cyme

简明释义

[saɪm][saɪm]

n. 聚伞花序

英英释义

A type of flower cluster in which the main stem ends in a flower, and subsequent flowers develop from lateral buds below it.

一种花序类型,主茎以一朵花结束,随后在其下方的侧芽中发育出其他花朵。

单词用法

terminal cyme

顶端聚花序

axillary cyme

腋生聚花序

cyme of flowers

花的聚花序

cyme arrangement

聚花序排列

同义词

inflorescence

花序

The cyme is a type of inflorescence where the main axis ends in a flower.

聚花序是一种花序,主轴以一朵花结束。

flower cluster

花簇

A flower cluster can take various forms, including cymes.

花簇可以有多种形式,包括聚花序。

反义词

raceme

总状花序

The flowers of a raceme bloom from the bottom up.

总状花序的花朵从底部向上开放。

spike

穗状花序

A spike is a type of inflorescence where flowers are attached directly to the stem.

穗状花序是一种花序类型,花朵直接附着在茎上。

例句

1.The ancestral inflorescence of the genus Tulipa is supposed to be more primitive drepanium than raceme which is deprived from cyme.

因此认为本属的祖先花序类型可能力较原始的螺旋状花序,而不是从聚伞状花序中衍生出来的总状花序。

2.The ancestral inflorescence of the genus Tulipa is supposed to be more primitive drepanium than raceme which is deprived from cyme.

因此认为本属的祖先花序类型可能力较原始的螺旋状花序,而不是从聚伞状花序中衍生出来的总状花序。

3.Umbrella room type cyme, axil is born or the top is born, scattered, slue is spent.

伞房式聚伞花序,腋生或顶生,疏散,有极多花。

4.The botanist explained how a cyme differs from other types of inflorescences.

植物学家解释了圆伞花序与其他类型花序的区别。

5.The flower arrangement included a beautiful cyme that showcased the buds perfectly.

这束花的排列中包含了一个美丽的圆伞花序,完美展示了花苞。

6.In botany, a cyme is a type of flower cluster where the central flower blooms first.

在植物学中,圆伞花序是一种花朵簇的类型,其中中央花朵最先绽放。

7.The cyme structure of this plant makes it unique among others in its family.

这种植物的圆伞花序结构使它在同类植物中独树一帜。

8.As the cyme developed, it attracted many pollinators to the garden.

随着圆伞花序的发展,它吸引了许多授粉者来到花园。

作文

In the world of botany, understanding plant structures is crucial for both scientists and enthusiasts alike. One fascinating type of flower arrangement is known as a cyme (聚伞花序). A cyme is a specific type of inflorescence where the main axis of the flower cluster terminates in a flower, leading to the development of lateral flowers that bloom sequentially. This unique structure allows for a variety of flowering patterns that can be seen in numerous plant species. To visualize a cyme, imagine a bouquet where the central flower blooms first, followed by the flowers on either side. This arrangement is not just aesthetically pleasing but also plays an essential role in the reproductive success of the plant. For instance, many plants that exhibit cyme structures tend to attract pollinators more effectively because the central flower often serves as a beacon, drawing insects towards it. Once the central flower is pollinated, the lateral flowers continue to develop, ensuring that the plant maximizes its chances of reproduction. The importance of cyme structures can also be observed in agricultural practices. Farmers and horticulturists often select plants with favorable cyme characteristics to optimize yield and enhance the visual appeal of their crops. For example, certain fruit-bearing plants exhibit cyme formations that lead to clustered fruits, making harvesting easier and more efficient. Understanding the mechanics behind cyme arrangements can provide valuable insights into how to cultivate these plants successfully.Moreover, the study of cyme structures extends beyond agriculture into ecological research. Scientists examining plant-pollinator interactions often focus on how different inflorescence types, including cyme, affect pollination rates and the overall health of ecosystems. By studying plants with cyme arrangements, researchers can gain insights into the dynamics of plant communities and their responses to environmental changes. In conclusion, the cyme (聚伞花序) is more than just a botanical term; it represents a critical aspect of plant morphology that influences pollination, crop production, and ecological interactions. Whether you are a budding botanist or simply someone who appreciates the beauty of flowers, understanding the significance of cyme structures can deepen your appreciation for the intricate designs of nature. As we continue to explore the complexities of plant life, the cyme will undoubtedly remain a topic of interest and study in the field of botany.

在植物学的世界中,理解植物结构对科学家和爱好者来说都是至关重要的。一种迷人的花卉排列类型被称为cyme(聚伞花序)。cyme是一种特定的花序,其中花束的主轴以一朵花为终点,导致侧面花朵的发育,这些花朵依次绽放。这种独特的结构允许在许多植物物种中看到各种各样的开花模式。为了想象cyme,可以想象一个花束,其中中央花朵首先绽放,然后是两侧的花朵。这个排列不仅在美学上令人愉悦,而且在植物的繁殖成功中也发挥着重要作用。例如,许多表现出cyme结构的植物往往更有效地吸引授粉者,因为中央花朵通常作为灯塔,吸引昆虫前来。一旦中央花朵被授粉,侧面花朵继续发育,确保植物最大化其繁殖机会。cyme结构的重要性也可以在农业实践中观察到。农民和园艺师通常选择具有良好cyme特征的植物,以优化产量并增强作物的视觉吸引力。例如,某些结果植物表现出cyme形成,导致集中的水果,使收获变得更容易和高效。理解cyme排列背后的机制可以为成功培育这些植物提供有价值的见解。此外,cyme结构的研究不仅限于农业,还扩展到生态研究。研究植物-授粉者相互作用的科学家常常关注不同花序类型(包括cyme)如何影响授粉率和生态系统的整体健康。通过研究具有cyme排列的植物,研究人员可以深入了解植物群落的动态及其对环境变化的响应。总之,cyme(聚伞花序)不仅仅是一个植物学术语;它代表了植物形态学的一个关键方面,影响授粉、作物生产和生态相互作用。无论你是一个初学者植物学家还是单纯欣赏花卉之美的人,理解cyme结构的重要性可以加深你对自然复杂设计的欣赏。随着我们继续探索植物生命的复杂性,cyme无疑将继续成为植物学领域的一个研究话题。