Contribution of mangrove forest carbon stocks on climate change mitigation: a case study at Tuntang Estuary, Central Java

Mangroves are an important coastal ecosystem in the global cycle of carbon and climate change mitigation. Unfortunately, a significant loss of mangrove forests has significantly increased carbon emissions over recent years. This research aims to measure the carbon stocks and potential carbon storage of the Tuntang Estuary mangrove forest. Sixteen quadrant plots at six sites were used to collect data on above- and below-ground carbon (roots and sediment). Several published allometric formulas were used for estimating the above and below-ground (root) carbon, while the Walkley and Black method was used to analyze sediment organic carbon. This study showed that the potential of total carbon stocks in this mangrove forest was approximately 0.08 × 10⁶ (± 0.02) Mg C or equivalent to 0.29 × 10⁶ (± 0.05) Mg CO₂e. The largest average percentage of carbon stocks (62%) was stored in sediment, 24.57% in mangrove tree biomass, and 13.43% in root biomass. This study discovered that coastal abrasion has a natural effect on mangrove forests and that human activities, particularly aquacultures, also contribute to the low total stock of carbon. The ecotourism site had the highest overall stock of carbon due to the extensive conservation efforts of all stakeholders, including visitors. This study highlights the crucial role of conserving mangroves as a strategy for achieving sustainable development goals, particularly in the context of climate change mitigation.