endopleura

简明释义

英[ˌɛn.dəˈplʊərə]美[ˌɛn.dəˈplʊərə]

n. 内种皮

英英释义

单词用法

同义词

反义词

例句

1.Difference of cell arrangement and shape of episperm, mesosperm and endopleura became obvious during seed development.

在种实发育过程中，外种皮、中种皮和内种皮细胞排列及形状的差异逐渐明显。

2.Difference of cell arrangement and shape of episperm, mesosperm and endopleura became obvious during seed development.

在种实发育过程中，外种皮、中种皮和内种皮细胞排列及形状的差异逐渐明显。

3.The structure of the plant's leaf includes an important layer known as the endopleura.

植物叶子的结构包括一个重要的层，称为内层。

4.Researchers found that the endopleura plays a crucial role in photosynthesis.

研究人员发现，内层在光合作用中起着至关重要的作用。

5.In studying plant anatomy, we must not overlook the function of the endopleura.

在研究植物解剖学时，我们不能忽视内层的功能。

6.The endopleura helps in the transportation of nutrients within the plant.

内层有助于植物内部营养的运输。

7.A healthy endopleura is essential for the overall health of the plant.

健康的内层对植物的整体健康至关重要。

作文

The study of plant anatomy reveals a fascinating world of structures and functions that are essential for the survival of various species. One such structure is the endopleura, which plays a critical role in the overall physiology of certain plants. The term endopleura refers to the inner layer of tissue found in some plants, particularly those belonging to specific families of flowering plants. This layer is often involved in the transport of nutrients and water, as well as providing structural support to the plant. Understanding the function of the endopleura can help us appreciate how plants adapt to their environments and maintain their health. In many ways, the endopleura can be compared to the circulatory system in animals. Just as arteries and veins transport blood throughout the body, the endopleura facilitates the movement of essential substances within the plant. For example, it helps in the distribution of carbohydrates produced during photosynthesis, ensuring that every part of the plant receives the energy it needs to grow and thrive. Without an effective endopleura, plants would struggle to survive, especially in challenging conditions where resources may be limited. Moreover, the endopleura is not just a passive conduit; it actively participates in the plant's response to environmental stresses. When faced with drought or nutrient deficiency, the endopleura can alter its permeability to optimize resource usage. This adaptability is crucial for the survival of many plant species, particularly those in arid regions where water is scarce. By studying the endopleura, scientists can gain insights into how plants cope with stress, which could inform agricultural practices and improve crop resilience. Research on the endopleura has also highlighted its importance in plant evolution. Different plant species have developed unique adaptations related to their endopleura, reflecting their evolutionary history and ecological niches. For instance, some plants have evolved thicker endopleura to store more water, while others have developed specialized cells within this layer to enhance nutrient absorption. These variations illustrate the incredible diversity of life on Earth and the intricate relationships between organisms and their environments. In conclusion, the endopleura is a vital component of plant anatomy that deserves more attention in both scientific research and educational contexts. By understanding its role in nutrient transport, stress response, and evolutionary adaptation, we can foster a deeper appreciation for the complexity of plant life. The study of the endopleura not only enriches our knowledge of botany but also has practical implications for agriculture and conservation efforts. As we continue to explore the wonders of the natural world, let us not overlook the significance of structures like the endopleura, which are essential for the health and sustainability of our planet's ecosystems.

植物解剖学的研究揭示了一个迷人的结构和功能的世界，这些结构和功能对各种物种的生存至关重要。其中一个结构是endopleura，它在某些植物的整体生理中发挥着关键作用。术语endopleura指的是某些植物内部组织的内层，特别是属于特定开花植物科的植物。这个层通常参与营养和水分的运输，同时为植物提供结构支持。了解endopleura的功能可以帮助我们欣赏植物如何适应环境并维持健康。 在许多方面，endopleura可以与动物的循环系统进行比较。就像动脉和静脉在体内运输血液一样，endopleura促进植物内必需物质的移动。例如，它有助于分配在光合作用过程中产生的碳水化合物，确保植物的每个部分都能获得其生长和繁荣所需的能量。没有有效的endopleura，植物将难以生存，尤其是在资源可能有限的困难条件下。 此外，endopleura不仅仅是一个被动的通道；它积极参与植物对环境压力的反应。当面临干旱或营养缺乏时，endopleura可以改变其通透性，以优化资源使用。这种适应性对于许多植物物种的生存至关重要，尤其是那些在水源稀缺的干旱地区。通过研究endopleura，科学家们可以深入了解植物如何应对压力，这可以为农业实践提供信息，提高作物的抗逆性。 对endopleura的研究还突显了它在植物进化中的重要性。不同植物物种已经发展出与其endopleura相关的独特适应性，反映了它们的进化历史和生态位。例如，一些植物已经进化出更厚的endopleura来储存更多的水，而另一些植物则在这一层内发展出专门的细胞以增强营养吸收。这些变异展示了地球生命的惊人多样性以及生物与其环境之间复杂的关系。 总之，endopleura是植物解剖学中的一个重要组成部分，值得在科学研究和教育背景中给予更多关注。通过理解它在营养运输、压力响应和进化适应中的作用，我们可以培养对植物生命复杂性的更深刻欣赏。对endopleura的研究不仅丰富了我们对植物学的知识，还对农业和保护工作具有实际意义。随着我们继续探索自然界的奇观，让我们不要忽视像endopleura这样的结构的重要性，它们对我们星球生态系统的健康和可持续性至关重要。