Using satellite estimates of aboveground biomass to assess carbon stocks in a mixed-management, semi-deciduous tropical forest in the Yucatan Peninsula

Information on the spatial distribution of forest aboveground biomass (AGB) and its uncertainty is important to evaluate management and conservation policies in tropical forests. However, the scarcity of field data and robust protocols to propagate uncertainty prevent a robust estimation through remote sensing. We upscaled AGB from field data to LiDAR, and to landscape scale using Sentinel-2 and ALOS-PALSAR through machine learning, propagated uncertainty using a Monte Carlo framework and explored the relative contributions of each sensor. Sentinel-2 outperformed ALOS-PALSAR (R² = 0.66, vs 0.50), however, the combination provided the best fit (R² = 0.70). The combined model explained 49% of the variation comparing against plots within the calibration area, and 17% outside, however, 94% of observations outside calibration area fell within the 95% confidence intervals. Finally, we partitioned the distribution of AGB in different management and conservation categories for evaluating the potential of different strategies for conserving carbon stock.

Bibliographic Details

Main Authors:	George Chacón, Stephanie P. autora, Milodowski, David T. autor, Dupuy Rada, Juan Manuel Doctor autor 22546, Mas, Jean François autor 12362, Williams, Mathew autor, Castillo Santiago, Miguel Ángel Doctor 8371, Hernández Stefanoni, José Luis 12602
Format:	Texto biblioteca
Language:	eng
Subjects:	Ordenación forestal, Biomasa aérea, Biomasa forestal, Sensores remotos, Lidar, Aprendizaje automático (Inteligencia artificial), Captura de carbono, Bosques tropicales, Artfrosur,
Online Access:	https://doi.org/10.1080/10106049.2021.1980619
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