Targeting methanotrophs and isolation of a novel psychrophilic Methylobacter species from a terrestrial Arctic alkaline methane seep in Lagoon Pingo, Central Spitsbergen (78° N).

Shalaka K Patil, Tajul Islam, Alexander Tveit, Andrew Hodson, Lise Øvreås
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Abstract

The microbial diversity associated with terrestrial groundwater seepage through permafrost soils is tightly coupled to the geochemistry of these fluids. Terrestrial alkaline methane seeps from Lagoon Pingo, Central Spitsbergen (78°N) in Norway, with methane-saturated and oxygen-limited groundwater discharge providing a potential habitat for methanotrophy. Here, we report on the microbial community's comparative analyses and distribution patterns at two sites close to Lagoon Pingo's methane emission source. To target methane-oxidizing bacteria from this system, we analysed the microbial community pattern of replicate samples from two sections near the main methane seepage source. DNA extraction, metabarcoding and subsequent sequencing of 16S rRNA genes revealed microbial communities where the major prokaryotic phyla were Pseudomonadota (42-47%), Gemmatimonadota (4-14%) and Actinobacteriota (7-11%). Among the Pseudomonadota, members of the genus Methylobacter were present at relative abundances between 1.6 and 4.7%. Enrichment targeting the methane oxidising bacteria was set up using methane seep sediments as inoculum and methane as the sole carbon and energy source, and this resulted in the isolation of a novel psychrophilic methane oxidizer, LS7-T4AT. The optimum growth temperature for the isolate was 13 °C and the pH optimum was 8.0. The morphology of cells was short rods, and TEM analysis revealed intracytoplasmic membranes arranged in stacks, a distinctive feature for Type I methanotrophs in the family Methylomonadaceae of the class Gammaproteobacteria. The strain belongs to the genus Methylobacter based on high 16S rRNA gene similarity to the psychrophilic species of Methylobacter psychrophilus Z-0021T (98.95%), the psychrophilic strain Methylobacter sp. strain S3L5C (99.00%), and the Arctic mesophilic species of Methylobacter tundripaludum SV96T (99.06%). The genome size of LS7-T4AT was 4,338,157 bp with a G + C content of 47.93%. The average nucleotide identities (ANIb) of strain LS7-T4AT to 10 isolated strains of genus Methylobacter were between 75.54 and 85.51%, lower than the species threshold of 95%. The strain LS7-T4AT represents a novel Arctic species, distinct from other members of the genus Methylobacter, for which the name Methylobacter svalbardensis sp. nov. is proposed. The type of strain is LS7-T4AT (DSMZ:114308, JCM:39463).

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从斯匹次卑尔根中部(北纬 78 度)平果泻湖的北极陆地碱性甲烷渗漏中锁定养甲烷菌并分离出一种新型嗜心理甲烷杆菌。
与陆地地下水渗入永久冻土相关的微生物多样性与这些流体的地球化学密切相关。挪威斯匹次卑尔根中部(北纬 78°)的平戈泻湖(Lagoon Pingo)有陆地碱性甲烷渗出,甲烷饱和且含氧量有限的地下水排放为甲烷营养提供了潜在的栖息地。在此,我们报告了微生物群落在靠近平果泻湖甲烷排放源的两个地点的比较分析和分布模式。为了锁定该系统中的甲烷氧化细菌,我们分析了主要甲烷渗出源附近两处重复样本的微生物群落模式。通过 DNA 提取、代谢编码和随后的 16S rRNA 基因测序,我们发现微生物群落中的主要原核生物门类为假单胞菌(42%-47%)、革马拉菌(4%-14%)和放线菌(7%-11%)。在假单胞菌门中,甲基杆菌属成员的相对丰度介于 1.6% 和 4.7% 之间。以甲烷渗漏沉积物为接种物,以甲烷为唯一的碳和能量来源,对甲烷氧化细菌进行了富集,结果分离出一种新型嗜心理甲烷氧化菌 LS7-T4AT。该分离物的最适生长温度为 13 °C,最适 pH 值为 8.0。细胞形态为短棒状,TEM 分析显示胞质内膜呈堆叠状排列,这是伽马蛋白杆菌科甲基单胞菌属 I 型甲烷营养菌的显著特征。根据其 16S rRNA 基因与精神嗜热型菌株精神嗜热型分支 Methylobacter psychrophilus Z-0021T (98.95%)、精神嗜热型菌株 Methylobacter sp.菌株 S3L5C (99.00%)和北极中嗜热型菌株 Methylobacter tundripaludum SV96T (99.06%)的高度相似性,该菌株属于 Methylobacter 属。LS7-T4AT 的基因组大小为 4,338,157 bp,G + C 含量为 47.93%。菌株 LS7-T4AT 与 10 株分离的 Methylobacter 属菌株的平均核苷酸相同度(ANIb)介于 75.54% 与 85.51% 之间,低于 95% 的物种阈值。菌株 LS7-T4AT 代表了一个新的北极物种,有别于 Methylobacter 属的其他成员,建议将其命名为 Methylobacter svalbardensis sp.该菌株的模式为 LS7-T4AT(DSMZ:114308, JCM:39463)。
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来源期刊
CiteScore
5.60
自引率
11.50%
发文量
104
审稿时长
3 months
期刊介绍: Antonie van Leeuwenhoek publishes papers on fundamental and applied aspects of microbiology. Topics of particular interest include: taxonomy, structure & development; biochemistry & molecular biology; physiology & metabolic studies; genetics; ecological studies; especially molecular ecology; marine microbiology; medical microbiology; molecular biological aspects of microbial pathogenesis and bioinformatics.
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