disciform

简明释义

[ˈdɪsɪˌfɔːm][ˈdɪsəˌfɔrm;ˈdɪskəˌfɔrm]

adj. 圆形的,盘状的;椭圆形的,卵形的

英英释义

Having the shape of a disk or flat circle.

具有圆盘或扁平圆形状。

单词用法

disciform structure

圆盘状结构

disciform leaf

圆盘状叶子

disciform fungi

圆盘状真菌

disciform body

圆盘状体

同义词

disk-shaped

盘状的

The disc-shaped object floated on the water.

这个盘状的物体漂浮在水面上。

circular

圆形的

The circular design of the logo made it easily recognizable.

标志的圆形设计使其易于识别。

round

圆的

He placed a round table in the center of the room.

他在房间中央放了一张圆桌。

反义词

linear

线性的

The linear design of the building contrasts with the disciform sculptures in the park.

这座建筑的线性设计与公园中的圆盘形雕塑形成对比。

cylindrical

圆柱形的

Cylindrical containers are often preferred for liquids, unlike disciform ones.

圆柱形容器通常比圆盘形容器更适合盛装液体。

angular

角状的

The angular structure of the new bridge is a departure from the previous disciform models.

新桥的角状结构与之前的圆盘形模型截然不同。

例句

1.Fundus examination showed subretinal hemorrhage and macular thickening on the right and a disciform macular scar with focal atrophic pigment epithelial lesions on the left.

眼底检查可见视网膜下出血和右侧黄斑增厚及左侧椭圆形黄斑瘢痕伴病灶萎缩性色素上皮病变。

2.Fundus examination showed subretinal hemorrhage and macular thickening on the right and a disciform macular scar with focal atrophic pigment epithelial lesions on the left.

眼底检查可见视网膜下出血和右侧黄斑增厚及左侧椭圆形黄斑瘢痕伴病灶萎缩性色素上皮病变。

3.The plant has a unique leaf shape that is distinctly disciform.

这株植物的叶子形状独特,明显是圆盘形

4.The artist used disciform patterns in her sculpture to create a sense of harmony.

这位艺术家在她的雕塑中使用了圆盘形图案,以创造和谐感。

5.The disciform structure of the cell membrane allows for flexibility.

细胞膜的圆盘形结构允许灵活性。

6.During the experiment, they observed that the bacteria formed disciform colonies.

在实验过程中,他们观察到细菌形成了圆盘形的菌落。

7.In biology, certain fungi are classified as disciform due to their flat, round bodies.

在生物学中,某些真菌因其扁平、圆形的身体被归类为圆盘形

作文

In the realm of botanical studies, one often encounters various shapes and forms that plants can take. Among these, the term disciform refers to a shape that resembles a disk or a flat circular form. Understanding this term is crucial for botanists and horticulturists alike, as it helps in classifying different species based on their morphological characteristics. For instance, certain leaves exhibit a disciform shape, which can be an adaptation to their environment, allowing them to capture sunlight more efficiently. This particular shape can also be seen in some types of fungi, where the fruiting bodies are arranged in a disciform manner, aiding in spore dispersal. The significance of recognizing disciform structures extends beyond mere classification; it plays a vital role in ecological studies. By understanding the adaptations that lead to disciform shapes, researchers can infer how these organisms interact with their surroundings. For example, in aquatic environments, plants with disciform leaves may float more effectively, providing them with a survival advantage in terms of light absorption and gas exchange.Additionally, the disciform shape is not limited to the plant kingdom. In zoology, certain animals exhibit disciform features that serve specific functions. The anatomy of some marine creatures, such as jellyfish, showcases a disciform structure that aids in their locomotion through water. Understanding these adaptations allows scientists to appreciate the diversity of life forms and their evolutionary strategies.Moreover, the concept of disciform shapes can be applied in various fields such as design and architecture. Designers often draw inspiration from nature, utilizing disciform patterns to create aesthetically pleasing and functional products. The simplicity and elegance of a disciform design can evoke a sense of harmony and balance, making it a popular choice in modern design.In conclusion, the term disciform encompasses a wide range of applications across different scientific disciplines and practical fields. Its relevance in botany, zoology, and design highlights the interconnectedness of natural forms and human creativity. By studying disciform structures, we gain deeper insights into the complexities of life on Earth, fostering a greater appreciation for the beauty and diversity that surrounds us. As we continue to explore and understand these forms, the significance of disciform shapes will undoubtedly remain a topic of interest and inquiry in the years to come.

在植物学研究的领域中,人们常常会遇到植物可以采取的各种形状和形式。在这些形状中,术语disciform指的是一种类似于圆盘或平坦圆形的形状。理解这个术语对于植物学家和园艺师来说至关重要,因为它有助于根据形态特征对不同物种进行分类。例如,某些叶子表现出disciform的形状,这可能是对其环境的一种适应,使它们能够更有效地捕捉阳光。这种特定的形状也可以在某些类型的真菌中看到,其中果体以disciform的方式排列,有助于孢子的传播。识别disciform结构的重要性不仅限于单纯的分类;它在生态研究中也发挥着重要作用。通过理解导致disciform形状的适应,研究人员可以推测这些生物如何与周围环境相互作用。例如,在水生环境中,具有disciform叶子的植物可能更有效地漂浮,从而在光吸收和气体交换方面提供生存优势。此外,disciform形状并不限于植物界。在动物学中,某些动物展示了disciform特征,这些特征具有特定的功能。一些海洋生物(例如水母)的解剖结构展示了disciform的结构,这有助于它们在水中移动。理解这些适应性使科学家能够欣赏生命形式的多样性及其进化策略。此外,disciform形状的概念可以应用于设计和建筑等各个领域。设计师常常从自然中汲取灵感,利用disciform图案来创造美观且实用的产品。disciform设计的简单和优雅可以唤起和谐和平衡感,使其成为现代设计中的热门选择。总之,术语disciform涵盖了不同科学学科和实用领域中的广泛应用。它在植物学、动物学和设计中的相关性突显了自然形式与人类创造力之间的相互联系。通过研究disciform结构,我们可以更深入地了解地球生命的复杂性,增强对我们周围的美丽和多样性的欣赏。随着我们继续探索和理解这些形式,disciform形状的重要性无疑将在未来的岁月中继续成为一个引人关注和探讨的话题。