Abstract The energy demand is enhancing day by day all over the world with the increasing of huge population. Lignite, a fossil fuel with low energy efficiency, is used in many different fields. However, lignite is primarily an energy source and its use without treatment causes environmental pollution as well as low energy efficiency. Advantages are known for the use of microorganisms in lignite processing technologies, and research is underway to improve this process. In this research designed to meet this need, isolation and characterization of bacteria with potential for use in biotechnological applications resistant to extreme conditions were performed from lignite mine. Turkey’s largest lignite mine bacterial flora have been identified for the first time in this study. In addition to lignite processing technologies, a bacterial strain collection has been created to be used in other biotechnological studies. This collection of bacteria includes Methylorubrum zatmanii, Streptomyces argenteolus, Streptomyces galilaeus, Pseudomonas mandelii, Paenarthrobacter aurescens, Paeniglutamicibacter sulfureus, Arthrobacter humicola, Bacillus pumilus, Bacillus subtilis, Bacillus safensis, Kocuria polaris, Arthrobacter sp., Rhodococcus sp. This specific bacteria collection is open to sharing with other researchers who want to do field applications.

中文翻译：

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用于潜在微生物生物技术应用的 Afşin-Elbistan 褐煤矿细菌菌群的表征

摘要 随着庞大的人口数量的增加，全世界对能源的需求日益增加。褐煤是一种能源效率低的化石燃料，用于许多不同的领域。然而，褐煤主要是一种能源，未经处理使用会造成环境污染和能源效率低下。众所周知，在褐煤加工技术中使用微生物具有优势，并且正在进行研究以改进该工艺。在为满足这一需求而设计的这项研究中，从褐煤矿中分离和表征了具有抗极端条件的生物技术应用潜力的细菌。本研究首次确定了土耳其最大的褐煤矿菌群。除了褐煤加工技术，已经创建了用于其他生物技术研究的细菌菌株集合。这组细菌包括 Methylorubrum zatmanii、Streptomyces argenteolus、链霉菌 galilaeus、Pseudomonas mandelii、Paenarthrobacter aurescens、Paeniglutamicibactersulfeus、腐殖质节杆菌、短小芽孢杆菌、枯草芽孢杆菌、枯草芽孢杆菌、枯草芽孢杆菌。这个特定的细菌集合可以与其他想要进行现场应用的研究人员共享。安全芽孢杆菌、Kocuria polaris、节杆菌属、红球菌属。这个特定的细菌集合可以与其他想要进行现场应用的研究人员共享。安全芽孢杆菌、Kocuria polaris、节杆菌属、红球菌属。这个特定的细菌集合可以与其他想要进行现场应用的研究人员共享。