ergastic

简明释义

英[ˈɜrɡæstɪk]美[ˈɜrɡæstɪk]

[细胞] 后含的

英英释义

单词用法

同义词

反义词

例句

1.It is well known that the developmental inherent rhythm occurs during the development of secondary vascular tissue. Synchronously, the cell ergastic substance shows dynamic changes.

众所周知，树木次生维管组织的发育具有内在的节律性，与此同时维管组织的细胞内含物也会发生动态变化。

2.It is well known that the developmental inherent rhythm occurs during the development of secondary vascular tissue. Synchronously, the cell ergastic substance shows dynamic changes.

众所周知，树木次生维管组织的发育具有内在的节律性，与此同时维管组织的细胞内含物也会发生动态变化。

3.With the growing of Astragalus the content of cell ergastic substance increases gradually, and the effective components accumulate widely in parenchyma cells.

同种黄芪随着生长，细胞后含物的含量逐渐增加；有效成分广泛积累在薄壁细胞。

4.In the study of plant physiology, the term ergastic 代谢产物 refers to the non-living materials produced by cells.

在植物生理学研究中，术语ergastic 代谢产物指的是细胞产生的非生命材料。

5.The ergastic 代谢产物 found in the seeds can influence their germination rate.

种子中的ergastic 代谢产物可以影响其发芽率。

6.Researchers are investigating how ergastic 代谢产物 contribute to the overall health of the ecosystem.

研究人员正在调查ergastic 代谢产物如何促进生态系统的整体健康。

7.In histology, ergastic 代谢产物 are often examined to understand cellular functions better.

在组织学中，ergastic 代谢产物常常被检查以更好地理解细胞功能。

8.Some ergastic 代谢产物 can be toxic to other organisms in the environment.

一些ergastic 代谢产物可能对环境中的其他生物有毒。

作文

In the study of biology, particularly in the field of botany, the term ergastic (贮存物质) refers to the non-protoplasmic substances found within plant cells. These substances can include various materials such as starch, oils, and crystals, which play significant roles in the life processes of plants. Understanding ergastic materials is crucial for students and researchers alike, as they provide insights into how plants store energy and manage their resources. For instance, starch, a common ergastic substance, serves as a vital energy reserve that plants utilize during periods of low sunlight or when water is scarce. The significance of ergastic substances extends beyond mere energy storage. In many cases, these materials are involved in the plant's defense mechanisms. Some ergastic compounds can deter herbivores or inhibit the growth of competing plants. For example, certain crystals that form in plant tissues can be sharp and may discourage animals from feeding on them. This dual role of ergastic materials—both as energy reserves and as protective agents—highlights the complexity of plant biology and the intricate strategies plants employ to survive and thrive in their environments. Moreover, the study of ergastic substances is not limited to academic pursuits; it has practical applications in agriculture and horticulture. By understanding how plants produce and utilize ergastic materials, farmers can optimize crop yields and improve plant health. For instance, selecting plant varieties with favorable ergastic characteristics can lead to more resilient crops that are better able to withstand environmental stresses. In addition to their biological importance, ergastic materials also have economic implications. Many of these substances are harvested for human use. Starch, for example, is a key ingredient in numerous food products and industrial applications. Oils extracted from seeds, which are another type of ergastic material, are used in cooking, cosmetics, and biofuels. The ability to harness and utilize these ergastic substances is a testament to the interconnectedness of biology and industry. Furthermore, research into ergastic materials is ongoing, with scientists exploring new ways to enhance their properties for various applications. This could involve genetic engineering to increase the production of beneficial ergastic compounds or developing new agricultural practices that promote the accumulation of these substances in crops. As our understanding of plant biology deepens, the potential for innovation in this area continues to grow. In conclusion, the term ergastic (贮存物质) encapsulates a fascinating aspect of plant biology that is essential for both ecological balance and human industry. From energy storage to defense mechanisms, ergastic substances play multifaceted roles in the lives of plants. Their study not only enriches our knowledge of botany but also opens up avenues for practical applications that can benefit society. As we continue to explore the world of ergastic materials, we uncover the remarkable ways in which plants adapt to their surroundings and contribute to our lives.

在生物学的研究中，特别是在植物学领域，术语ergastic（贮存物质）指的是植物细胞内的非原生质物质。这些物质可以包括淀粉、油脂和晶体等多种材料，它们在植物的生命过程中发挥着重要作用。理解ergastic材料对于学生和研究人员来说至关重要，因为它们提供了关于植物如何储存能量和管理资源的深刻见解。例如，淀粉作为一种常见的ergastic物质，充当植物在阳光不足或缺水时期的重要能量储备。 ergastic物质的重要性不仅限于能量储存。在许多情况下，这些材料还参与植物的防御机制。一些ergastic化合物能够阻止食草动物或抑制竞争植物的生长。例如，某些在植物组织中形成的晶体可能是尖锐的，从而可能阻止动物进食。这种ergastic材料的双重角色——既作为能量储备又作为保护剂——突显了植物生物学的复杂性以及植物在其环境中生存和繁衍的复杂策略。 此外，ergastic物质的研究不仅限于学术追求；它在农业和园艺中也有实际应用。通过理解植物如何生产和利用ergastic材料，农民可以优化作物产量，提高植物健康。例如，选择具有良好ergastic特性的植物品种可以导致更具韧性的作物，这些作物更能承受环境压力。 除了生物学的重要性外，ergastic材料还具有经济意义。这些物质中的许多被收获以供人类使用。例如，淀粉是许多食品和工业应用中的关键成分。从种子中提取的油脂，作为另一种ergastic材料，被用于烹饪、化妆品和生物燃料。能够利用这些ergastic物质是生物学与工业相互关联的证明。 此外，对ergastic材料的研究仍在进行中，科学家们正在探索增强其特性以便于各种应用的新方法。这可能涉及基因工程，以增加有益的ergastic化合物的生产，或开发促进这些物质在作物中积累的新农业实践。随着我们对植物生物学理解的加深，在这一领域的创新潜力也在不断增长。 总之，术语ergastic（贮存物质）概括了植物生物学的一个迷人方面，这对生态平衡和人类工业都是至关重要的。从能量储存到防御机制，ergastic物质在植物生活中发挥着多方面的作用。它们的研究不仅丰富了我们对植物学的知识，也为能够造福社会的实际应用开辟了途径。随着我们继续探索ergastic材料的世界，我们揭示了植物如何适应其环境并为我们的生活做出贡献的非凡方式。