Potential of CO2 sequestration by olivine addition in offshore waters: A ship-based deck incubation experiment

Ocean alkalinity enhancement is considered an effective atmospheric CO₂ removal approach, but little is known about the carbon sequestration potential of implementing olivine addition in offshore waters. We investigated the effect of olivine addition on the seawater carbonate system by carrying out a deck incubation experiment in the Northern Yellow Sea; the dissolution rate of olivine was calculated based on the increase in seawater alkalinity (TA), and the CO₂ sequestration potential was evaluated. The results showed that the dissolution of olivine increased seawater TA and decreased partial pressure of CO₂, resulting in oceanic CO₂ uptake from the atmosphere through sea-air exchange; it also increased seawater pH and mitigated ocean acidification to a certain extent. The addition of 1 ‰ olivine had a more significant effect on the seawater carbonate system than 0.5 ‰ olivine addition. The average dissolution rate constant of olivine was 1.44 ± 0.15 μmol m^-2 d^-1. Assuming that olivine settles completely on the seabed due to gravity, the theoretically maximum amount of CO₂ removed by applying 1 tonne of olivine per square meter area in the Northern Yellow Sea is only 2.0×10^-4 t/m². Therefore, when olivine addition is implemented in the offshore waters, it is necessary to consider reducing the olivine size, prolonging the settling time of olivine in the water column; and spreading olivine in upwelling regions to prolong the residence time through repeated resuspension, thus increasing its potential in carbon sequestration.