uniseriate

简明释义

英[/ˌjuːnɪˈsɪəriət/]美[/ˌjunɪˈsɪriət/]

adj. [植] 单列的

英英释义

单词用法

同义词

反义词

例句

1.However, Non-glandular hairs consist of 3-20 cells, they can be divided into 3 kinds: uniseriate, two-branched, three-branched and more branched arborization.

非腺毛由3—20个细胞组成，可分为三种类型：单列不分枝、二又分枝和三又及三又以上多分枝的树状分枝。

2.However, Non-glandular hairs consist of 3-20 cells, they can be divided into 3 kinds: uniseriate, two-branched, three-branched and more branched arborization.

非腺毛由3—20个细胞组成，可分为三种类型：单列不分枝、二又分枝和三又及三又以上多分枝的树状分枝。

3.The uniseriate 单列的 formation of epidermal cells protects the underlying tissues.

表皮细胞的单列的形成保护了下面的组织。

4.Botanists often study uniseriate 单列的 leaf structures to understand plant adaptations.

植物学家常常研究单列的叶片结构，以了解植物的适应性。

5.In histology, the uniseriate 单列的 structure of certain tissues can indicate specific functions.

在组织学中，某些组织的单列的结构可以指示特定功能。

6.The plant's leaves are arranged in a uniseriate 单列的 manner, allowing for maximum light absorption.

这种植物的叶子以单列的方式排列，以便最大限度地吸收光线。

7.The uniseriate 单列的 arrangement of cells in this specimen is crucial for its identification.

这个标本中细胞的单列的排列对其鉴定至关重要。

作文

In the study of plant anatomy, the term uniseriate refers to a structure that consists of a single row or layer of cells. This concept is particularly important when examining various types of tissues in plants, such as epidermal layers or vascular bundles. Understanding the significance of uniseriate arrangements helps botanists and researchers identify and classify different species based on their structural characteristics.For instance, many monocotyledonous plants exhibit uniseriate epidermal cells, which contribute to their unique adaptations in various environments. These single-layered cell arrangements can enhance light penetration and reduce water loss, making them highly efficient in their respective habitats. By studying these uniseriate structures, scientists can gain insights into how plants have evolved over time to survive and thrive in diverse ecological niches.Moreover, the concept of uniseriate is not limited to just the outer layers of plants. In vascular tissues, certain plants may display uniseriate xylem or phloem elements, which play crucial roles in the transportation of water and nutrients. The arrangement of these cells can influence the overall health and growth of the plant. For example, a uniseriate arrangement in xylem vessels may allow for more efficient water conduction, particularly in arid environments where every drop counts.Additionally, understanding uniseriate structures can aid in agricultural practices. Farmers and agronomists can utilize this knowledge to select crop varieties that are better suited for specific climatic conditions. By choosing plants with favorable uniseriate traits, they can improve crop yields and sustainability, contributing to food security.In conclusion, the term uniseriate encapsulates a fundamental aspect of plant biology that has far-reaching implications. From ecological adaptations to agricultural advancements, recognizing and studying uniseriate structures allows us to appreciate the complexity and diversity of plant life. As we continue to explore the intricacies of plant anatomy, the importance of uniseriate arrangements will undoubtedly remain a critical area of focus for both researchers and practitioners in the field of botany. Understanding this concept not only enhances our scientific knowledge but also informs practical applications that can benefit society as a whole.

在植物解剖学中，术语uniseriate指的是由一排或一层细胞组成的结构。这个概念在检查植物的各种组织时尤为重要，例如表皮层或维管束。理解uniseriate排列的意义有助于植物学家和研究人员根据其结构特征识别和分类不同的物种。例如，许多单子叶植物表现出uniseriate的表皮细胞，这有助于它们在各种环境中的独特适应。这些单层细胞排列可以增强光线穿透并减少水分流失，使它们在各自的栖息地中非常高效。通过研究这些uniseriate结构，科学家可以深入了解植物如何随着时间的推移进化以在多样的生态位中生存和繁荣。此外，uniseriate的概念不仅限于植物的外层。在维管组织中，某些植物可能表现出uniseriate的木质部或韧皮部元素，这在水分和养分的运输中起着至关重要的作用。这些细胞的排列可能会影响植物的整体健康和生长。例如，木质部导管中的uniseriate排列可能允许更有效的水分导输，特别是在干旱环境中，每一滴水都至关重要。此外，理解uniseriate结构可以帮助农业实践。农民和农艺师可以利用这一知识选择更适合特定气候条件的作物品种。通过选择具有有利于uniseriate特征的植物，他们可以提高作物产量和可持续性，从而促进粮食安全。总之，术语uniseriate概括了植物生物学的一个基本方面，具有深远的影响。从生态适应到农业进步，认识和研究uniseriate结构使我们能够欣赏植物生命的复杂性和多样性。随着我们继续探索植物解剖的复杂性，uniseriate排列的重要性无疑将继续成为植物学领域研究者和从业者关注的关键领域。理解这一概念不仅增强了我们的科学知识，也为可以惠及整个社会的实际应用提供了信息。