Variovorax xiamenensis sp. nov., can degrade methylphosphonate and release methane
ID:783
View Protection:ATTENDEE
Updated Time:2024-10-13 10:10:35 Hits:777
Poster Presentation
Abstract
Thermal stratification is a key physical process influencing the life cycle of reservoirs, forming vertical temperature gradients that limit the mixing of oxygen and nutrients, especially phosphorus. With global warming intensifying stratification, surface waters face phosphorus depletion, which is essential for microbial metabolism. Some heterotrophic bacteria, such as those possessing the phosphonate-degrading (phn) gene cluster, can adapt to phosphorus-limited environments by utilizing phosphonates as an alternative phosphorus source. In marine systems, methylphosphonate degradation has been linked to methane release, but its role in freshwater ecosystems remains less understood. In this study, we isolated Variovorax xiamenensis sp. nov., a novel phosphonate-utilizing strain W6, from a seasonally stratified reservoir. Strain W6 uses phosphonates as its sole phosphorus source under P-limiting conditions and releases methane in the presence of methylphosphonate. RNA-seq analysis was performed to investigate its cellular response and potential ecological implications in the reservoir environment.
Keywords
Phosphonate utilization; Freshwater bacteria; Oxic methane production
Submission Author
Yu wang
Xiamen university
Shuh-Ji Kao
XiaMen University;Hainan University
Submit Comment