trichoid

简明释义

英[ˈtrɪkɔɪd]美[ˈtrɪkɔɪd]

毛状的

毛发状的

英英释义

单词用法

同义词

反义词

例句

1.A new biomimetic microsensor modeled on trichoid sensillum of insects which can detect low velocity gas flow is demonstrated.

给出一种基于昆虫毛状感触器的微型仿生传感器，用以测量低速气体流动。

2.The trichoid sensilla are arranged on the inner side (windward side) surface of the antennal stem and branch in each flagella segment.

在触角鞭节的每对侧枝的内侧(迎风面)着生许多毛状感受器。

3.The trichoid sensilla are arranged on the inner side (windward side) surface of the antennal stem and branch in each flagella segment.

在触角鞭节的每对侧枝的内侧(迎风面)着生许多毛状感受器。

4.In the study of sensory receptors, researchers focused on the trichoid 毛状 organs in various arthropods.

在感官受体的研究中，研究人员专注于各种节肢动物中的trichoid毛状器官。

5.The trichoid 毛状 structures play a crucial role in the tactile perception of many animals.

这些trichoid毛状结构在许多动物的触觉感知中起着至关重要的作用。

6.The presence of trichoid 毛状 hairs can indicate the evolutionary adaptations of species to their environments.

存在trichoid毛状毛发可能表明物种对其环境的进化适应。

7.A detailed examination of trichoid 毛状 setae revealed their importance in navigation for certain species.

对trichoid毛状刚毛的详细检查揭示了它们在某些物种导航中的重要性。

8.The scientist discovered a new species of insect with a unique trichoid 毛状 structure on its antennae.

科学家发现了一种新昆虫，其触角上具有独特的trichoid毛状结构。

作文

In the vast world of biology, there are many fascinating structures and forms that scientists study to understand life better. One such structure is the trichoid, which refers to hair-like projections found on various organisms. These trichoid structures can serve multiple functions, including sensory perception, locomotion, or even protection. For instance, in certain insects, the trichoid setae are crucial for detecting environmental changes, allowing them to respond swiftly to potential threats. This highlights the importance of trichoid features in the survival and adaptation of species. Furthermore, trichoid structures are not limited to insects; they can also be observed in plants and other animals. In some aquatic organisms, trichoid filaments play a role in buoyancy and movement through water. The diversity of trichoid forms across different species showcases the evolutionary adaptations that have occurred over millions of years. Each organism has developed its own unique trichoid features that suit its habitat and lifestyle. The study of trichoid structures is not only important for understanding individual species but also for grasping broader ecological interactions. For example, the presence of trichoid hairs on plants can influence pollinator behavior. Pollinators, attracted by the specific shapes and textures of trichoid structures, play a critical role in the reproduction of flowering plants. This interdependence between plants and their pollinators illustrates how trichoid adaptations can impact entire ecosystems. Moreover, researchers are exploring the potential applications of trichoid structures in technology and materials science. By mimicking the properties of natural trichoid features, scientists are developing innovative materials that could enhance various industries, from medicine to engineering. For instance, bio-inspired designs that incorporate trichoid patterns may lead to advancements in drug delivery systems or improved surface coatings that resist bacteria. In conclusion, the concept of trichoid encompasses a wide range of biological phenomena that are essential for understanding life on Earth. From their roles in sensory perception and ecological interactions to their potential applications in technology, trichoid structures exemplify the intricate connections between form and function in nature. As we continue to explore and study these remarkable features, we gain valuable insights into the complexity and beauty of the natural world. The ongoing research surrounding trichoid structures promises to reveal even more exciting discoveries in the future, further emphasizing the significance of this seemingly simple yet profoundly impactful aspect of biology.

在生物学的广阔世界中，有许多迷人的结构和形式，科学家们研究这些结构以更好地理解生命。其中一个这样的结构是trichoid，它指的是各种生物体上的毛发状突起。这些trichoid结构可以发挥多种功能，包括感知、运动甚至保护。例如，在某些昆虫中，trichoid刚毛对检测环境变化至关重要，使它们能够迅速应对潜在威胁。这突显了trichoid特征在物种生存和适应中的重要性。此外，trichoid结构并不仅限于昆虫；它们也可以在植物和其他动物中观察到。在某些水生生物中，trichoid丝状物在浮力和水中移动中发挥作用。不同物种之间trichoid形式的多样性展示了数百万年来发生的进化适应。每个生物体都发展出了适合其栖息地和生活方式的独特trichoid特征。对trichoid结构的研究不仅对理解个别物种重要，而且对掌握更广泛的生态互动也至关重要。例如，植物上trichoid毛发的存在可能影响授粉者行为。授粉者因特定形状和纹理的trichoid结构而被吸引，在开花植物的繁殖中发挥着关键作用。这种植物与授粉者之间的相互依赖关系说明了trichoid适应如何影响整个生态系统。此外，研究人员正在探索trichoid结构在技术和材料科学中的潜在应用。通过模仿自然trichoid特征的属性，科学家们正在开发创新材料，这些材料可能会增强各个行业，从医学到工程。例如，结合trichoid图案的仿生设计可能会导致药物传递系统或改善抗细菌表面涂层的进步。总之，trichoid的概念涵盖了一系列对理解地球生命至关重要的生物现象。从它们在感知和生态互动中的作用到它们在技术中的潜在应用，trichoid结构例证了自然界中形态与功能之间的复杂联系。随着我们继续探索和研究这些显著特征，我们将获得对自然世界复杂性和美丽的宝贵见解。围绕trichoid结构的持续研究承诺将揭示更多令人兴奋的发现，进一步强调这一看似简单但深远影响的生物学方面的重要性。