campylotropous

简明释义

英[ˌkæm.pɪˈlɒ.trə.pəs]美[ˌkæm.pɪˈlɒ.trə.pəs]

adj. 弯生的；变转珠被的

英英释义

单词用法

同义词

反义词

例句

1.When ovule orientation is orthotropous the chalaza corresponds to the point where the funicle is attached but in anatropous and campylotropous ovules the chalaza is some distance from the funicle .

当胚珠的方向是直生胚珠时，合点和珠柄连成一条直线，当胚珠是倒生胚珠或弯生胚珠时，合点和珠柄之间有一定的距离。

2.When ovule orientation is orthotropous the chalaza corresponds to the point where the funicle is attached but in anatropous and campylotropous ovules the chalaza is some distance from the funicle .

当胚珠的方向是直生胚珠时，合点和珠柄连成一条直线，当胚珠是倒生胚珠或弯生胚珠时，合点和珠柄之间有一定的距离。

3.Green Grams ovary consists of singe carpel, one locule, cantaining 9—13 campylotropous ovules bearing at the marginal placentation.

绿豆子厉由单心皮构成，1室，有9—13个弯生胚珠着生在边缘胎座上。

4.The scientist noted that the plant had a distinctively campylotropous growth pattern, which is characterized by its curved shape.

科学家注意到这株植物具有明显的弯曲向下生长特征，表现为其弯曲的形状。

5.In botanical studies, campylotropous seeds often exhibit unique germination behaviors compared to their straight counterparts.

在植物学研究中，弯曲向下生长的种子通常表现出与直生种子不同的独特发芽行为。

6.The campylotropous nature of the root system allowed the plant to adapt better to rocky terrains.

根系的弯曲向下生长特性使植物能够更好地适应岩石地形。

7.Researchers are exploring how campylotropous traits can improve crop resilience in harsh climates.

研究人员正在探索如何利用弯曲向下生长的特性来提高作物在恶劣气候下的抗逆性。

8.The campylotropous morphology of certain fungi helps them anchor more securely to their substrates.

某些真菌的弯曲向下生长形态帮助它们更牢固地附着在基质上。

作文

In the vast world of botany, plant structures and their adaptations are crucial for survival and reproduction. One fascinating term that arises in this field is campylotropous, which refers to a specific orientation of certain plant organs, particularly seeds. Understanding the concept of campylotropous can provide insights into how plants adapt to their environments and ensure successful propagation. To delve deeper, let us first explore what campylotropous means. The term originates from Greek, where 'campylos' means 'bent' and 'tropos' refers to 'turning'. Therefore, campylotropous essentially describes seeds that exhibit a bent or curved orientation. This adaptation is particularly significant in certain species of plants that require specific conditions for germination and growth. For instance, some seeds need to orient themselves in a way that maximizes their exposure to moisture and sunlight, which are critical for their development. An excellent example of campylotropous seeds can be found in the family of legumes. These seeds often have a unique structure that allows them to bend in response to environmental stimuli. When these seeds fall to the ground, they may initially lie flat. However, as they absorb moisture, the curvature begins to develop, enabling them to penetrate the soil more effectively. This bending mechanism not only aids in anchoring the seed but also helps it to tap into the nutrient-rich layers of soil, increasing its chances of survival. The phenomenon of campylotropous seed orientation is not just limited to legumes. Many other plant species exhibit similar adaptations, showcasing the diversity of evolutionary strategies in the plant kingdom. For example, some grasses and flowering plants also display campylotropous characteristics, allowing them to thrive in various habitats, from arid deserts to lush wetlands. Moreover, understanding campylotropous adaptations can have practical applications in agriculture and horticulture. By studying how different plants utilize this bending mechanism, farmers and botanists can devise better strategies for planting and cultivating crops. For instance, if we know that certain seeds are campylotropous, we might choose to plant them in a way that optimizes their orientation for growth, ultimately leading to higher yields. In conclusion, the term campylotropous encapsulates a remarkable aspect of plant biology that highlights the intricate relationship between organisms and their environments. By recognizing the significance of campylotropous adaptations, we can appreciate the complexity of nature and the innovative ways in which plants have evolved to survive and thrive. As we continue to explore the wonders of botany, terms like campylotropous remind us of the beauty and ingenuity inherent in the natural world. In summary, campylotropous (弯曲的) seeds exemplify the fascinating adaptations that plants have developed over time, showcasing their resilience and ability to flourish in diverse environments. Through further research and understanding of such concepts, we can enhance our relationship with nature and improve our agricultural practices, ensuring a sustainable future for generations to come.

在广阔的植物学世界中，植物结构及其适应性对生存和繁殖至关重要。一个引人入胜的术语是campylotropous，它指的是某些植物器官，特别是种子的特定方向。理解campylotropous的概念可以提供关于植物如何适应环境并确保成功繁殖的见解。 首先，让我们探讨一下campylotropous的含义。该术语源于希腊语，其中'campylos'意为'弯曲'，'tropos'指'转向'。因此，campylotropous基本上描述了表现出弯曲或曲线方向的种子。这种适应性在某些植物物种中特别重要，这些植物需要特定的条件才能发芽和生长。例如，一些种子需要以最大化它们对水分和阳光的暴露的方式定向，这对它们的发展至关重要。 一个很好的例子是豆科植物中的campylotropous种子。这些种子通常具有独特的结构，使它们能够对环境刺激做出弯曲。当这些种子落到地面时，它们可能最初是平躺的。然而，随着它们吸收水分，弯曲开始发展，使它们更有效地穿透土壤。这种弯曲机制不仅有助于固定种子，还帮助它们获取富含营养的土壤层，提高生存机会。 campylotropous种子取向的现象并不仅限于豆科植物。许多其他植物物种也表现出类似的适应性，展示了植物王国中进化策略的多样性。例如，一些草类和开花植物也显示出campylotropous特征，使它们能够在各种栖息地中繁荣，从干旱的沙漠到郁郁葱葱的湿地。 此外，理解campylotropous适应性可以在农业和园艺中具有实际应用。通过研究不同植物如何利用这种弯曲机制，农民和植物学家可以制定更好的种植和培养作物的策略。例如，如果我们知道某些种子是campylotropous，我们可能会选择以优化它们的生长方向的方式进行种植，从而最终提高产量。 总之，术语campylotropous概括了植物生物学的一个显著方面，突显了生物体与其环境之间复杂的关系。通过认识到campylotropous适应性的意义，我们可以欣赏自然的复杂性以及植物为生存和繁荣而进化的创新方式。在我们继续探索植物学的奇迹时，像campylotropous这样的术语提醒我们自然界固有的美丽和独创性。 总而言之，campylotropous（弯曲的）种子体现了植物随着时间发展出的迷人适应性，展示了它们在多样环境中生存的韧性和能力。通过进一步研究和理解这样的概念，我们可以增强与自然的关系，并改善农业实践，为未来的世代确保可持续发展。