Model-Assisted Estimation of Tropical Forest Biomass Change: A Comparison of Approaches

Autor(en): Knapp, Nikolai
Huth, Andreas 
Kugler, Florian
Papathanassiou, Konstantinos
Condit, Richard
Hubbell, Stephen P.
Fischer, Rico
Stichwörter: ABOVEGROUND BIOMASS; aboveground biomass change; AIRBORNE LIDAR; BARRO-COLORADO ISLAND; CARBON-DENSITY; DYNAMICS; Environmental Sciences; Environmental Sciences & Ecology; forest model; Geology; Geosciences, Multidisciplinary; HEIGHT; Imaging Science & Photographic Technology; lidar; RADAR; Remote Sensing; simulation; SPATIAL HETEROGENEITY; synthetic aperture radar; TANDEM-X; tropical rainforests; VEGETATION
Erscheinungsdatum: 2018
Herausgeber: MDPI
Journal: REMOTE SENSING
Volumen: 10
Ausgabe: 5
Zusammenfassung: 
Monitoring of changes in forest biomass requires accurate transfer functions between remote sensing-derived changes in canopy height (H) and the actual changes in aboveground biomass (AGB). Different approaches can be used to accomplish this task: direct approaches link H directly to AGB, while indirect approaches are based on deriving AGB stock estimates for two points in time and calculating the difference. In some studies, direct approaches led to more accurate estimations, while, in others, indirect approaches led to more accurate estimations. It is unknown how each approach performs under different conditions and over the full range of possible changes. Here, we used a forest model (FORMIND) to generate a large dataset (>28,000 ha) of natural and disturbed forest stands over time. Remote sensing of forest height was simulated on these stands to derive canopy height models for each time step. Three approaches for estimating AGB were compared: (i) the direct approach; (ii) the indirect approach and (iii) an enhanced direct approach (dir+tex), using H in combination with canopy texture. Total prediction accuracies of the three approaches measured as root mean squared errors (RMSE) were RMSEdirect = 18.7 t ha(-1), RMSEindirect = 12.6 t ha(-1) and RMSEdir+tex = 12.4 t ha(-1). Further analyses revealed height-dependent biases in the AGB estimates of the direct approach, which did not occur with the other approaches. Finally, the three approaches were applied on radar-derived (TanDEM-X) canopy height changes on Barro Colorado Island (Panama). The study demonstrates the potential of forest modeling for improving the interpretation of changes observed in remote sensing data and for comparing different methodologies.
DOI: 10.3390/rs10050731

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