accessory archeopyle suture

简明释义

伴生原孔缝合线;

英英释义

例句

1.Researchers noted that the accessory archeopyle suture can be crucial for identifying certain species.

研究人员指出，附属原始孔缝对于识别某些物种至关重要。

2.Her research focused on how the accessory archeopyle suture affects reproductive strategies.

她的研究集中在附属原始孔缝如何影响繁殖策略。

3.The presence of an accessory archeopyle suture in the specimen indicates a unique evolutionary trait.

样本中存在的附属原始孔缝表明了一种独特的进化特征。

4.The accessory archeopyle suture was examined under a microscope to study its structure.

在显微镜下检查了附属原始孔缝以研究其结构。

5.In paleontology, the accessory archeopyle suture serves as a marker for classification.

在古生物学中，附属原始孔缝作为分类的标志。

作文

The study of cellular structures and their functions is a fascinating field that combines biology, chemistry, and even physics. One of the more intriguing aspects of this study is the examination of specific cellular components, such as the accessory archeopyle suture. This term may sound complex, but it refers to a particular feature found in certain types of cells, particularly in algae. Understanding this structure can provide insights into evolutionary biology and the diversity of life forms on our planet.To break down the term, we first consider 'archeopyle.' In biological terms, the archeopyle is a specialized opening through which the contents of a cell are released. It plays a crucial role in the reproductive cycle of certain organisms, allowing for the dispersal of spores or gametes. The term 'accessory' indicates that this structure is not the primary feature but rather an additional component that supports or enhances the function of the archeopyle.The accessory archeopyle suture is thus an additional seam or junction associated with the archeopyle. It may serve various purposes, such as facilitating the release of cellular contents or providing structural integrity to the cell during the reproductive process. In algae, for instance, this structure can be vital for the successful reproduction and survival of the species, as it ensures that the reproductive cells can be efficiently released into the environment.Research into the accessory archeopyle suture has revealed much about the evolutionary adaptations of different organisms. For example, some species of algae have developed unique configurations of this structure that allow them to thrive in specific environments, such as extreme temperatures or varying salinity levels. This adaptability is a testament to the intricate relationship between form and function in biology.Moreover, studying the accessory archeopyle suture can also shed light on the evolutionary history of algae and related organisms. By comparing this structure across different species, scientists can trace the lineage and understand how certain traits have evolved over time. This comparative analysis not only deepens our understanding of individual species but also contributes to the broader picture of biodiversity on Earth.In conclusion, while the term accessory archeopyle suture may seem daunting, it encapsulates a significant aspect of cellular biology that highlights the complexity and beauty of life. By exploring such structures, researchers can uncover the intricacies of life’s evolutionary pathways and the mechanisms that enable organisms to adapt and flourish in their environments. The study of the accessory archeopyle suture is just one example of how delving into the microscopic world can yield profound insights into the nature of life itself.

细胞结构及其功能的研究是一个迷人的领域，它结合了生物学、化学甚至物理学。这个研究中一个更有趣的方面是对特定细胞成分的检查，例如附属原孔缝合线。这个术语听起来可能很复杂，但它指的是某些类型细胞中特有的结构，尤其是在藻类中。理解这一结构可以为进化生物学和我们星球上生命形式的多样性提供见解。首先，我们考虑“原孔”一词。在生物学术语中，原孔是一个特殊的开口，通过它细胞的内容物被释放。它在某些生物的繁殖周期中起着至关重要的作用，允许孢子或配子的散布。“附属”一词表明，这一结构并不是主要特征，而是一个额外的组成部分，支持或增强原孔的功能。因此，附属原孔缝合线是与原孔相关的一个附加接缝或连接。它可能发挥各种作用，例如促进细胞内容物的释放或在繁殖过程中为细胞提供结构完整性。例如，在藻类中，这一结构对于物种的成功繁殖和生存至关重要，因为它确保了生殖细胞能够有效地释放到环境中。对附属原孔缝合线的研究揭示了不同生物的进化适应性。例如，一些藻类物种已经发展出这一结构的独特配置，使它们能够在特定环境中生存，如极端温度或不同盐度水平。这种适应能力证明了生物学中形态与功能之间复杂的关系。此外，研究附属原孔缝合线还可以揭示藻类及相关生物的进化历史。通过比较不同物种之间的这一结构，科学家们可以追踪谱系，并了解某些特征是如何随着时间的推移而演变的。这种比较分析不仅加深了我们对个别物种的理解，还有助于更全面地了解地球上的生物多样性。总之，虽然附属原孔缝合线这一术语似乎令人畏惧，但它概括了细胞生物学的一个重要方面，突显了生命的复杂性和美丽。通过探索这些结构，研究人员可以揭示生命进化路径的复杂性以及使生物适应和繁荣其环境的机制。对附属原孔缝合线的研究只是深入微观世界如何带来对生命本质深刻见解的一个例子。