myxomycete

简明释义

英[/mɪkˈsɒməˌsaɪt/]美[/mɪkˈsɒməˌsaɪt/]

粘菌

黏菌

英英释义

单词用法

同义词

反义词

例句

1.To study on microstructure and ultrastructure may provide some information for myxomycete taxonomy.

对它进行显微结构和亚显微结构的研究，试图为它的归属问题提供依据。

2.To study on microstructure and ultrastructure may provide some information for myxomycete taxonomy.

对它进行显微结构和亚显微结构的研究，试图为它的归属问题提供依据。

3.Researchers are investigating how myxomycete 粘菌 can contribute to nutrient cycling in ecosystems.

研究人员正在调查myxomycete 粘菌如何促进生态系统中的养分循环。

4.The unique life cycle of myxomycete 粘菌 makes it a fascinating subject for biologists.

独特的生命周期使得myxomycete 粘菌成为生物学家们感兴趣的研究对象。

5.In his presentation, he highlighted the role of myxomycete 粘菌 in forest ecosystems.

在他的演讲中，他强调了myxomycete 粘菌在森林生态系统中的作用。

6.The study of myxomycete 粘菌 diversity in tropical forests revealed many new species.

对热带森林中myxomycete 粘菌多样性的研究揭示了许多新物种。

7.Some species of myxomycete 粘菌 can be found on decaying wood and leaf litter.

一些myxomycete 粘菌种类可以在腐烂的木头和落叶上找到。

作文

In the vast and intricate world of biology, there are countless organisms that capture our imagination. One such fascinating group is the myxomycete, commonly known as slime molds. These unique creatures often thrive in damp, decaying environments, where they play a crucial role in the ecosystem by decomposing organic matter. The study of myxomycete has revealed much about their life cycle, which includes both unicellular and multicellular stages, showcasing an incredible adaptability to their surroundings.The life cycle of myxomycete begins when spores germinate to form amoeba-like cells called myxamoebae. These cells can move and feed on bacteria and other microorganisms, making them important players in nutrient cycling within their habitats. When environmental conditions become unfavorable, these myxamoebae can aggregate to form a multicellular structure known as a plasmodium. This stage is characterized by a mass of protoplasm that can move and grow, allowing the myxomycete to explore its environment more effectively.One of the most intriguing aspects of myxomycete is their ability to respond to environmental stimuli. For instance, when food sources are abundant, they will remain in their amoeboid form, but when food becomes scarce, they will congregate to form a plasmodium. This remarkable behavior demonstrates a level of organization and communication that is quite sophisticated for such simple organisms. Additionally, the plasmodium can eventually produce fruiting bodies, which release spores into the environment, thus continuing the life cycle.The ecological importance of myxomycete cannot be overstated. As decomposers, they help break down dead plant material, returning nutrients to the soil and promoting healthy ecosystem dynamics. Their presence indicates a rich and diverse habitat, as they require specific conditions to thrive. Moreover, researchers have studied myxomycete for insights into cell differentiation and communication, which can have implications for understanding complex biological processes in higher organisms.Despite their significance, myxomycete are often overlooked in the broader study of biodiversity. Many people may not even be aware of their existence, as they are not as visually striking as flowers or animals. However, their unique life cycles and ecological roles make them worthy of attention. As we continue to explore the wonders of nature, it is essential to recognize and appreciate the contributions of all organisms, including the humble myxomycete.In conclusion, the world of myxomycete offers a glimpse into the complexity and interconnectedness of life. These extraordinary organisms remind us that even the smallest and seemingly simplest forms of life can have profound impacts on their ecosystems. By studying myxomycete, we gain a deeper understanding of biological processes and the delicate balance of nature. It is crucial to preserve the environments where they thrive, ensuring that future generations can continue to learn from and appreciate these remarkable organisms.

在生物学的广阔而复杂的世界中，有无数生物引起我们的想象。其中一个迷人的群体是粘菌，通常被称为粘液霉。这些独特的生物通常在潮湿、腐烂的环境中繁衍生息，在生态系统中发挥着重要作用，通过分解有机物质来维持生态平衡。对粘菌的研究揭示了它们的生命周期，包括单细胞和多细胞阶段，展示了它们对环境的惊人适应能力。粘菌的生命周期始于孢子发芽形成类似变形虫的细胞，称为粘菌变形体。这些细胞可以移动并以细菌和其他微生物为食，使它们成为其栖息地内营养循环的重要参与者。当环境条件变得不利时，这些粘菌变形体可以聚集形成一种多细胞结构，称为原生质体。这个阶段的特点是一个能够移动和生长的原生质团，使得粘菌能够更有效地探索其环境。粘菌最引人入胜的方面之一是它们对环境刺激的反应能力。例如，当食物来源丰富时，它们将保持在变形体形式，但当食物稀缺时，它们将聚集形成原生质体。这种显著的行为展示了一种组织和交流的水平，对于如此简单的生物来说相当复杂。此外，原生质体最终可以产生果实体，释放孢子到环境中，从而继续生命周期。粘菌的生态重要性不容小觑。作为分解者，它们帮助分解死去的植物材料，将养分返回土壤，促进健康的生态系统动态。它们的存在表明栖息地丰富且多样，因为它们需要特定的条件才能生存。此外，研究人员还研究了粘菌以获取有关细胞分化和通信的见解，这可能对理解高等生物中的复杂生物过程具有重要意义。尽管它们的重要性，粘菌在更广泛的生物多样性研究中往往被忽视。许多人可能甚至不知道它们的存在，因为它们没有像花朵或动物那样引人注目。然而，它们独特的生命周期和生态角色使它们值得关注。当我们继续探索自然的奇迹时，认识和欣赏所有生物的贡献，包括谦逊的粘菌，是至关重要的。总之，粘菌的世界提供了一个关于生命复杂性和相互联系的窗口。这些非凡的生物提醒我们，即使是最小和看似最简单的生命形式也能对其生态系统产生深远的影响。通过研究粘菌，我们加深了对生物过程和自然微妙平衡的理解。保护它们生存的环境至关重要，以确保未来的世代能够继续学习和欣赏这些出色的生物。