gemmate

简明释义

[ˈdʒemeɪt][ˈdʒemeɪt]

vi. 发芽生殖;发芽

adj. 发芽生殖的;有芽的

第 三 人 称 单 数 g e m m a t e s

现 在 分 词 g e m m a t i n g

过 去 式 g e m m a t e d

过 去 分 词 g e m m a t e d

英英释义

Referring to a type of plant structure that is characterized by the presence of gemmae, which are small, asexual reproductive bodies that can develop into new individuals.

指一种植物结构,其特点是存在芽体(gemmae),即小的无性繁殖体,可以发育成新的个体。

单词用法

gemmate structures

珠芽结构

gemmate reproduction

芽生繁殖

gemmate fungi

珠芽真菌

gemmate bacteria

珠芽细菌

gemmate cells

珠芽细胞

gemmate forms

珠芽形式

同义词

budded

芽生的

The plant is gemmate, producing new shoots from its buds.

这株植物是芽生的,从其芽中产生新的枝条。

gemmiferous

有芽的

Gemmiferous species are often used in horticulture for propagation.

有芽的物种常用于园艺繁殖。

propagative

繁殖的

The propagative nature of the plant allows it to thrive in various environments.

这种植物的繁殖特性使其能够在各种环境中茁壮成长。

反义词

separate

分开的

The two pieces of art were separate from each other.

这两件艺术品是分开的。

disjointed

不相连的

The disjointed narrative made the story hard to follow.

不相连的叙述让这个故事难以理解。

例句

1.In the lab, we studied how environmental factors affect the gemmate development of fungi.

在实验室中,我们研究了环境因素如何影响真菌的珠芽发育。

2.The researcher explained that gemmate organisms can thrive in harsh conditions.

研究人员解释说,珠芽生物能够在恶劣条件下生存。

3.During the experiment, we noted that the gemmate form of the bacteria was more resistant to antibiotics.

在实验中,我们注意到这种细菌的珠芽形式对抗生素更具抵抗力。

4.The biologist observed the gemmate structures on the surface of the algae.

生物学家观察到藻类表面的珠芽结构。

5.The gemmate reproduction method allows for rapid population growth in certain species.

这种珠芽繁殖方法使某些物种能够快速增长。

作文

In the world of botany, the term gemmate refers to a specific type of growth that is characterized by the production of buds or shoots. These buds can develop into new plants, making the process of reproduction both efficient and fascinating. Understanding the concept of gemmate growth is essential for anyone studying plant biology, as it illustrates the remarkable ways in which plants can propagate themselves in various environments.One of the most common examples of gemmate growth can be seen in certain species of succulents. These plants often produce small offsets, or 'pups', that emerge from the base of the parent plant. These pups are essentially miniatures of the parent and can be separated and planted elsewhere to grow into new, independent plants. This method of reproduction allows succulents to thrive in arid environments where resources are scarce, as they can quickly populate an area without relying on seeds that may take longer to germinate.The phenomenon of gemmate growth is not limited to succulents; it can also be observed in various other plant families. For instance, some types of ferns exhibit gemmate characteristics by producing tiny structures called gemmae on their leaves. These gemmae can detach and grow into new ferns when they find suitable conditions, demonstrating yet another example of how plants have evolved to survive and reproduce in diverse habitats.Moreover, the study of gemmate growth has implications beyond just understanding plant reproduction. It can inform conservation efforts, especially for endangered species that rely on specific modes of propagation to survive. By recognizing the importance of gemmate growth, conservationists can develop strategies to cultivate and protect these plants in their natural habitats.In addition to its biological significance, the concept of gemmate growth can also be metaphorically applied to human endeavors. Just as plants utilize gemmate growth to expand and thrive, individuals and communities can learn to foster growth through collaboration and support. By nurturing the 'buds' of potential within ourselves and others, we create an environment conducive to personal and communal development. This parallel highlights the interconnectedness of all living things and the importance of fostering growth in various forms.In conclusion, the term gemmate encapsulates a vital aspect of plant biology that showcases the ingenuity of nature. From succulents to ferns, the ability to produce new life through budding is a testament to the resilience and adaptability of plants. As we continue to explore the wonders of the natural world, let us not forget the lessons that gemmate growth teaches us about survival, propagation, and the power of nurturing potential in all its forms.

在植物学的世界中,术语gemmate指的是一种特定类型的生长,其特点是产生芽或幼苗。这些芽可以发展成新植物,使繁殖过程既高效又迷人。理解gemmate生长的概念对于任何研究植物生物学的人来说都是至关重要的,因为它展示了植物在各种环境中如何以惊人的方式自我繁殖。最常见的gemmate生长示例可以在某些种类的多肉植物中看到。这些植物通常会从母植物的基部产生小的侧芽或“幼苗”。这些幼苗本质上是母植物的缩影,可以被分离并在其他地方种植,以生长为新的独立植物。这种繁殖方式使多肉植物能够在资源稀缺的干旱环境中茁壮成长,因为它们能够迅速填补一个区域,而不依赖于可能需要更长时间才能发芽的种子。gemmate生长的现象并不限于多肉植物;它也可以在各种其他植物家族中观察到。例如,一些类型的蕨类植物通过在其叶子上产生称为芽体的小结构来表现出gemmate特征。这些芽体可以脱落并在找到合适条件时生长成新的蕨类植物,进一步展示了植物如何进化以在多样的栖息地中生存和繁殖。此外,对gemmate生长的研究不仅仅局限于理解植物繁殖。它还可以为保护工作提供信息,特别是对于依赖特定繁殖方式生存的濒危物种。通过认识到gemmate生长的重要性,保护主义者可以制定策略来培养和保护这些植物及其自然栖息地。除了其生物学意义外,gemmate生长的概念也可以比喻性地应用于人类事业。正如植物利用gemmate生长来扩展和繁荣,个人和社区也可以学习通过合作和支持来促进增长。通过培养我们自己和他人潜在的“芽”,我们创造了一个有利于个人和共同发展的环境。这一平行关系突显了所有生物之间的相互联系,以及在各种形式中促进增长的重要性。总之,术语gemmate概括了植物生物学中的一个重要方面,展示了自然的聪明才智。从多肉植物到蕨类植物,通过发芽产生新生命的能力证明了植物的韧性和适应能力。在我们继续探索自然界的奇迹时,让我们不要忘记gemmate生长教给我们的关于生存、繁殖和培养各种形式潜力的力量的课程。