method of movement have long, strong arms and a flexible shoulder joint that allows them to reach out and grasp branches with ease. As they swing from branch to branch, they use momentum to propel themselves forward, relying on their powerful upper body strength. This mode of travel is not only efficient but also helps them evade predators and access food sources that are often out of reach for ground-dwelling animals.The evolution of brachiation can be traced back millions of years. As some primates adapted to life in the trees, they faced unique challenges that required innovative solutions. Those that developed the ability to swing gracefully from branch to branch were better equipped to navigate their three-dimensional habitat. This adaptation has allowed them to exploit a niche that many other animals cannot, leading to greater survival rates and reproductive success.Moreover, brachiation plays a crucial role in the social dynamics of these primates. Many species that exhibit this form of locomotion are highly social and live in groups. The ability to move quickly and efficiently through the trees allows them to stay close to their companions while foraging for food or evading threats. This social aspect adds another layer of complexity to the behavior of these primates, as they communicate and interact while swinging through the canopy.Interestingly, brachiation has inspired various fields beyond biology. Engineers and designers often look to nature for inspiration, and the mechanics of brachiation have been studied to improve robotic designs and create more efficient machines. By mimicking the swinging motion of these primates, researchers hope to develop robots that can navigate complex environments, much like gibbons do in their natural habitat.In conclusion, brachiation is a remarkable adaptation that highlights the incredible diversity of movement in the animal kingdom. It showcases the evolutionary ingenuity of primates and their ability to thrive in challenging environments. As we continue to study these fascinating creatures, we gain a deeper understanding of the interconnectedness of life on Earth and the importance of preserving the habitats that allow such unique adaptations to flourish. The world of brachiation serves as a reminder of the wonders of evolution and the endless possibilities that exist in nature.
在热带雨林郁郁葱葱的树冠中,一种迷人的运动方式被称为brachiation。这个术语指的是某些灵长类动物,如长臂猿和蜘蛛猴,如何通过用手臂摆动从一根树枝移动到另一根树枝。进行brachiation的能力不仅是适应树上生活的显著表现;它还展示了灵长类动物物种复杂的进化,这些物种发展出了专门的身体特征以在其树栖环境中生存。brachiation的机械原理确实令人印象深刻。利用这种运动方式的灵长类动物拥有长而强壮的手臂,以及灵活的肩关节,使它们能够轻松伸出手臂抓住树枝。当它们从树枝间摆动时,它们利用动量向前推进,依靠强大的上肢力量。这种旅行方式不仅高效,而且帮助它们躲避捕食者,并获取通常超出地面动物触及范围的食物来源。brachiation的进化可以追溯到数百万年前。随着一些灵长类动物适应树上生活,它们面临着独特的挑战,需要创新的解决方案。那些发展出优雅地从一根树枝摆动到另一根树枝能力的动物更好地装备自己以在三维栖息地中导航。这种适应使它们能够利用许多其他动物无法利用的生态位,从而提高生存率和繁殖成功率。此外,brachiation在这些灵长类动物的社会动态中也起着至关重要的作用。许多表现出这种运动方式的物种高度社会化并生活在群体中。快速有效地穿越树木的能力使它们能够在觅食或躲避威胁时保持与同伴的亲密关系。这种社会方面为这些灵长类动物的行为增加了另一层复杂性,因为它们在树冠中摆动时进行交流和互动。有趣的是,brachiation激发了超越生物学的各个领域。工程师和设计师经常向自然寻求灵感,brachiation的机械原理已经被研究以改善机器人设计并创造更高效的机器。通过模仿这些灵长类动物的摆动动作,研究人员希望开发能够像长臂猿一样在复杂环境中导航的机器人。总之,brachiation是一种显著的适应,突显了动物王国中运动的惊人多样性。它展示了灵长类动物的进化聪明才智及其在具有挑战性的环境中生存的能力。当我们继续研究这些迷人的生物时,我们更深入地理解了地球生命的相互联系以及保护允许这种独特适应繁荣的栖息地的重要性。brachiation的世界提醒我们进化的奇迹和自然界中存在的无尽可能性。
