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Mapping aboveground biomass by integrating geospatial and forest inventory data through a k-nearest neighbor strategy in North Central Mexico

2013; Springer Science+Business Media; Volume: 6; Issue: 1 Linguagem: Inglês

10.1007/s40333-013-0191-x

2194-7783

Carlos Arturo Aguirre-Salado, Eduardo Javier Treviño Garza, Óscar Alberto Aguirre Calderón, Javier Jiménez Pérez, Marco Aurelio González Tagle, José René Valdez‐Lazalde, Guillermo Sánchez-Díaz, Reija Haapanen, Alejandro Iván Aguirre-Salado, Liliana Miranda-Aragón,

Forest ecology and management

As climate change negotiations progress, monitoring biomass and carbon stocks is becoming an important part of the current forest research. Therefore, national governments are interested in developing forest-monitoring strategies using geospatial technology. Among statistical methods for mapping biomass, there is a nonparametric approach called k-nearest neighbor (kNN). We compared four variations of distance metrics of the kNN for the spatially-explicit estimation of aboveground biomass in a portion of the Mexican north border of the intertropical zone. Satellite derived, climatic, and topographic predictor variables were combined with the Mexican National Forest Inventory (NFI) data to accomplish the purpose. Performance of distance metrics applied into the kNN algorithm was evaluated using a cross validation leave-one-out technique. The results indicate that the Most Similar Neighbor (MSN) approach maximizes the correlation between predictor and response variables (r=0.9). Our results are in agreement with those reported in the literature. These findings confirm the predictive potential of the MSN approach for mapping forest variables at pixel level under the policy of Reducing Emission from Deforestation and Forest Degradation (REDD+).