CO2 leakage-induced vegetation decline is primarily driven by decreased soil O2

• This paper focused on the factors affecting plant degradation in CO2 leakage conditions.
• The study aims at examining effects of CO2 leakage on soil O2 concentration and pH through pot experiments.
• Decrease of soil O2 concentration explaining 69% of biomass variation under stored CO2 leakage conditions.
• Hypoxia-tolerant species should be chosen to mitigate the negative effects of CO2 leakage.

To assess the potential risks of carbon capture and storage (CCS), studies have focused on vegetation decline caused by leaking CO2. Excess soil CO2 caused by leakage can affect soil O2 concentrations and soil pH, but how these two factors affect plant development remains poorly understood. This hinders the selection of appropriate species to mitigate potential negative consequences of CCS. Through pot experiments, we simulated CO2 leakage to examine its effects on soil pH and soil O2 concentrations. We subsequently assessed how maize growth responded to these changes in soil pH and O2. Decreased soil O2 concentrations significantly reduced maize biomass, and explained 69% of the biomass variation under CO2 leakage conditions. In contrast, although leaked CO2 changed soil pH significantly (from 7.32 to 6.75), it remained within the optimum soil pH range for maize growth. This suggests that soil O2 concentration, not soil pH, influences plant growth in these conditions. Therefore, in case of potential CO2 leakage risks, hypoxia-tolerant species should be chosen to improve plant survival, growth, and yield.