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Estimation of Mangrove Aboveground Carbon Using Integrated UAV-LiDAR and Satellite Data

Xuzhi Mai, Quan Li, Weifeng Xu, Songwen Deng, Wenhuan Wang, Wenqian Wu, Wei Zhang, Yinghui Wang

2025Sustainability5 citationsDOIOpen Access PDF

Abstract

Mangroves are critical blue carbon ecosystems, yet accurately estimating their aboveground carbon (AGC) stocks remains challenging due to structural complexity and spectral saturation in dense canopies. This study aims to develop a scalable AGC estimation framework by integrating high-resolution canopy height (CH) data from UAV-LiDAR with multi-source satellite features from Sentinel-1, Sentinel-2, and ALOS PALSAR-2. Using the Maowei Sea mangrove zone in Guangxi, China, as a case study, we extracted structural, spectral, and textural features and applied Random Forest regression with Recursive Feature Elimination (RFE) to optimize feature combinations. Results show that incorporating UAV-derived CH significantly improves model accuracy (R2 = 0.75, RMSE = 14.18 Mg C ha−1), outperforming satellite-only approaches. CH was identified as the most important predictor, effectively mitigating saturation effects in high-biomass stands. The estimated total AGC in the study area was 88,363.73 Mg, with a mean density of 53.01 Mg C ha−1. This study highlights the advantages of cross-scale UAV–satellite data fusion for accurate, regionally scalable AGC mapping, offering a practical tool for blue carbon monitoring and coastal ecosystem management under global change.

Topics & Concepts

Environmental scienceRemote sensingSatelliteEcosystemSaturation (graph theory)EstimationMangroveCarbon fibersScalabilityRandom forestMean squared errorFeature (linguistics)CanopyRegressionLinear regressionMangrove ecosystemSensor fusionSpectral bandsCarbon cycleWetlandSatellite imageryComputer scienceCarbon fluxCarbon sinkMultispectral imageVegetation (pathology)FusionCoastal wetland ecosystem dynamicsRemote Sensing and LiDAR ApplicationsWetland Management and Conservation
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