Environmental Chemical Processes Laboratory, Department of Chemistry, University of Crete, Voutes-Heraklion, Greece.
FEMS Microbiol Ecol. 2010 Jun;72(3):429-44. doi: 10.1111/j.1574-6941.2010.00857.x. Epub 2010 Mar 3.
We investigated 16S rRNA gene diversity at a high sediment depth resolution (every 5 cm, top 30 cm) in an active site of the Kazan mud volcano, East Mediterranean Sea. A total of 242 archaeal and 374 bacterial clones were analysed, which were attributed to 38 and 205 unique phylotypes, respectively (> or = 98% similarity). Most of the archaeal phylotypes were related to ANME-1, -2 and -3 members originating from habitats where anaerobic oxidation of methane (AOM) occurs, although they occurred in sediment layers with no apparent AOM (below the sulphate depletion depth). Proteobacteria were the most abundant and diverse bacterial group, with the Gammaproteobacteria dominating in most sediment layers and these were related to phylotypes involved in methane cycling. The Deltaproteobacteria included several of the sulphate-reducers related to AOM. The rest of the bacterial phylotypes belonged to 15 known phyla and three unaffiliated groups, with representatives from similar habitats. Diversity index H was in the range 0.56-1.73 and 1.47-3.82 for Archaea and Bacteria, respectively, revealing different depth patterns for the two groups. At 15 and 20 cm below the sea floor, the prokaryotic communities were highly similar, hosting AOM-specific Archaea and Bacteria. Our study revealed different dominant phyla in proximate sediment layers.
我们在东地中海卡赞泥火山的一个活跃区域以高沉积物深度分辨率(每 5 厘米一层,最上层 30 厘米)对 16S rRNA 基因多样性进行了研究。总共分析了 242 个古菌和 374 个细菌克隆,它们分别属于 38 个和 205 个独特的类群(> 98%相似度)。大多数古菌类群与 ANME-1、-2 和 -3 成员有关,这些成员来自于发生甲烷厌氧氧化(AOM)的栖息地,尽管它们存在于没有明显 AOM(硫酸盐消耗深度以下)的沉积物层中。变形菌是最丰富和最多样化的细菌群,其中γ变形菌在大多数沉积物层中占主导地位,这些与参与甲烷循环的类群有关。δ变形菌包括一些与 AOM 相关的硫酸盐还原菌。其余的细菌类群属于 15 个已知的门和 3 个未归属的组,它们都有来自相似栖息地的代表。古菌的多样性指数 H 范围为 0.56-1.73,细菌的多样性指数 H 范围为 1.47-3.82,分别揭示了两组不同的深度模式。在距海底 15 和 20 厘米处,原核生物群落非常相似,存在特定于 AOM 的古菌和细菌。我们的研究揭示了在相邻的沉积物层中不同的优势门。
