Regional Variation of CH₄ and N₂ Production Processes in the Deep Aquifers of an Accretionary Prism

抄録

Accretionary prisms are mainly composed of ancient marine sediment scraped from the subducting oceanic plate at a convergent plate boundary. Large amounts of anaerobic groundwater and natural gas, mainly methane (CH₄) and nitrogen gas (N₂), are present in the deep aquifers associated with an accretionary prism; however, the origins of these gases are poorly understood. We herein revealed regional variations in CH₄ and N₂ production processes in deep aquifers in the accretionary prism in Southwest Japan, known as the Shimanto Belt. Stable carbon isotopic and microbiological analyses suggested that CH₄ is produced through the non-biological thermal decomposition of organic matter in the deep aquifers in the coastal area near the convergent plate boundary, whereas a syntrophic consortium of hydrogen (H₂)-producing fermentative bacteria and H₂-utilizing methanogens contributes to the significant production of CH₄ observed in deep aquifers in midland and mountainous areas associated with the accretionary prism. Our results also demonstrated that N₂ production through the anaerobic oxidation of organic matter by denitrifying bacteria is particularly prevalent in deep aquifers in mountainous areas in which groundwater is affected by rainfall.