microorganism

简明释义

英[ˌmaɪkrəʊˈɔːɡənɪzəm]美[ˌmaɪkroʊˈɔːrɡənɪzəm]

n. [微] 微生物；微小动植物

英英释义

单词用法

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反义词

例句

1.OBJECTIVE to screen neutral sphingomyelinase inhibitors from the metabolites of microorganism.

目的从微生物代谢物中筛选中性鞘磷脂酶抑制剂。

2.Results In recent a year, members in 82.1% of families caught diseases caused by microorganism infection.

结果最近一年中，82 .1%家庭成员曾发生与微生物感染有关疾病；

3.OBJECTIVE To introduce microorganism test by using one off close filter.

目的介绍用封闭式过滤器(一次性)进行控制菌检查。

4.Abstract: The quantity change regularity of microorganism was studied.

文摘：研究了序批式生物膜反应器中微生物量的变化特点。

5.The electron beams work by interfering with microorganism DNA.

电子束通过干扰微生物DNA从而发挥作用。

6.Arsenic can be transformed into volatilizable arsenic by microorganism in the soil and transferred to atmosphere.

微生物的作用可以使土壤中砷转化为气态砷化物而挥发到大气中。

7.Based on the experiment of biofilm A/O process, the feasibility of brief-nitrification in attached microorganism system is studied.

基于菌膜厌氧好氧工艺法流程试验，对附着微生物简短硝化的可行性进行了研究。

8.The study of microorganisms has led to significant advancements in medicine.

对微生物的研究已经推动了医学的重大进展。

9.Many microorganisms are essential for the fermentation process in food production.

许多微生物在食品生产中的发酵过程中是必不可少的。

10.Some microorganisms can cause diseases, while others are beneficial to human health.

一些微生物可以引起疾病，而另一些则对人类健康有益。

11.Researchers are exploring how microorganisms can be used in bioremediation.

研究人员正在探索如何利用微生物进行生物修复。

12.The presence of certain microorganisms can indicate the quality of soil.

某些微生物的存在可以指示土壤的质量。

作文

Microorganisms are tiny living organisms that can only be seen under a microscope. They include bacteria, viruses, fungi, and protozoa. Despite their small size, microorganisms (微生物) play a crucial role in our ecosystem. They are essential for processes such as decomposition, nutrient cycling, and even the production of oxygen. In fact, it is estimated that microorganisms account for a significant portion of the biomass on Earth. One of the most fascinating aspects of microorganisms (微生物) is their diversity. There are millions of different types of microorganisms, each with unique characteristics and functions. For instance, some bacteria are beneficial and help in digesting food in our intestines, while others can cause diseases. This dual nature of microorganisms (微生物) makes them a subject of intense study in microbiology, which is the branch of science that focuses on these tiny entities. The importance of microorganisms (微生物) extends beyond health and disease. In agriculture, they are used to improve soil fertility and crop yields. Certain bacteria can fix nitrogen from the atmosphere, making it available to plants. This symbiotic relationship is vital for sustainable farming practices. Additionally, microorganisms (微生物) are used in bioremediation, a process that uses living organisms to remove or neutralize contaminants from the environment. For example, certain fungi can break down toxic substances in polluted soils, making them a powerful tool for environmental cleanup. In the field of biotechnology, microorganisms (微生物) are harnessed to produce antibiotics, enzymes, and other valuable products. The discovery of penicillin, derived from the mold Penicillium, revolutionized medicine and has saved countless lives. Today, scientists continue to explore the potential of microorganisms (微生物) for developing new therapies and industrial applications. However, not all microorganisms (微生物) are beneficial. Pathogenic microorganisms can lead to serious health issues, including infections and diseases. Understanding how these harmful microorganisms (微生物) operate is crucial for developing effective treatments and preventive measures. Vaccination, sanitation, and proper hygiene are essential strategies to combat the spread of infectious diseases caused by pathogenic microorganisms (微生物). Furthermore, the study of microorganisms (微生物) also has implications for climate change. Some microorganisms are involved in greenhouse gas production, while others can help sequester carbon dioxide. Research into the roles of these tiny organisms in the global carbon cycle is vital for understanding and mitigating climate change impacts. In conclusion, microorganisms (微生物) are integral to life on Earth. Their contributions to health, agriculture, biotechnology, and environmental sustainability cannot be overstated. As we continue to explore the vast world of microorganisms (微生物), we uncover more about their potential benefits and challenges. A deeper understanding of these tiny organisms will undoubtedly lead to advancements in science, medicine, and environmental management, highlighting the importance of studying and respecting the unseen life forms that share our planet.

微生物是只能通过显微镜观察到的微小生物。它们包括细菌、病毒、真菌和原生动物。尽管体积微小，微生物在我们的生态系统中扮演着至关重要的角色。它们对于分解、养分循环甚至氧气的生产等过程都是必不可少的。事实上，估计微生物占地球生物量的相当大一部分。 微生物的一个最迷人的方面是它们的多样性。有数百万种不同类型的微生物，每种都有独特的特征和功能。例如，一些细菌是有益的，帮助我们肠道消化食物，而其他细菌则可能导致疾病。这种双重性质使得微生物成为微生物学研究的重点，微生物学是专注于这些微小生物的科学分支。 微生物的重要性不仅限于健康和疾病。在农业中，它们被用来改善土壤肥力和作物产量。某些细菌能够从大气中固定氮，使其对植物可用。这种共生关系对可持续农业实践至关重要。此外，微生物还被用于生物修复，这是利用生物体去除或中和环境污染物的过程。例如，某些真菌可以分解污染土壤中的有毒物质，使其成为环境清理的强大工具。 在生物技术领域，微生物被利用来生产抗生素、酶和其他有价值的产品。青霉素的发现，源自霉菌青霉，彻底改变了医学，并拯救了无数生命。今天，科学家们继续探索微生物在开发新疗法和工业应用中的潜力。 然而，并非所有的微生物都是有益的。致病性微生物可能导致严重的健康问题，包括感染和疾病。理解这些有害微生物的运作方式对于开发有效的治疗和预防措施至关重要。疫苗接种、卫生和适当的卫生措施是对抗由致病性微生物引起的传染病传播的基本策略。 此外，微生物的研究也对气候变化产生了影响。一些微生物参与温室气体的产生，而其他微生物则可以帮助固定二氧化碳。研究这些微小生物在全球碳循环中的作用对于理解和缓解气候变化的影响至关重要。 总之，微生物是地球生命不可或缺的一部分。它们对健康、农业、生物技术和环境可持续性的贡献不容小觑。随着我们继续探索微生物的广阔世界，我们会发现更多关于它们潜在的好处和挑战。对这些微小生物的更深入理解无疑将推动科学、医学和环境管理的进步，突显出研究和尊重与我们共享星球的看不见的生命形式的重要性。