Substantial methanogenesis suppression and slight methanotroph enhancement contribute to transition from methane source to sink after wetland reclamation
ID:1462
View Protection:ATTENDEE
Updated Time:2021-06-16 10:04:10 Hits:1730
Oral Presentation
Abstract
Methane (CH4) is a potent greenhouse gas and its terrestrial sources account for more than 20% of the rising atmospheric CH4 concentration. Wetland conversion to cropland turns CH4 source to a sink; yet the underlying mechanisms remain elusive. Here, we investigated the seasonal variation of methanogenesis and methanotroph along 100 cm soil profiles for adjacent wetland and cropland in the Sanjiang Plain, China. The study confirmed that wetland reclamation converted a CH4 source of 449.30 ± 101.65 kg·ka-1·yr-1 to a weak CH4 sink of 0.56 ± 0.51 kg·ka-1·yr-1. The metagenomic data proved that the proportion of total CH4 related genes, methanogenesis, as well as the CH4 production marker genes – mcr were significantly decreased, and the proportion of methanotroph marker genes, pMMO and the sum of sMMO and pMMO were slightly increased. Conspicuously seasonal fluctuation of total CH4 related genes, methanogenesis and methanotroph genes were observed in wetland, with highest in spring and lowest in autumn. We also observed significant variation across seasons of the proportion of marker genes including mcr, sMMO, pMMO and MMO in cropland, with highest in summer and lowest in winter. Moreover, all the proportion of CH4 related genes were decreased along soil depth in both wetland and cropland, with two exceptions of genes that encoding pMMO and MMO in cropland, which were slightly increased in middle layers from 20 cm to 60 cm. Our observations suggest that the inhibition of functional genes involved in methanogenesis are responsible to methane emission reduction when wetland converted to cropland, following with slight stimulation of MMO especially pMMO genes. The finding that both methanogenesis suppression and methanotroph enhancement contributes to the shift of CH4 source to CH4 sink after wetland reclamation provides clear evidence for microbial mechanisms for CH4 process, can serve as benchmark for CH4 models.
Keywords
methanogenesis; methanotroph; mcr genes; pMMO genes; wetland reclamation.
Submission Author
王楠楠
中科院东北地理与农业研究所
徐小锋
圣地亚哥州立大学
Submit Comment