Can we manage microbial systems to enhance carbon storage?

Abstract: Climate change is an urgent environmental issue with wide‐ranging impacts on ecosystems and society. Microbes are instrumental in maintaining the balance between carbon (C) accumulation and loss in the biosphere, actively regulating greenhouse gas fluxes from vast reservoirs of organic C stored in soils, sediments and oceans. Heterotrophic microbes exhibit varying capacities to access, degrade and metabolise organic C—leading to variations in remineralisation and turnover rates. The present challenge lies in e… Show more

“…In terrestrial ecosystems, CFMs are estimated to sequester ca. 4.9 Pg of carbon annually (Huang et al, 2022), making their carbon fixation function crucial for greenhouse gas regulation, soil carbon uptake and global carbon cycling (Liao et al, 2023;Mahmoudi & Wilhelm, 2023). Among the eight major carbon fixation pathways identified in nature, the Calvin cycle is the primary pathway for microbial assimilation of CO 2 (Berg, 2011).…”

Effect of soil flooding and drying on the metabolic pathways of CO₂ fixing microorganisms along an elevation gradient in the Three Gorges Reservoir drawdown area

“…In terrestrial ecosystems, CFMs are estimated to sequester ca. 4.9 Pg of carbon annually (Huang et al, 2022), making their carbon fixation function crucial for greenhouse gas regulation, soil carbon uptake and global carbon cycling (Liao et al, 2023;Mahmoudi & Wilhelm, 2023). Among the eight major carbon fixation pathways identified in nature, the Calvin cycle is the primary pathway for microbial assimilation of CO 2 (Berg, 2011).…”

Effect of soil flooding and drying on the metabolic pathways of CO₂ fixing microorganisms along an elevation gradient in the Three Gorges Reservoir drawdown area