Molecular Analysis of Methanogen Richness in Landfill and Marshland Targeting 16S rDNA Sequences

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
S. Yadav, Sharbadeb Kundu, S. Ghosh, S. S. Maitra
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引用次数: 14

Abstract

Methanogens, a key contributor in global carbon cycling, methane emission, and alternative energy production, generate methane gas via anaerobic digestion of organic matter. The methane emission potential depends upon methanogenic diversity and activity. Since they are anaerobes and difficult to isolate and culture, their diversity present in the landfill sites of Delhi and marshlands of Southern Assam, India, was analyzed using molecular techniques like 16S rDNA sequencing, DGGE, and qPCR. The sequencing results indicated the presence of methanogens belonging to the seventh order and also the order Methanomicrobiales in the Ghazipur and Bhalsawa landfill sites of Delhi. Sequences, related to the phyla Crenarchaeota (thermophilic) and Thaumarchaeota (mesophilic), were detected from marshland sites of Southern Assam, India. Jaccard analysis of DGGE gel using Gel2K showed three main clusters depending on the number and similarity of band patterns. The copy number analysis of hydrogenotrophic methanogens using qPCR indicates higher abundance in landfill sites of Delhi as compared to the marshlands of Southern Assam. The knowledge about “methanogenic archaea composition” and “abundance” in the contrasting ecosystems like “landfill” and “marshland” may reorient our understanding of the Archaea inhabitants. This study could shed light on the relationship between methane-dynamics and the global warming process.
针对16S rDNA序列的垃圾填埋场和湿地甲烷菌丰富度分子分析
产甲烷菌是全球碳循环、甲烷排放和替代能源生产的关键贡献者,通过有机物的厌氧消化产生甲烷气体。甲烷排放潜力取决于产甲烷的多样性和活性。由于它们是厌氧菌,难以分离和培养,因此使用16S rDNA测序、DGGE和qPCR等分子技术分析了它们在印度德里垃圾填埋场和阿萨姆邦南部沼泽地区的多样性。测序结果表明,在德里Ghazipur和Bhalsawa垃圾填埋场中存在第七目产甲烷菌和甲烷微生物目。在印度阿萨姆邦南部的沼泽地区发现了与嗜热古菌门(Crenarchaeota)和嗜温古菌门(Thaumarchaeota)有关的序列。使用Gel2K对DGGE凝胶进行Jaccard分析,根据条带模式的数量和相似性显示出三个主要的聚类。利用qPCR对氢营养化产甲烷菌的拷贝数分析表明,与阿萨姆邦南部沼泽地相比,德里垃圾填埋场的丰度更高。关于“垃圾填埋场”和“沼泽地”等对比生态系统中“产甲烷古菌组成”和“丰度”的知识可能会重新定位我们对古菌居民的理解。这项研究可以揭示甲烷动力学和全球变暖过程之间的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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