Woody Aboveground Biomass Mapping of the Brazilian Savanna with a Multi-Sensor and Machine Learning Approach

The tropical savanna in Brazil known as the Cerrado covers circa 23% of the Brazilian territory, but only 3% of this area is protected. High rates of deforestation and degradation in the woodland and forest areas have made the Cerrado the second-largest source of carbon emissions in Brazil. However,...

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Veröffentlicht in:Remote sensing (Basel, Switzerland) Switzerland), 2020-09, Vol.12 (17), p.2685
Hauptverfasser: Bispo, Polyanna da Conceição, Rodríguez-Veiga, Pedro, Zimbres, Barbara, do Couto de Miranda, Sabrina, Henrique Giusti Cezare, Cassio, Fleming, Sam, Baldacchino, Francesca, Louis, Valentin, Rains, Dominik, Garcia, Mariano, Del Bon Espírito-Santo, Fernando, Roitman, Iris, Pacheco-Pascagaza, Ana María, Gou, Yaqing, Roberts, John, Barrett, Kirsten, Ferreira, Laerte Guimaraes, Shimbo, Julia Zanin, Alencar, Ane, Bustamante, Mercedes, Woodhouse, Iain Hector, Eyji Sano, Edson, Ometto, Jean Pierre, Tansey, Kevin, Balzter, Heiko
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Sprache:eng
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Zusammenfassung:The tropical savanna in Brazil known as the Cerrado covers circa 23% of the Brazilian territory, but only 3% of this area is protected. High rates of deforestation and degradation in the woodland and forest areas have made the Cerrado the second-largest source of carbon emissions in Brazil. However, data on these emissions are highly uncertain because of the spatial and temporal variability of the aboveground biomass (AGB) in this biome. Remote-sensing data combined with local vegetation inventories provide the means to quantify the AGB at large scales. Here, we quantify the spatial distribution of woody AGB in the Rio Vermelho watershed, located in the centre of the Cerrado, at a high spatial resolution of 30 metres, with a random forest (RF) machine-learning approach. We produced the first high-resolution map of the AGB for a region in the Brazilian Cerrado using a combination of vegetation inventory plots, airborne light detection and ranging (LiDAR) data, and multispectral and radar satellite images (Landsat 8 and ALOS-2/PALSAR-2). A combination of random forest (RF) models and jackknife analyses enabled us to select the best remote-sensing variables to quantify the AGB on a large scale. Overall, the relationship between the ground data from vegetation inventories and remote-sensing variables was strong (R2 = 0.89), with a root-mean-square error (RMSE) of 7.58 Mg ha−1 and a bias of 0.43 Mg ha−1.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs12172685