annulate

简明释义

英[ˈænjʊlɪt]美[ˈænjəˌleɪt]

adj. 有环纹的；由环组成的；环状的

英英释义

单词用法

同义词

反义词

例句

1.The relationship between ultrastructure and function of some organelle, such as yolk nucleus, synthetic vesicle and annulate lamella are also discussed in this paper.

结果还讨论了卵黄核、合成泡及环状片层等细胞器的超微结构与功能的关系等。

2.Leaves densely hirsute especially on veins of abaxial surface. Flowers opposite. Corolla tube conspicuously puberulent annulate inside.

叶密被长硬毛背面的特别是在脉上。花对生。显著被微柔毛有环的花冠筒在里面。

3.According to the evidence which have been observed, it is proposed that annulate lamellae in goldfish oocytes are probably differentiated from the rough endoplasmic reticulum.

我们从观察结果推测金鱼卵母细胞的环孔片层可能是由粗面内质网衍生而成。

4.According to the evidence which have been observed, it is proposed that annulate lamellae in goldfish oocytes are probably differentiated from the rough endoplasmic reticulum.

我们从观察结果推测金鱼卵母细胞的环孔片层可能是由粗面内质网衍生而成。

5.The scientist observed that the specimen had an annulate structure, indicating it belonged to a specific family of plants.

科学家观察到该标本具有环状的结构，表明它属于特定的植物科。

6.During the presentation, he highlighted the importance of annulate markings in paleontology.

在演示中，他强调了环状的标记在古生物学中的重要性。

7.The annulate texture of the fungus was a key factor in its classification.

这种真菌的环状的纹理是其分类的关键因素。

8.The biologist explained how annulate features can be used to differentiate species in the lab.

生物学家解释了如何利用环状的特征在实验室中区分物种。

9.In her research, she found that the annulate patterns on the insects' bodies were crucial for their identification.

在她的研究中，她发现昆虫身体上的环状的图案对其鉴别至关重要。

作文

In the study of biology, particularly in the field of zoology, one may encounter various terms that describe the morphological features of organisms. One such term is annulate, which refers to structures that are ringed or characterized by rings. This term is commonly used to describe certain types of worms, insects, and even some plants. Understanding the concept of annulate features can provide insight into the evolutionary adaptations of these organisms.For example, many species of earthworms exhibit annulate bodies, which means their bodies are segmented into distinct rings. These segments, or annuli, allow for greater flexibility and mobility as they burrow through the soil. The annulate structure not only aids in movement but also plays a crucial role in the organism's overall physiology. Each segment contains muscles and organs that contribute to the worm's ability to digest food and reproduce effectively.In the insect world, the term annulate is often applied to describe the antennae of certain species. Antennae that are annulate typically consist of multiple ring-like segments, which enhance the insect's sensory perception. These segmented antennae can detect changes in the environment, such as humidity and temperature, and help the insect navigate its surroundings. The annulate design of these antennae showcases the remarkable adaptability of insects to diverse habitats.Moreover, the concept of annulate extends beyond just animals; it can also be seen in the plant kingdom. Some plants, particularly climbing vines, have annulate tendrils that help them grasp onto surfaces for support. These tendrils may feature a series of rings that provide structural strength while remaining lightweight. By studying these annulate characteristics, botanists can better understand how different plant species have evolved to thrive in their environments.The significance of the term annulate goes beyond mere description; it highlights the intricate relationships between form and function in nature. As scientists continue to explore the diversity of life on Earth, the understanding of annulate features can lead to important discoveries in evolutionary biology and ecology. For instance, recognizing how annulate structures contribute to an organism's survival can inform conservation efforts aimed at preserving biodiversity.In conclusion, the term annulate serves as a gateway to a deeper appreciation of the complexity of life forms. Whether examining the segmented bodies of earthworms, the sensory antennae of insects, or the supportive tendrils of climbing plants, the annulate characteristics reveal the beauty of adaptation in the natural world. By embracing the knowledge encapsulated in this term, we can foster a greater understanding of the interconnectedness of all living things, ultimately inspiring us to protect and cherish our planet's rich biodiversity.

在生物学的研究中，特别是在动物学领域，人们可能会遇到各种描述生物形态特征的术语。其中一个术语是annulate，指的是环状或以环为特征的结构。这个术语通常用于描述某些类型的蠕虫、昆虫甚至一些植物。理解annulate特征的概念可以提供对这些生物进化适应性的洞察。例如，许多种类的蚯蚓表现出annulate的身体，这意味着它们的身体被分成明显的环节。这些段落或环状结构使得它们在土壤中钻掘时更加灵活和移动自如。annulate结构不仅有助于运动，还在生物的整体生理中发挥着至关重要的作用。每个段落都包含肌肉和器官，有助于蠕虫有效消化食物和繁殖。在昆虫世界中，术语annulate常用于描述某些物种的触角。具有annulate特征的触角通常由多个环状段落组成，增强了昆虫的感知能力。这些分段的触角能够检测环境中的变化，如湿度和温度，并帮助昆虫导航其周围环境。annulate设计的这些触角展示了昆虫对多样栖息地的显著适应性。此外，annulate的概念不仅限于动物；它也可以在植物界中看到。一些植物，特别是攀缘藤本植物，具有annulate的卷须，帮助它们抓住表面以获得支持。这些卷须可能具有一系列环状结构，提供结构强度，同时保持轻量。通过研究这些annulate特征，植物学家可以更好地理解不同植物物种如何进化以在其环境中生存。术语annulate的重要性不仅仅在于描述；它突显了自然界中形式与功能之间的复杂关系。随着科学家们继续探索地球上生命的多样性，对annulate特征的理解可以导致在进化生物学和生态学方面的重要发现。例如，认识到annulate结构如何有助于生物的生存，可以为旨在保护生物多样性的保护工作提供信息。总之，术语annulate是深入欣赏生命形式复杂性的门户。无论是检查蚯蚓的分段身体、昆虫的感官触角，还是攀缘植物的支撑卷须，annulate特征揭示了自然界中适应的美丽。通过接受这一术语所蕴含的知识，我们可以培养对所有生物之间相互联系的更深理解，最终激励我们保护和珍惜我们星球丰富的生物多样性。