Multiple drivers for carbon stocks and fluxes in different types of mangroves

Mangroves are highly efficient in sequestering carbon from the atmosphere and can accumulate carbon in sediments for millennials. However, The fate of mangrove carbon has not been well constrained due to the lack of data on different pools of sediment carbon sinks and sources. This study examined the variation of carbon stocks and fluxes at the water-sediment-air interface in both estuarine mangroves (natural: Mai Po, restored: Gei Wai) and oceanic mangroves (Ting Kok). There are divergent patterns in biogeochemical variables at the sedimentwater-air interface, likely due to significant variation within sites. Total sediment carbon stocks (TCs) ranked in the order of restored estuarine mangroves (392.5 +/- 8.8 Mg ha-1), natural estuarine mangroves affected by aquaculture (315.2 +/- 21.4 Mg ha-1) and oceanic mangroves (229.1 +/- 32.3 Mg ha-1). Sediment organic carbon stocks (SOC) and inorganic carbon stocks (SIC) accounted for 84.1-90.2 % and 9.8-15.9 % of TC, respectively. The highest sediment-air CO2 and CH4 fluxes occurred in restored and natural estuarine mangroves affected by aquaculture, respectively. The isotope of CO2 fluxes (delta 13C-CO2) indicates higher contributions from the degradation of mangrove-derived organic carbon in restored (-25.94 %o +/- 3.37 %o) and natural estuarine mangroves affected by aquaculture (-25.54 %o +/- 0.96 %o) than in oceanic mangroves (-21.55 %o +/- 1.36 %o). The isotope of CH4 fluxes (delta 13C-CH4) indicates CH4 production dominated by acetate fermentation in restored estuarine mangroves but dominated by the reduction of CO2 for other sites. Future studies should better constrain the fate of mangrove carbon by considering local drivers.

Automated summary

This study examined carbon stocks and fluxes in mangroves and found significant variations in carbon emissions between restored mangroves and those affected by aquaculture. The findings provide important insights for future research on mangrove carbon.