tentacular

简明释义

[tenˈtækjʊlə(r)][tenˈtækjələr]

adj. 有触手的;触角的

英英释义

Having tentacle-like structures or extensions; resembling a tentacle.

具有触手状结构或延伸物;类似于触手的。

Relating to or resembling tentacles, often used to describe something that is sprawling or reaching out in various directions.

与触手有关或类似,常用来描述某物蔓延或向各个方向伸展的状态。

单词用法

tentacular structure

触手状结构

tentacular reach

触手般的延伸

tentacular network

触手网络

tentacular influence

触手般的影响

同义词

tentacled

触手的

The octopus is a tentacled creature that can camouflage itself.

章鱼是一种具有触手的生物,能够伪装自己。

appendage

附属物

The plant had long appendages that reached out for sunlight.

这株植物有长长的附属物,伸向阳光。

branching

分支的

The branching structure of the coral reef provides habitat for many marine species.

珊瑚礁的分支结构为许多海洋物种提供了栖息地。

反义词

compact

紧凑的

The compact design of the device makes it easy to carry.

该设备的紧凑设计使其易于携带。

simple

简单的

He prefers simple solutions over complex ones.

他更喜欢简单的解决方案而不是复杂的。

例句

1.The plant had tentacular leaves that curled around anything nearby for support.

这株植物有着触手般的叶子,缠绕着附近的任何东西以获得支持。

2.The research showed how tentacular networks of influence can affect public opinion.

研究显示,触手般的影响网络如何影响公众舆论。

3.The octopus moved gracefully through the water, its tentacular limbs trailing behind it.

章鱼在水中优雅地移动,它的触手般的肢体在后面拖曳。

4.The artist's sculpture featured tentacular forms that seemed to reach out into the space around them.

这位艺术家的雕塑展示了触手般的形状,似乎向周围的空间伸展。

5.In the horror movie, the creature had tentacular appendages that could ensnare its victims.

在这部恐怖电影中,这个生物有着可以捕捉受害者的触手般的附肢。

作文

In the realm of nature, there exists a myriad of fascinating creatures that exhibit extraordinary adaptations. Among these, the octopus stands out with its unique physical attributes and remarkable intelligence. The octopus, belonging to the class Cephalopoda, is not just a simple marine animal; it embodies a world of complexity and intrigue. One of its most defining features is its set of arms, often described as tentacular (触手状的), which are equipped with sensitive suckers that allow it to interact with its environment in sophisticated ways. These tentacular limbs enable the octopus to explore crevices, grasp prey, and even manipulate objects, showcasing its problem-solving abilities. The octopus's tentacular appendages are not only functional but also serve as a means of communication. Through changes in color and texture, the octopus can convey emotions and intentions to others, making its tentacular display a form of visual language that is both captivating and effective. This ability to communicate through its tentacular limbs is a testament to the evolutionary advantages these adaptations provide. Moreover, the octopus's intelligence is further enhanced by its decentralized nervous system, where a significant portion of its neurons resides in its arms. This allows each tentacular limb to operate semi-independently, enabling the octopus to multitask in ways that many other animals cannot. For instance, while one arm is busy opening a shellfish, another can be scanning the surroundings for potential predators. This remarkable capability highlights the versatility and efficiency of its tentacular design.In addition to their biological significance, tentacular structures have inspired various fields of study, including robotics and engineering. Researchers are exploring how the flexibility and dexterity of octopus arms can inform the design of robotic systems that mimic these natural adaptations. By studying the tentacular movements of octopuses, scientists hope to develop robots that can navigate complex environments, perform delicate tasks, and even assist in underwater exploration.The concept of tentacular extends beyond biology into metaphorical realms as well. In literature and art, the term can be used to describe things that are sprawling, intricate, or far-reaching. For instance, a narrative with a tentacular plot might weave together multiple storylines that connect in unexpected ways, much like the arms of an octopus reaching out in different directions. This metaphorical use of the word captures the essence of complexity and interconnectedness, reflecting the intricate web of relationships that exist in our world.In conclusion, the tentacular attributes of the octopus serve as a powerful reminder of the wonders of evolution and adaptation. From their functional roles in survival to their implications for technology and art, tentacular characteristics invite us to appreciate the beauty of nature's designs. As we continue to explore and understand these remarkable creatures, we uncover not only the secrets of their existence but also valuable lessons that resonate across various disciplines. The tentacular nature of life itself encourages us to embrace complexity, adaptability, and the interconnectedness of all living beings.

在自然界中,存在着无数迷人的生物,它们展现出非凡的适应能力。在这些生物中,章鱼因其独特的身体特征和卓越的智力而脱颖而出。章鱼属于头足类,不仅仅是一种简单的海洋动物,它体现了复杂性和吸引力的世界。它最显著的特征之一是它的一组手臂,常被描述为触手状的,这些手臂配备了敏感的吸盘,使其能够以复杂的方式与环境互动。这些触手状的肢体使章鱼能够探索缝隙、抓住猎物,甚至操纵物体,展示了它的解决问题能力。章鱼的触手状的附肢不仅具有功能性,还作为一种交流的手段。通过颜色和纹理的变化,章鱼可以向其他生物传达情感和意图,使其触手状的展示成为一种既迷人又有效的视觉语言。这种通过触手状的肢体进行交流的能力证明了这些适应性所提供的进化优势。此外,章鱼的智力因其去中心化的神经系统而进一步增强,其中相当一部分神经元位于其手臂中。这使得每个触手状的肢体能够半独立地运作,使章鱼能够以许多其他动物无法做到的方式进行多任务处理。例如,当一只手臂忙于打开贝壳时,另一只手臂可以扫描周围环境以寻找潜在的捕食者。这种非凡的能力突显了其触手状的设计的多功能性和效率。除了生物学上的重要性,触手状的结构还激发了多个研究领域的探索,包括机器人和工程学。研究人员正在探索章鱼手臂的灵活性和灵巧性如何能够为模仿这些自然适应的机器人系统的设计提供启示。通过研究章鱼的触手状的运动,科学家希望开发能够在复杂环境中导航、执行精细任务,甚至协助水下探索的机器人。触手状的概念不仅限于生物学,还延伸到隐喻领域。在文学和艺术中,该术语可用于描述那些蔓延、复杂或广泛的事物。例如,一个具有触手状的情节的叙述可能会编织在一起多个故事线,这些故事线以意想不到的方式连接,就像章鱼的手臂向不同方向延伸一样。这种隐喻用法捕捉了复杂性和相互关联的本质,反映了我们世界中存在的复杂关系网络。总之,章鱼的触手状的特征提醒我们进化和适应的奇迹。从它们在生存中的功能角色到对技术和艺术的影响,触手状的特征邀请我们欣赏自然设计的美。随着我们继续探索和理解这些非凡生物,我们不仅揭示了它们存在的秘密,也发现了跨越各个学科的宝贵教训。生活本身的触手状的特性鼓励我们接受复杂性、适应性和所有生物之间的相互联系。