fibrovascular

简明释义

英[ˌfaɪbrəʊˈvæskjʊlə(r)]美[ˌfaɪbroʊˈvæskjələr]

adj. 维管组织的

英英释义

单词用法

同义词

反义词

例句

1.In contrast, low grade papillary tumors demonstrate densely arranged but normal-shaped small cells extending outward from fibrovascular cores.

相反，低度恶性乳状瘤排列密集，但正常形状的小细胞从纤维血管核心向外蔓延。

2.When all vitreous traction is relieved and the posterior vitreous surface is excised, further growth of fibrovascular tissue from the retina is rare.

当解除全部玻璃体牵引并切除后玻璃面后，从视网膜再生出纤维血管组织是罕见的。

3.Pterygium is a triangular sheet of fibrovascular tissue that invades the clear cornea from the bulbar conjunctiva, and has a high recurrence rate after simple excision.

翼状胬肉是一三角形纤维血管组织，从球结膜侵入透明角膜，在单纯切除术后具有很高的复发率。

4.Objective : Pterygium formation is the process of the arising and extending of wing-shaped fold of fibrovascular tissue from the interpalpebral conjunctiva to the cornea.

目的：翼状胬肉是指睑裂区的增殖性组织自结膜长至角膜的一系列过程。

5.Objective : Pterygium formation is the process of the arising and extending of wing-shaped fold of fibrovascular tissue from the interpalpebral conjunctiva to the cornea.

目的：翼状胬肉是指睑裂区的增殖性组织自结膜长至角膜的一系列过程。

6.Pterygia are caused by collagen degeneration and fibrovascular proliferation.

翼状胬肉因胶原变性及纤维血管增生而产生。

7.Therefore, some blinding conditions characterized by vitreous hemorrhage, fibrovascular tissue growth and retinal detachment can be reversed.

因而一些以玻璃体出血、纤维血管组织生长及视网膜脱离等为特征的致盲情况可获逆转。

8.The plant's stem is supported by a strong fibrovascular 纤维血管的 system that transports nutrients.

植物的茎由一个强大的纤维血管的系统支撑，运输养分。

9.The fibrovascular 纤维血管的 tissue plays a significant role in the growth of vascular plants.

该纤维血管的组织在维管植物的生长中起着重要作用。

10.The fibrovascular 纤维血管的 arrangement in leaves helps maximize photosynthesis efficiency.

叶片中的纤维血管的排列有助于最大化光合作用效率。

11.In botany, fibrovascular 纤维血管的 bundles are crucial for the transport of water and minerals.

在植物学中，纤维血管的束对水和矿物质的运输至关重要。

12.Research shows that fibrovascular 纤维血管的 tissues can regenerate after damage.

研究表明，纤维血管的组织在受损后可以再生。

作文

The study of plant biology reveals a fascinating complexity in the structures that support and sustain life. Among these structures, the term fibrovascular refers to the combination of fibrous and vascular tissues that are essential for the growth and development of plants. Understanding the role of fibrovascular tissues can provide insights into how plants transport nutrients and water, as well as how they maintain structural integrity. In plants, fibrovascular tissues consist primarily of two components: xylem and phloem. Xylem is responsible for the upward transport of water and dissolved minerals from the roots to the leaves, while phloem transports the products of photosynthesis, such as sugars, from the leaves to other parts of the plant. This dual system of transport is crucial for the overall health and functionality of the plant. Without efficient fibrovascular tissues, a plant would struggle to survive, as it would not be able to effectively distribute essential resources throughout its structure.Furthermore, the strength provided by fibrovascular tissues is equally important. The fibrous elements within these tissues contribute to the rigidity and resilience of the plant. For example, in trees, the lignified cells in the xylem help support the weight of the trunk and branches, allowing them to reach great heights. This structural support also enables plants to withstand various environmental stresses, such as wind and heavy rainfall.The significance of fibrovascular tissues extends beyond individual plants; it also plays a vital role in ecosystems. Healthy plant populations contribute to soil stability, prevent erosion, and provide habitats for countless organisms. In addition, the complex interactions between different plant species often rely on their fibrovascular systems, as they compete for light, water, and nutrients. The presence of diverse plant life enhances biodiversity, which is essential for resilient ecosystems.Research into fibrovascular tissues has implications for agriculture and horticulture as well. By understanding how these tissues function, scientists and farmers can develop better practices for crop management. For instance, selecting for varieties with more efficient fibrovascular systems may lead to crops that are more drought-resistant or capable of thriving in less-than-ideal soil conditions. This knowledge is increasingly important in the face of climate change and the need for sustainable food production.In conclusion, the term fibrovascular encompasses a critical aspect of plant biology that combines both structural and functional elements. The interplay between xylem and phloem within fibrovascular tissues enables plants to thrive in diverse environments, supports ecosystems, and informs agricultural practices. As we continue to explore the intricacies of plant life, the importance of fibrovascular tissues will undoubtedly remain a focal point of research and application. Understanding these tissues not only enhances our knowledge of biology but also equips us with the tools needed to address some of the most pressing challenges in our world today.

植物生物学的研究揭示了支撑和维持生命的结构的迷人复杂性。在这些结构中，术语fibrovascular指的是纤维组织和维管组织的结合，这对植物的生长和发育至关重要。理解fibrovascular组织的作用可以提供关于植物如何运输营养和水分，以及如何维持结构完整性的见解。在植物中，fibrovascular组织主要由两种成分组成：木质部和韧皮部。木质部负责将水和溶解的矿物质从根部向上运输到叶子，而韧皮部则将光合作用的产物，如糖，从叶子运输到植物的其他部分。这种双重运输系统对植物的整体健康和功能至关重要。如果没有有效的fibrovascular组织，植物将难以生存，因为它将无法有效地在其结构中分配基本资源。此外，fibrovascular组织提供的强度同样重要。这些组织中的纤维元素有助于植物的刚性和韧性。例如，在树木中，木质部中的木质化细胞帮助支撑树干和树枝的重量，使其能够达到很高的高度。这种结构支持也使植物能够承受各种环境压力，如风和大雨。fibrovascular组织的重要性不仅限于单个植物；它在生态系统中也发挥着至关重要的作用。健康的植物群落有助于土壤稳定，防止侵蚀，并为无数生物提供栖息地。此外，不同植物种类之间的复杂相互作用往往依赖于它们的fibrovascular系统，因为它们争夺光、水和营养。多样的植物生命的存在增强了生物多样性，而生物多样性对于生态系统的弹性至关重要。对fibrovascular组织的研究对农业和园艺也有重要意义。通过了解这些组织的功能，科学家和农民可以制定更好的作物管理实践。例如，选择具有更高效的fibrovascular系统的品种可能会导致更耐旱或能够在不理想的土壤条件下茁壮成长的作物。在气候变化和可持续食品生产需求日益增加的背景下，这一知识变得愈发重要。总之，术语fibrovascular涵盖了植物生物学的一个关键方面，结合了结构和功能的元素。木质部和韧皮部之间的相互作用使植物能够在多样的环境中繁荣，支持生态系统，并为农业实践提供信息。随着我们继续探索植物生命的复杂性，fibrovascular组织的重要性无疑将继续成为研究和应用的重点。理解这些组织不仅增强了我们对生物学的知识，还为我们提供了应对当今世界一些最紧迫挑战所需的工具。