seta

简明释义

英[ˈsiːtə]美[ˈsitə]

n. [动]刚毛；刺毛

n. （Seta）人名；（西、法、塞、波）塞塔

复 数 s e t a e

英英释义

单词用法

同义词

反义词

例句

1.But the gecko is not the case, its minister of each foot with a few very fine setae 1 million, while the end of each seta has about 400 to 1000 more thin branches.

但壁虎就不一样了，它的每只脚底部长着数百万根极细的刚毛，而每根刚毛末端又有约400根至1000根更细的分支。

2.You seem to have seta new trend.

看来你们在开新风。

3.Incorporating new SETA technology, it is quieter and more immune to interference, so that it is a real pleasure to use.

纳入新的SETA技术，使它更安静，抗干扰能力更强，所以使用更舒畅。

4.A filamentous projection or bristle similar to a hair, such as a seta of an arthropod or an epidermal process of a plant.

茸毛：与毛发相似的细丝状突出物或刺毛，比如节肢动物的刚毛，或植物表面细胞的生成。

5.Sporogonium the sporophyte generation in mosses and liverworts. it develops from the zygote and comprises the foot, seta, and capsule. the sporogonium is parasitic on the gametophyte generation.

孢子体：为苔藓和地钱的孢子体世代具有。由受精卵发育而来，包括基足、柄和孢蒴。孢子体是寄生在配子体上的。

6.The originality of Chopin and Liszt' s piano art seta monument in the history of piano art.

肖邦在表现音乐的抒情性方面显示了他的独创性，而他那灵活多变的节奏又形成了独特的艺术风格。

7.The micro-morphology of log-cultivated Phellinus igniarius, hymenium , basidiospore, conical seta and the discrete structure of mycelia were observed under scanning electron microscope.

采用扫描电子显微镜观察人工栽培桑黄子实体的显微形态及其结构，如菌管、子实层、担孢子、锥形刚毛及离散菌丝结构等。

8.Gecko seta operate on the surface of the substances completely by van der Waals forces.

壁虎脚足与物体表面是完全的范德华力。

9.Some insects have hair-like setae that help them sense their environment.

一些昆虫有类似毛发的感毛，帮助它们感知环境。

10.The mushroom's seta is crucial for its reproduction.

蘑菇的菌柄对其繁殖至关重要。

11.The seta on the caterpillar serves as a defense mechanism.

毛虫上的刺毛作为一种防御机制。

12.In biology class, we learned about the structure of a seta in fungi.

在生物课上，我们学习了真菌中菌柄的结构。

13.The seta of the plant helps in anchoring it to the soil.

植物的根茎帮助它固定在土壤中。

作文

In the world of biology, the term seta refers to a bristle-like structure found on various organisms, particularly in insects and fungi. These structures play crucial roles in the life of these organisms. For instance, in insects, setae can serve as sensory organs, helping them navigate their environment by detecting changes in their surroundings. This is vital for survival, as it allows insects to find food, avoid predators, and interact with potential mates. In fungi, setae can be involved in reproduction and the dispersal of spores, ensuring the continuation of their species. Understanding the function of seta is essential for comprehending how these organisms adapt to their environments. For example, the presence of setae on the legs of certain insects allows them to sense vibrations and air currents, which can indicate the presence of predators or prey. This adaptation enhances their chances of survival in the wild. Similarly, in fungi, the positioning and structure of setae can influence how effectively they spread their spores, impacting their growth and reproduction.Moreover, the study of seta in various organisms can provide insights into evolutionary biology. By examining the differences and similarities in setae across species, scientists can infer evolutionary relationships and the adaptations that have occurred over time. This research can also lead to discoveries about how certain traits have been favored by natural selection, further enriching our understanding of biodiversity.In addition to their biological significance, setae have practical applications in various fields. For instance, in the field of biomimicry, researchers are studying the properties of setae to develop new materials and technologies. The unique adhesive properties of some insect setae have inspired the creation of advanced adhesives that can stick to surfaces without leaving residue. This innovation has potential applications in medicine, construction, and even space exploration.Furthermore, the ecological importance of setae cannot be overlooked. They contribute to the health of ecosystems by facilitating interactions between different species. For example, the setae of certain fungi can help decompose organic matter, returning nutrients to the soil and supporting plant growth. This process is vital for maintaining the balance of ecosystems and ensuring the sustainability of natural resources.In conclusion, the term seta encompasses a wide range of structures that are integral to the survival and functioning of various organisms. From their role in sensory perception in insects to their contribution to fungal reproduction, setae are essential components of the biological world. Understanding their significance not only deepens our knowledge of biology but also opens up new avenues for innovation and ecological conservation. As we continue to explore the intricacies of life on Earth, the study of seta will undoubtedly remain a fascinating and valuable area of research.

在生物学的世界中，术语seta指的是在各种生物体上发现的像刺一样的结构，特别是在昆虫和真菌中。这些结构在这些生物的生活中发挥着至关重要的作用。例如，在昆虫中，setae可以作为感官器官，帮助它们通过检测周围环境的变化来导航。这对于生存至关重要，因为它使昆虫能够寻找食物、避免捕食者并与潜在伴侣互动。在真菌中，setae可能涉及繁殖和孢子的传播，确保它们物种的延续。理解seta的功能对于理解这些生物如何适应其环境至关重要。例如，某些昆虫腿部的setae的存在使它们能够感知振动和气流，这可以表明捕食者或猎物的存在。这种适应性增强了它们在野外生存的机会。同样，在真菌中，setae的定位和结构可以影响它们传播孢子的有效性，从而影响它们的生长和繁殖。此外，研究不同生物中的seta可以为进化生物学提供见解。通过检查跨物种的setae之间的差异和相似之处，科学家可以推断出进化关系以及随时间发生的适应。这项研究还可以导致对某些特征如何被自然选择所青睐的发现，进一步丰富我们对生物多样性的理解。除了生物学意义外，setae在各个领域也具有实际应用。例如，在仿生学领域，研究人员正在研究setae的特性，以开发新材料和技术。一些昆虫setae独特的粘附特性激发了先进粘合剂的创造，这些粘合剂可以附着在表面上而不留残余。这项创新在医学、建筑甚至太空探索中具有潜在应用。此外，setae的生态重要性也不容忽视。它们通过促进不同物种之间的相互作用来促进生态系统的健康。例如，某些真菌的setae可以帮助分解有机物质，将养分返回土壤，支持植物生长。这个过程对于维持生态系统的平衡和确保自然资源的可持续性至关重要。总之，术语seta涵盖了一系列在各种生物体的生存和功能中不可或缺的结构。从它们在昆虫感知中的作用到它们对真菌繁殖的贡献，setae是生物世界的重要组成部分。理解它们的重要性不仅加深了我们对生物学的知识，而且为创新和生态保护开辟了新的途径。随着我们继续探索地球生命的复杂性，seta的研究无疑将继续成为一个迷人且有价值的研究领域。