furcal
简明释义
adj. 叉状的,开叉的
英英释义
与叉形相关或相似;分叉的。 | |
In biological terms, it often refers to structures that are bifurcated or branched. | 在生物学术语中,通常指分叉或分支的结构。 |
单词用法
同义词
| 分叉的 | The bifid structure of the leaf allows for better sunlight absorption. | 叶子的分叉结构有助于更好地吸收阳光。 | |
| 叉状的 | The forked branch provided a perfect resting place for the bird. | 叉状的树枝为鸟儿提供了一个完美的栖息地。 |
反义词
| 非叉状的 | 该生物的非叉状结构更简单。 | ||
| 单一的 | In a single arrangement, the components are aligned linearly. | 在单一排列中,组件是线性对齐的。 |
例句
1.Conclusion the technique on the layers of splint with hydroxylapatite and light cure glass ionomer is better than pure hydroxylapatite in the repair furcal perforation.
结论:羟基磷灰石与光固化玻璃离子夹层技术修复根分叉穿孔优于单独使用羟基磷灰石。
2.It is effective to supply moisture, improve hair toughness, reduce the furcal and cracking phenomena and straighten hair.
有效补充秀发水分,增强发丝韧性,减少开叉、断裂现象,令秀发垂直柔顺。
3.Conclusion the technique on the layers of splint with hydroxylapatite and light cure glass ionomer is better than pure hydroxylapatite in the repair furcal perforation.
结论:羟基磷灰石与光固化玻璃离子夹层技术修复根分叉穿孔优于单独使用羟基磷灰石。
4.Conclusions As for curative effect, the furcal nail is better than the tri-flange nail.
结论分叉钉与三翼钉比较,前者疗效明显高于后者;
5.In taxonomy, the furcal 叉状的 characteristics can help identify different species.
在分类学中,furcal 叉状的 特征可以帮助识别不同的物种。
6.During the dissection, we observed the furcal 叉状的 region that connects the two main body segments.
在解剖过程中,我们观察到连接两个主要身体部分的furcal 叉状的 区域。
7.The entomologist noted the distinct features of the furcal 叉状的 appendages in the insect species.
昆虫学家注意到该昆虫种类中明显的furcal 叉状的 附肢特征。
8.The researchers measured the furcal 叉状的 length to assess the health of the population.
研究人员测量了furcal 叉状的 长度,以评估种群的健康状况。
9.The furcal 叉状的 structure plays a crucial role in the locomotion of certain marine animals.
该furcal 叉状的 结构在某些海洋动物的运动中起着至关重要的作用。
作文
In the study of entomology, the term furcal refers to a specific anatomical feature found in certain insects. This feature is particularly important for understanding the evolutionary adaptations of these creatures. Insects with furcal appendages often display unique behaviors and ecological niches that distinguish them from other species. For instance, the furcal structure can be seen in the order of Diptera, which includes flies. These furcal structures are typically located at the rear end of the insect's body and serve various functions, such as aiding in flight stability and maneuverability. The significance of the furcal anatomy extends beyond mere identification; it also provides insights into the evolutionary history of insects. By studying the variations and functions of furcal structures across different species, researchers can trace back the lineage and adaptive strategies that have enabled these insects to thrive in diverse environments. For example, some aquatic insects possess specialized furcal features that help them navigate through water, showcasing how morphology can influence habitat preference and survival strategies.Moreover, the furcal characteristics can also play a role in reproductive behaviors. Certain species utilize their furcal appendages during mating rituals or territorial displays, illustrating the multifaceted roles these structures can have. This aspect of furcal anatomy highlights the intricate connections between physical traits and behavioral ecology, underscoring the importance of comprehensive studies in entomology.In addition to their biological implications, furcal structures can also be of interest in applied sciences. For instance, understanding how these anatomical features function can inspire biomimicry in engineering and design. Researchers might examine the aerodynamic properties of furcal appendages to develop more efficient flying machines or drones. This intersection of biology and technology demonstrates the broader relevance of studying such specific terms as furcal within the scientific community.In conclusion, the term furcal encapsulates a vital component of insect anatomy that has significant implications for understanding biodiversity, evolutionary biology, and even technological advancements. By exploring the various roles and adaptations associated with furcal structures, we gain a deeper appreciation for the complexity of life on Earth. The study of insects and their furcal features not only enriches our knowledge of the natural world but also inspires innovations that can lead to new discoveries in various fields. As we continue to investigate the intricacies of these fascinating creatures, the importance of terms like furcal becomes increasingly evident, reminding us of the interconnectedness of all living organisms and the ongoing quest for knowledge in the realm of science.
在昆虫学的研究中,术语furcal指的是某些昆虫特有的解剖特征。这一特征对于理解这些生物的进化适应性尤为重要。具有furcal附肢的昆虫通常表现出独特的行为和生态位,使它们与其他物种区分开来。例如,furcal结构可以在双翅目中看到,该目包括苍蝇。这些furcal结构通常位于昆虫身体的后端,具有多种功能,如帮助飞行稳定性和机动性。furcal解剖的意义超越了简单的识别;它还提供了对昆虫进化历史的见解。通过研究不同物种间furcal结构的变异和功能,研究人员能够追溯这些昆虫的谱系和适应策略,这些策略使它们能够在多样的环境中繁衍生息。例如,一些水生昆虫拥有专门的furcal特征,帮助它们在水中导航,展示了形态如何影响栖息偏好和生存策略。此外,furcal特征在繁殖行为中也可能发挥作用。某些物种在交配仪式或领地展示中利用其furcal附肢,说明这些结构可以具有多方面的角色。furcal解剖的这一方面突显了物理特征与行为生态之间的复杂联系,强调了在昆虫学中进行全面研究的重要性。除了生物学的含义,furcal结构在应用科学中也引起了兴趣。例如,了解这些解剖特征的功能可以激励工程和设计中的仿生学。研究人员可能会研究furcal附肢的空气动力学特性,以开发更高效的飞行器或无人机。这种生物学与技术的交叉展示了在科学界研究诸如furcal等特定术语的更广泛相关性。总之,术语furcal封装了昆虫解剖的一个重要组成部分,对理解生物多样性、进化生物学甚至技术进步具有重要意义。通过探索与furcal结构相关的各种角色和适应性,我们对地球生命的复杂性有了更深的认识。对昆虫及其furcal特征的研究不仅丰富了我们对自然世界的知识,也激发了可以导致各个领域新发现的创新。随着我们继续调查这些迷人生物的复杂性,像furcal这样的术语的重要性愈加明显,提醒我们所有生物之间的相互联系以及在科学领域不断追求知识的过程。
