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Abstract
Accurate estimates of aboveground biomass (AGB) are essential for forest policies to reduce carbon emissions. Unmanned aerial laser scanning (UAV-LS) offers unprecedented millimetric detail but is underutilized in monitoring broadleaf Mediterranean forests compared to coniferous ones. This study aims to design and evaluate a procedure for AGB estimates based on the predictive power of crown features. In a first phase, we manually defined Quantitative Structure Models (QSMs) for 320 trees using UAV-LS, ALS, and co-registered terrestrial laser scanning (TLS) data, providing the best non-destructive AGB reference in the absence of destructive measurements. For each reference tree we also measured crown projection and crown volume to build two separated models relating AGB to such crown features. In a second phase we evaluated the potential of UAV-LS for quantifying AGB in a pure European beech (Fagus sylvatica) forest and compared it with traditional ALS estimates, using full automatic procedures. The two obtained tree-level AGB models were then tested using three datasets derived from 35 sampling plots over the same study area: (a) 1130 trees manually segmented (phase-2 reference); (b) trees automatically extracted from ALS data; and (c) trees automatically extracted from UAV-LS data. Results demonstrate that detailed UAV-LS data improve model sensitivity compared to ALS data (RMSE = 45.6 Mg ha-1, RMSE% = 13.4%, R2 = 0.65, for the best ALS model; RMSE = 44.0 Mg ha-1, RMSE% = 12.9%, R2 = 0.67, for the best UAV-LS model), allowing for the detection of AGB differences even in quite homogenous forest structures. Overall, this study demonstrates that combining different laser scanner data can foster non-destructive AGB estimation in forested areas across hectare scales (1 to 100 ha).
DOI
https://doi.org/10.32942/X2KK8S
Subjects
Forest Management, Forest Sciences, Life Sciences
Keywords
biomass, LiDAR, Tree allometric scaling rules, temperate forests, Forest mensuration
Dates
Published: 2024-12-17 20:55
Last Updated: 2024-12-18 04:55
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English
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