Mardanov Andrey V, Gumerov Vadim M, Beletsky Alexey V, Ravin Nikolai V
Institute of Bioengineering, Research Center of Biotechnology, Russian Academy of Sciences, Leninsky Prosp., 33-2, Moscow, Russia, 119071.
Antonie Van Leeuwenhoek. 2018 Jan;111(1):35-43. doi: 10.1007/s10482-017-0924-5. Epub 2017 Aug 16.
Microbial communities of four acidic thermal pools in the Uzon Caldera, Kamchatka, Russia, were studied using amplification and pyrosequencing of 16S rRNA gene fragments. The sites differed in temperature and pH: 1805 (60 °C, pH 3.7), 1810 (90 °C, pH 4.1), 1818 (80 °C, pH 3.5), and 1807 (86 °C, pH 5.6). Archaea of the order Sulfolobales were present among the dominant groups in all four pools. Acidilobales dominated in pool 1818 but were a minor fraction at the higher temperature in pool 1810. Uncultivated Archaea of the Hot Thaumarchaeota-related clade were present in significant quantities in pools 1805 and 1807, but they were not abundant in pools 1810 and 1818, where high temperatures were combined with low pH. Nanoarchaeota were present in all pools, but were more abundant in pools 1810 and 1818. A similar abundance pattern was observed for Halobacteriales. Thermophilic Bacteria were less diverse and were mostly represented by aerobic hydrogen- and sulfur-oxidizers of the phylum Aquificae and sulfur-oxidising Proteobacteria of the genus Acidithiobacillus. Thus we showed that extremely acidic hot pools contain diverse microbial communities comprising different metabolic groups of prokaryotes, including putative lithoautotrophs using energy sources of volcanic origin, and various facultative and obligate heterotrophs.
利用16S rRNA基因片段的扩增和焦磷酸测序技术,对俄罗斯堪察加半岛乌宗火山口的四个酸性温泉中的微生物群落进行了研究。这些地点在温度和pH值上有所不同:1805(60°C,pH 3.7)、1810(90°C,pH 4.1)、1818(80°C,pH 3.5)和1807(86°C,pH 5.6)。在所有四个温泉的优势菌群中都存在硫化叶菌目古菌。嗜酸菌目在1818号温泉中占主导地位,但在1810号温泉较高温度环境中占比很小。与热泉泉古菌相关的未培养古菌在1805号和1807号温泉中大量存在,但在1810号和1818号温泉中数量并不丰富,这两个温泉温度高且pH值低。纳古菌在所有温泉中都有存在,但在1810号和1818号温泉中更为丰富。盐杆菌目也呈现出类似的丰度模式。嗜热细菌的多样性较低,主要由产水菌门的好氧氢和硫氧化菌以及嗜酸硫杆菌属的硫氧化变形菌代表。因此,我们表明极端酸性的温泉含有多样的微生物群落,包括不同代谢类型的原核生物,其中包括利用火山源能量的推定化能自养菌,以及各种兼性和专性异养菌。
