thiobacillus

简明释义

英[ˌθaɪəʊbəˈsɪləs]美[ˌθaɪoʊbəˈsɪləs]

n. [微] 硫杆菌；[微] 产硫酸杆菌

复 数 t h i o b a c i l l i

英英释义

单词用法

同义词

反义词

例句

1.The method of mutation breeding and the current research situation of Thiobacillus ferrous oxide are summarized, and some problems in the process of breeding are discussed.

综述了氧化亚铁硫杆菌诱变育种的方法以及诱变育种的研究现状，并对诱变育种过程中的一些问题进行了探讨。

2.Thiobacillus ferrooxidans are used to leach Ni from nicopyrite.

采用氧化亚铁硫杆菌从镍黄铁矿中浸出镍。

3.The microwave radiation mutation of the thiobacillus ferrooxidans, called T.

研究微波辐照诱变氧化铁硫杆菌T。

4.The research progresses of thiobacillus corrosion on concrete in recent years are reviewed, and the corrosion mechanism is also introduced.

总结了近年来混凝土硫酸杆菌腐蚀的研究进展。

5.The stable bio-membrane came into being after inoculating a strain of Thiobacillus thioparus sp in aerobic up-flow packed tower.

在升流式填料塔中，通过接种排硫硫杆菌形成稳定生物膜。

6.The research of thiobacillus corrosion on concrete can be roughly divided into two groups: bacteria simulation tests and exposure tests in situ.

针对混凝土硫酸杆菌腐蚀的研究方法分为细菌模拟测试和现场暴露测试。

7.The method of mutation breeding and the current research situation of Thiobacillus ferrous oxide are summarized, and some problems in the process of breeding are discussed.

综述了氧化亚铁硫杆菌诱变育种的方法以及诱变育种的研究现状，并对诱变育种过程中的一些问题进行了探讨。

8.The results showed that aerobic strain was classified as Thiobacillus and anaerobic strain as Desulfotomaculum.

实验结果表明：好氧菌为硫杆菌属，厌氧菌为脱硫肠杆菌属。

9.The presence of thiobacillus can indicate high levels of sulfur in the environment.

存在thiobacillus可能表明环境中硫的含量较高。

10.In the soil, thiobacillus plays a vital role in the sulfur cycle.

在土壤中，thiobacillus在硫循环中发挥着重要作用。

11.Researchers are studying thiobacillus to improve bioremediation techniques.

研究人员正在研究thiobacillus以改善生物修复技术。

12.The bacterium thiobacillus is known for its ability to oxidize sulfur compounds.

细菌thiobacillus以其氧化硫化合物的能力而闻名。

13.Some species of thiobacillus are used in the mining industry for bioleaching.

一些thiobacillus物种被用于采矿行业的生物浸出。

作文

In the world of microbiology, various microorganisms play crucial roles in the ecosystem. One such microorganism is thiobacillus, a genus of bacteria that is known for its ability to oxidize sulfur compounds. This unique capability makes thiobacillus particularly important in biogeochemical cycles, especially in the sulfur cycle. These bacteria are often found in environments where sulfur is abundant, such as hot springs and sulfur mines. They thrive in acidic conditions, which is a characteristic feature of their habitat. The metabolic processes of thiobacillus involve the oxidation of inorganic sulfur compounds, converting them into sulfate. This transformation is vital for nutrient cycling, as it helps to make sulfur available to plants and other organisms in the ecosystem.The ecological significance of thiobacillus extends beyond just sulfur oxidation. These bacteria contribute to soil fertility and the health of aquatic ecosystems. By converting toxic sulfide into less harmful sulfate, thiobacillus plays a protective role in preventing the accumulation of harmful substances in the environment. Furthermore, the presence of thiobacillus in soil can enhance the availability of essential nutrients, promoting plant growth and supporting agricultural productivity.In addition to their ecological roles, thiobacillus species have been studied for their potential applications in biotechnology. For instance, they can be utilized in bioremediation processes to clean up environments contaminated with heavy metals or sulfur compounds. By harnessing the natural abilities of thiobacillus, scientists are exploring innovative solutions to address environmental challenges. This includes using these bacteria to treat wastewater or to recover valuable metals from mining waste.Moreover, the research on thiobacillus has implications for understanding microbial diversity and evolution. Studying these bacteria can provide insights into how microorganisms adapt to extreme environments and contribute to ecosystem resilience. As we face global challenges such as climate change and pollution, understanding the role of thiobacillus and similar microorganisms becomes increasingly important.In conclusion, thiobacillus represents a fascinating group of bacteria that are integral to both ecological balance and potential biotechnological applications. Their ability to oxidize sulfur compounds not only aids in nutrient cycling but also offers promising avenues for environmental management. As we continue to explore the microbial world, thiobacillus serves as a reminder of the intricate connections within ecosystems and the importance of preserving microbial diversity for future generations.

在微生物学的世界中，各种微生物在生态系统中发挥着至关重要的作用。其中一种微生物是thiobacillus，它是一种以氧化硫化合物而闻名的细菌属。这种独特的能力使得thiobacillus在生物地球化学循环中尤为重要，尤其是在硫循环中。这些细菌通常在硫丰富的环境中发现，例如温泉和硫矿。它们在酸性条件下茁壮成长，这也是它们栖息地的一个特征。thiobacillus的代谢过程涉及无机硫化合物的氧化，将其转化为硫酸盐。这一转化对养分循环至关重要，因为它有助于将硫提供给植物和生态系统中的其他生物。thiobacillus的生态重要性不仅限于硫的氧化。这些细菌有助于土壤肥力和水生生态系统的健康。通过将有毒的硫化物转化为较不有害的硫酸盐，thiobacillus在防止有害物质在环境中积累方面发挥了保护作用。此外，thiobacillus在土壤中的存在可以增强必需养分的可用性，促进植物生长，支持农业生产力。除了生态角色外，科学家们还研究了thiobacillus物种在生物技术中的潜在应用。例如，它们可以用于生物修复过程，以清理被重金属或硫化合物污染的环境。通过利用thiobacillus的自然能力，科学家们正在探索应对环境挑战的创新解决方案。这包括利用这些细菌处理废水或从采矿废料中回收有价值的金属。此外，对thiobacillus的研究对理解微生物多样性和进化具有重要意义。研究这些细菌可以提供关于微生物如何适应极端环境以及如何促进生态系统韧性的见解。随着我们面临气候变化和污染等全球挑战，了解thiobacillus及类似微生物的作用变得愈发重要。总之，thiobacillus代表了一组迷人的细菌，它们对生态平衡和潜在的生物技术应用至关重要。它们氧化硫化合物的能力不仅有助于养分循环，还为环境管理提供了有希望的途径。随着我们继续探索微生物世界，thiobacillus提醒我们生态系统内复杂的联系以及保护微生物多样性对未来几代的重要性。