circinate

简明释义

英[ˈsɜːsɪˌneɪt]美[ˈsɜːrsəˌneɪt]

adj. 漩涡状的；环形的

英英释义

单词用法

同义词

反义词

例句

1.Common thorny tropical American tree having terminal racemes of yellow flowers followed by sickle-shaped or circinate edible pods and yielding good timber and a yellow dye and mucilaginous gum.

热带美洲的一种普通带刺乔木，黄色花，总状花序，镰刀状可食荚果，可产生优良木材，黄色染料和粘性胶。

2.Common thorny tropical American tree having terminal racemes of yellow flowers followed by sickle-shaped or circinate edible pods and yielding good timber and a yellow dye and mucilaginous gum.

热带美洲的一种普通带刺乔木，黄色花，总状花序，镰刀状可食荚果，可产生优良木材，黄色染料和粘性胶。

3.The principle and parameters of circinate antenna are described and two application examples are explained in this paper.

本支叙述了环形天线的机理及特性参数，并给出两种应用实例。

4.The biologist noted that the circinate 卷曲的 formation of the leaf was a unique adaptation.

生物学家注意到，叶子的circinate 卷曲的 形态是一种独特的适应。

5.In botany, a circinate 卷曲的 leaf is one that has rolled up tightly as it develops.

在植物学中，circinate 卷曲的 叶子是指在发育过程中紧紧卷起的叶子。

6.The young shoots of the plant were circinate 卷曲的, protecting the delicate new leaves inside.

植物的幼芽是circinate 卷曲的，保护着里面娇嫩的新叶。

7.The fern leaves are often described as circinate 卷曲的 in their early growth stages.

蕨类植物的叶子在早期生长阶段常被描述为circinate 卷曲的。

8.During the spring, the circinate 卷曲的 buds of the trees begin to unfurl.

春天，树木的circinate 卷曲的 花蕾开始舒展。

作文

In the realm of botany, the term circinate refers to a specific type of leaf or frond arrangement that is coiled or curled in a spiral fashion. This unique growth pattern can be observed in various plant species, particularly ferns. The circinate vernation, as it is often called, allows young leaves to protect their delicate tissues as they develop. When these leaves unfurl, they reveal a beautiful display of greenery that enhances the overall aesthetic of the plant. Understanding the circinate growth pattern is crucial for botanists and horticulturists alike, as it provides insights into the evolutionary adaptations of plants to their environments.The importance of circinate structures extends beyond mere aesthetics; they play a fundamental role in the survival and reproduction of many plant species. For instance, the coiling of young fronds can help minimize damage from environmental stressors such as wind or excessive sunlight. By protecting the tender parts of the plant, circinate growth patterns ensure that the plant has a higher chance of thriving in its habitat.Moreover, the study of circinate forms can also shed light on the ecological relationships between plants and their surroundings. For example, certain animals may rely on the presence of circinate leaves for food or shelter. In this way, the intricate designs found in nature often reveal complex interactions within ecosystems that are vital for maintaining biodiversity.In addition to their biological significance, circinate patterns have also inspired artists and designers throughout history. The spiraling shapes found in nature have been emulated in various forms of art, architecture, and even fashion. This connection between nature and human creativity highlights the profound influence that plant structures can have on our cultural expressions.As we continue to explore the wonders of the natural world, the concept of circinate growth serves as a reminder of the beauty and complexity of life. It encourages us to appreciate the small details that contribute to the larger picture of our environment. Whether we are observing a fern unfurling its circinate fronds or admiring the graceful curves of a plant in a garden, we are reminded of the intricate processes that govern life on Earth.In conclusion, the term circinate encapsulates a fascinating aspect of plant biology that is rich with implications for ecology, art, and our understanding of nature. By studying circinate formations, we not only gain knowledge about plant development but also foster a deeper appreciation for the interconnectedness of all living things. As we strive to preserve our natural environments, recognizing the significance of circinate structures can inspire us to protect the diverse forms of life that share our planet.

在植物学领域，术语circinate指的是一种特定的叶子或叶片排列方式，它呈螺旋状卷曲。这种独特的生长模式可以在各种植物物种中观察到，尤其是蕨类植物。通常称为circinate的叶序允许幼叶在发育过程中保护其脆弱的组织。当这些叶子展开时，它们展示出一幅美丽的绿色景观，增强了植物的整体美感。理解circinate生长模式对植物学家和园艺师来说至关重要，因为它提供了植物对其环境的进化适应的见解。circinate结构的重要性不仅仅体现在美学上；它们在许多植物物种的生存和繁殖中发挥着基础作用。例如，幼叶的卷曲可以帮助减少风或过度阳光等环境压力造成的损害。通过保护植物的嫩部，circinate生长模式确保植物在其栖息地中更有可能繁茁成长。此外，对circinate形式的研究也可以揭示植物与其周围环境之间的生态关系。例如，某些动物可能依赖circinate叶子的存在作为食物或栖息地。通过这种方式，自然界中复杂的设计往往揭示出维持生物多样性的生态系统内复杂的相互作用。除了生物学意义外，circinate模式也在历史上激励了艺术家和设计师。自然界中发现的螺旋形状被模仿于各种艺术、建筑甚至时尚形式中。这种自然与人类创造力之间的联系突显了植物结构对我们文化表达的深远影响。随着我们继续探索自然世界的奇迹，circinate生长的概念提醒我们欣赏那些为我们环境的大局贡献的小细节。无论我们是在观察一株蕨类植物展开其circinate的叶片，还是欣赏花园中植物优雅的曲线，我们都被提醒着支配地球生命的复杂过程。总之，术语circinate概括了植物生物学中一个迷人的方面，这个方面对生态学、艺术以及我们对自然的理解有着丰富的启示。通过研究circinate的形成，我们不仅获得了关于植物发展的知识，还培养了对所有生物之间相互联系的更深刻的欣赏。当我们努力保护我们的自然环境时，认识到circinate结构的重要性可以激励我们保护共享我们星球的多样生命形式。