AUTHOR=Ardhani Trialaksita Sari Priska , Kusmana Cecep , Bengen Dietriech Geoffrey , Rahajoe Joeni Setijo , Sagala Phidju Marrin , Hanggara Bayu Budi , Ginting Yohanes Risky Shellen , Royna Milkah , Murdiyarso Daniel 

TITLE=Restoration of declining soil carbon stocks and lost surface elevations in degraded mangroves on the northern coast of Java, Indonesia

JOURNAL=Frontiers in Ecology and Evolution

VOLUME=Volume 13 - 2025

YEAR=2025

URL=https://www.frontiersin.org/journals/ecology-and-evolution/articles/10.3389/fevo.2025.1448702

DOI=10.3389/fevo.2025.1448702

ISSN=2296-701X

ABSTRACT=Restoring degraded coastal zones could help to stem the loss of carbon (estimated by soil carbon differences) and soil surface elevations (measured through rod surface elevation table and marker horizon) due to mangrove conversion and sea-level rise. In mangroves, total ecosystem carbon stocks are primarily stored in soil, however the presence of vegetation remains crucial. When we assessed soil carbon across contrasting land uses in Wedung and Sayung Districts in Demak Regency, Central Java, we found that converting mangrove to aquaculture increased soil carbon by 17.68 Mg C ha-1 in Wedung but decreased it as much as 62.58 Mg C ha-1 in Sayung. Meanwhile, abandonment of ponds resulted in a loss of 34.24 Mg C ha-1 in Wedung but a gain of 8.81 Mg C ha-1 in Sayung. The estimated local sea-level rise of 0.45 cm yr-1 led to relative sea-level rises of 5.56, 6.82, and 1.36 cm yr-1 in mangroves, working and abandoned ponds respectively in Wedung, and 8.00, 10.39, and 10.46 cm yr-1 respectively in the same environments in Sayung. This indicates that Sayung is more severely inundated. After considering land subsidence levels, only mangroves in Wedung experienced an elevation surplus of 2.02 cm yr-1. The remaining land uses suffered elevation deficits, hence being inundated by 1.86 and 15.00 cm yr-1 in abandoned ponds in Wedung and Sayung respectively. Despite variation in this study’s findings, some scenarios could be considered useful to support relevant coastal areas to enhance soil carbon stocks or surface elevation.