中文摘要：

应用PCR—RFLP技术及测序分析对闽江口芦苇湿地土壤产甲烷菌群落结构的垂直分布特征进行了研究。在构建的6个克隆文库中，每个克隆文库随机挑选100个克隆进行菌落PCR验证，共得到591个阳性克隆。PCR产物经限制性内切酶MspⅠ进行RFLP分析后得到37个不同的分类操作单元（OTUs）。对37个克隆子进行了序列测定，与GenBank数据库中的序列进行比对，最近相似性在91％-99％之间。RFLP分析和系统发育分析表明，闽江口芦苇湿地土壤中产甲烷菌群落包括3大类群：甲烷杆菌目（Methanobacteriales）、甲烷微菌目（Methanomirobiales）和甲烷八叠球菌目（Methanosarcinales）。不同土壤深度中产甲烷菌群落的分布呈现出不同的特征。土壤表层（0—10cm）优势产甲烷菌类群为Methanoregula，约占76％；10—20cm土层主要的产甲烷菌类群为Methanolinea和Methanoregula，分别约占23％和29％；20—30cm土层优势的产甲烷菌类群为Methanolinea，约占66％。Shannon指数（H’）和Simpson多样性指教（D）表明，10—20cm土层产甲烷菌多样性高于土壤表层（0—10cm）和20—30cm土层。37个测序OTUs中有26个OTUs属于不可培养的产甲烷菌序列，表明闽江口芦苇湿地土壤中存在大量不可培养的产甲烷菌。

英文摘要：

Methane is one of the most important greenhouse gases and plays an essential role in atmospheric chemistry. The largest single source of methane is natural wetlands, which have been suggested to contribute significantly to the interannual variability of global methane emissions. Methanogens are one of the main functional microbial groups mediating methane cycles of natural wetlands. Biogenic methane is produced by methanogenic archaea or methanogens as the final step in anaerobic degradation of organic matter. It is evident that the studies on the diversity of methanogens can assist with revealing microbial-mediated methane cycles and the temporal-spatial heterogeneity of methane emission from natural wetlands. Traditional methods based on laboratory culture techniques have been proven inadequate to describe the vast microbial diversity, because those methods miss more than 99% of the organisms. Molecular methods independent of culture techniques has vastly improved the potential to describe microbial diversity. Both phylogenetic （16S rRNA gene） and functional genes can be used as molecular markers in the study of methanogens. Methyl-coenzyme M reductase （MCR） is a vital enzyme in methane production, and the mcrA gene coding for a subunit of MCR has been employed as a specific marker for the detection and differentiation of methanogen communities. Sequence-based mcrA phylogeny is consistent with the 16S rRNA-based phylogeny. Thus, the nwrA gene is a favorable functional gene and widely used to detect methanogens in soils of natural wetlands. To understand the key factors affecting methane production, the variation in community structure of methanogenic archaea in the soils from different depths was investigated using PCR-RFLP technique and sequence analysis in the Phragmites australis marsh soil in the Min River estuary. One hundred clones were randomly chosen from each clone library to examine by Colony PCR. A total of 591 positive clones were determinately contained mcrA. The PCR-RFLP analysis showed th