Litcius/Paper detail

Bacteria and Archaea Synergistically Convert Glycine Betaine to Biogenic Methane in the Formosa Cold Seep of the South China Sea

Lingyan Li, Wenting Zhang, Shengjie Zhang, Lei Song, Qing-lei Sun, Huan Zhang, Hua Xiang, Xiuzhu Dong

2021mSystems32 citationsDOIOpen Access PDF

Abstract

Numerous cold seeps have been found in global continental margins where methane is enriched in pore waters that are forced upward from sediments. Therefore, high concerns have been focused on the methane-producing organisms and the metabolic pathways in these environments because methane is a potent greenhouse gas. In this study, GBT was identified as the main precursor for methane in the Formosa cold seep of the South China Sea. Further, synergism of bacteria and methanogenic archaea was identified in GBT conversion to methane via the GBT reduction pathway, while methanogen-mediated GBT demethylation to methane was also observed. In addition, GBT-demethylated product dimethyl glycine acted as a cryoprotectant that promoted the cold seep microorganisms at cold temperatures. GBT is an osmoprotectant that is widely used by marine organisms, and therefore, the GBT-derived methanogenic pathway reported here could be widely distributed among global cold seep environments.

Topics & Concepts

Cold seepArchaeaMethanogenesisEuryarchaeotaEnvironmental chemistryMethaneChemistryBacteriaBiologyEcologyGeneticsMethane Hydrates and Related PhenomenaMicrobial Community Ecology and PhysiologyProtist diversity and phylogeny