bilobate

简明释义

[baɪˈləʊˌbeɪt][baɪˈloʊbeɪt]

adj. 两裂片的;有两叶的

英英释义

Divided into two lobes or parts.

分为两个叶或部分。

单词用法

bilobate form

双叶形态

bilobate appearance

双叶外观

bilobate morphology

双叶形态学

bilobate petals

双裂花瓣

同义词

bifid

分叉的

The leaf is bifid at the tip, resembling a bilobate structure.

这片叶子在尖端是分叉的,类似于双叶结构。

divided

分开的

The plant has divided leaves that are bilobate in appearance.

这种植物的叶子是分开的,外观呈双叶状。

lobed

叶片分裂的

The lobed shape of the flower petals can be described as bilobate.

花瓣的分裂形状可以描述为双叶状。

反义词

unlobed

无叶片的

The leaf is unlobed, giving it a smooth appearance.

这片叶子是无叶片的,给人一种光滑的外观。

simple

简单的

A simple shape is often preferred in modern design.

在现代设计中,通常更喜欢简单的形状。

例句

1.Objectives To investigate the effect of Gingko bilobate extract(GBE) on cytokines secretion and proliferation of cultured peripheral blood lymphocytes from patients with systemic scleroderma(SSc).

目的研究银杏叶提取物对系统性硬皮病患者体外培养外周血淋巴细胞增殖及其分泌细胞因子的影响。

2.Objectives To investigate the effect of Gingko bilobate extract(GBE) on cytokines secretion and proliferation of cultured peripheral blood lymphocytes from patients with systemic scleroderma(SSc).

目的研究银杏叶提取物对系统性硬皮病患者体外培养外周血淋巴细胞增殖及其分泌细胞因子的影响。

3.During the examination, the doctor noted the bilobate 双叶的 shape of the patient's liver.

在检查中,医生注意到患者肝脏的bilobate 双叶的形状。

4.The bilobate 双叶的 design of the architectural feature adds an interesting visual element to the building.

这种建筑特征的bilobate 双叶的设计为建筑增添了有趣的视觉元素。

5.The leaf of the plant is characterized by its bilobate 双叶的 shape, making it easily identifiable.

这种植物的叶子以其bilobate 双叶的形状为特征,使其易于识别。

6.The bilobate 双叶的 structure of the fungus is essential for its reproductive process.

这种真菌的bilobate 双叶的结构对其繁殖过程至关重要。

7.In some species of butterflies, the wings exhibit a bilobate 双叶的 pattern that aids in camouflage.

在一些蝴蝶种类中,翅膀呈现出bilobate 双叶的图案,有助于伪装。

作文

In the world of botany and biology, the term bilobate refers to a structure that is divided into two distinct lobes or sections. This characteristic can be observed in various plants and animals, where the physical form is not only significant for identification but also plays a crucial role in their functionality and adaptation to the environment. Understanding the concept of bilobate structures enhances our appreciation of biodiversity and the intricate designs found in nature.For example, many leaves exhibit a bilobate shape, which can be beneficial for maximizing sunlight absorption while minimizing water loss. The two lobes allow for a larger surface area compared to a single-lobed leaf, which can be particularly advantageous in environments where light is limited. Additionally, the bilobate design can help in reducing wind resistance, thus protecting the plant from damage during storms.In terms of animal anatomy, certain species possess bilobate features as well. For instance, some types of fish have fins that are bilobate, providing them with better maneuverability in water. These adaptations are not random; they are the result of millions of years of evolution, demonstrating how species have developed specific traits to survive and thrive in their habitats.Moreover, the bilobate structure can also be found in various fungi and mushrooms. Some species have caps that are distinctly divided into two lobes, which can be a defining characteristic for identification. Mycologists often rely on these morphological traits to classify and study different fungi, emphasizing the importance of recognizing bilobate forms in mycology.The significance of bilobate structures extends beyond mere classification. They can also indicate ecological relationships and evolutionary adaptations. For instance, plants with bilobate leaves might thrive in specific ecological niches, attracting particular pollinators or resisting certain herbivores due to their unique shapes. This interconnection showcases the complexity of ecosystems and the importance of each species within it.Furthermore, understanding bilobate structures can inspire biomimicry in technology and design. Engineers and architects often look to nature for innovative solutions, and the efficiency seen in bilobate forms can lead to advancements in aerodynamics and material science. By studying how these natural forms function, we can create more efficient and sustainable designs in our own creations.In conclusion, the term bilobate encapsulates a fascinating aspect of biological diversity and adaptation. Whether in the context of leaves, animal anatomy, or fungi, bilobate structures offer insights into the evolutionary processes that shape life on Earth. As we continue to explore and understand these forms, we not only deepen our knowledge of biology but also gain inspiration for innovation and sustainability in our own lives. The beauty and complexity of bilobate structures remind us of the interconnectedness of all living things and the importance of preserving the rich tapestry of life that surrounds us.

在植物学和生物学的世界中,术语bilobate指的是一种结构,被分为两个不同的叶片或部分。这种特征可以在各种植物和动物中观察到,其物理形态不仅对识别具有重要意义,而且在它们的功能性和适应环境方面也起着至关重要的作用。理解bilobate结构的概念增强了我们对生物多样性和自然界中复杂设计的欣赏。例如,许多叶子呈现出bilobate形状,这对于最大化阳光吸收而最小化水分流失是有利的。两个叶片允许比单叶更大的表面积,这在光线有限的环境中尤其有利。此外,bilobate设计可以帮助减少风阻,从而保护植物在风暴中的损害。在动物解剖学方面,某些物种也具有bilobate特征。例如,一些类型的鱼类具有bilobate的鳍,使它们在水中具有更好的机动能力。这些适应并非随机,而是经过数百万年的进化,展示了物种如何发展特定特征以在其栖息地中生存和繁衍。此外,bilobate结构还可以在各种真菌和蘑菇中找到。一些物种的伞盖明显分为两个叶片,这可能是识别的决定性特征。真菌学家通常依赖这些形态特征来分类和研究不同的真菌,强调认识bilobate形式在真菌学中的重要性。bilobate结构的重要性超越了简单的分类。它们还可以指示生态关系和进化适应。例如,具有bilobate叶子的植物可能在特定的生态位中茁壮成长,吸引特定的授粉者或由于其独特的形状而抵御某些食草动物。这种相互联系展示了生态系统的复杂性以及每个物种在其中的重要性。此外,理解bilobate结构可以激发技术和设计中的仿生学。工程师和建筑师常常向自然寻求创新解决方案,而bilobate形式所体现的效率可以推动空气动力学和材料科学的进步。通过研究这些自然形式的功能,我们可以在自己的创造中创造出更高效和可持续的设计。总之,术语bilobate概括了生物多样性和适应性的迷人方面。无论是在叶子、动物解剖学还是真菌的背景下,bilobate结构提供了对塑造地球生命的进化过程的见解。随着我们继续探索和理解这些形式,我们不仅加深了对生物学的知识,还获得了创新和可持续发展的灵感。bilobate结构的美丽和复杂性提醒我们所有生物之间的相互联系,以及保护我们周围丰富生命织锦的重要性。