obovoid

简明释义

英[ɒbˈəʊvɔɪd]美[ɑːbˈoʊvɔɪd]

adj. [植] 倒卵球形的

英英释义

单词用法

同义词

反义词

例句

1.Fruit an aggregate, spicate, 10-12 cm long; follicles long ellipsoid, obovoid or ovoid, apex obtuse or abruptly mucronate.

聚合果长10 - 12厘米，穗状；蓇葖长圆形、倒卵形或卵形，顶端圆钝或具短凸尖。

2.Fruit an aggregate, spicate, 10-12 cm long; follicles long ellipsoid, obovoid or ovoid, apex obtuse or abruptly mucronate.

聚合果长10 - 12厘米，穗状；蓇葖长圆形、倒卵形或卵形，顶端圆钝或具短凸尖。

3.The fruit of the plant is typically obovoid, resembling a flattened sphere.

这种植物的果实通常是倒卵形的，类似于扁平的球体。

4.In botanical studies, the seeds are often described as obovoid in shape.

在植物学研究中，种子常被描述为倒卵形。

5.The obovoid structure of the cell can be observed under a microscope.

在显微镜下可以观察到细胞的倒卵形结构。

6.Some species of fungi produce obovoid spores that are essential for reproduction.

一些真菌种类产生倒卵形的孢子，这对繁殖至关重要。

7.The obovoid shape of the leaf makes it easy to identify the plant species.

这种叶子的倒卵形使得识别植物种类变得简单。

作文

In the realm of botanical studies, the shape and structure of various plant parts play a crucial role in their identification and classification. One such shape that often appears in descriptions is obovoid, which refers to a form that is broadly egg-shaped, typically with the broader end at the top. This term is derived from the Latin word 'ovum', meaning egg, and the prefix 'ob-' which indicates opposition or inversion. The understanding of obovoid shapes is essential for botanists and horticulturists alike, as it helps in distinguishing between different species and varieties of plants. For instance, when examining the fruits of certain trees, you may come across obovoid fruits that can easily be identified by their unique shape. The obovoid structure not only contributes to the aesthetic appeal of the fruit but also plays a significant role in its dispersal mechanism. The rounded shape allows for easier rolling and movement, which can be advantageous for seed dispersal by animals or natural elements like wind and water. Moreover, in the study of plant morphology, the obovoid shape can indicate specific adaptations to environmental conditions. For example, plants that grow in arid regions might develop obovoid leaves or stems to minimize water loss while maximizing sunlight absorption. This adaptation showcases the incredible diversity of plant forms and functions, highlighting how even a simple shape can have profound implications for survival. In addition to its relevance in botany, the term obovoid can also find applications in other fields such as architecture and design. In these contexts, obovoid structures may be utilized to create visually appealing forms that also serve practical purposes. For example, a building designed with obovoid elements may enhance aerodynamics or improve the distribution of natural light within the space. This cross-disciplinary application of the term demonstrates the interconnectedness of various fields of study and the importance of understanding shapes in our environment. As we delve deeper into the world of geometry, the significance of terms like obovoid becomes increasingly apparent. Whether in nature, architecture, or art, the obovoid shape embodies a balance of aesthetics and functionality. It encourages us to appreciate the beauty of form while recognizing the underlying principles that govern design and structure. In conclusion, the term obovoid represents more than just a shape; it embodies a wealth of knowledge across multiple disciplines. From its role in identifying plant species to its applications in design and architecture, the obovoid form is a testament to the intricate relationships between form, function, and the natural world. Understanding and utilizing this term enriches our comprehension of both the scientific and artistic realms, allowing us to see the world through a more nuanced lens. As we continue to explore and learn, let us not overlook the significance of shapes like obovoid that contribute to our understanding of the world around us.

在植物学研究领域，各种植物部位的形状和结构在其鉴定和分类中起着至关重要的作用。其中一个常见的形状是obovoid，指的是一种宽大卵形的形状，通常是顶部较宽。这个术语源于拉丁语单词'ovum'，意为蛋，以及前缀'ob-'，表示对立或反转。理解obovoid形状对于植物学家和园艺师来说至关重要，因为它有助于区分不同的物种和品种。 例如，在检查某些树木的果实时，你可能会遇到obovoid果实，它们可以通过独特的形状轻松识别。obovoid结构不仅增加了果实的美感，而且在其传播机制中也起着重要作用。圆形的形状使得果实更容易滚动和移动，这对动物或自然元素（如风和水）传播种子是有利的。 此外，在植物形态学研究中，obovoid形状可以表明特定的环境适应性。例如，生长在干旱地区的植物可能会发展出obovoid的叶子或茎，以最小化水分流失，同时最大化阳光吸收。这种适应展示了植物形态和功能的惊人多样性，突显了即使是简单的形状也能对生存产生深远的影响。 除了在植物学中的相关性，术语obovoid还可以在建筑和设计等其他领域找到应用。在这些背景下，obovoid结构可能被用于创造视觉上吸引人的形式，同时也服务于实际目的。例如，设计时采用obovoid元素的建筑可能增强空气动力学，或改善空间内自然光的分布。这一跨学科的应用展示了各个研究领域之间的相互联系，以及理解我们环境中形状的重要性。 随着我们深入几何学的世界，像obovoid这样的术语的重要性愈加明显。无论是在自然、建筑还是艺术中，obovoid形状都体现了美学与功能性的平衡。它鼓励我们欣赏形式的美，同时认识到支配设计和结构的基本原则。 总之，术语obovoid不仅仅代表一种形状；它体现了跨多个学科的丰富知识。从识别植物物种的角色，到在设计和建筑中的应用，obovoid形式是形式、功能和自然世界之间复杂关系的证明。理解和利用这一术语丰富了我们对科学和艺术领域的理解，使我们能够更细致地观察周围的世界。在我们继续探索和学习的过程中，让我们不要忽视像obovoid这样的形状所带来的重要意义，这些形状有助于我们理解周围的世界。