Estimating biomass carbon stocks for a Mediterranean forest in central Spain using LiDAR height and intensity data

TitleEstimating biomass carbon stocks for a Mediterranean forest in central Spain using LiDAR height and intensity data
Publication TypeJournal Article
Year of Publication2010
AuthorsGarcía, M., Riaño D., Chuvieco E., F. Danson M., García M., Riaño D., Chuvieco E., & F. Danson M.
JournalREMOTE SENSING OF ENVIRONMENT
Volume114
Issue4
Pagination816 - 830
Date Published2010///
KeywordsBiomass fractions, Carbon content, Intensity, LiDAR
Abstract

Biomass fractions (total aboveground, branches and foliage) were estimated from a small footprint discrete-return LiDAR system in an unmanaged Mediterranean forest in central Spain. Several biomass estimation models based on LiDAR height, intensity or height combined with intensity data were explored. Raw intensity data were normalized to a standard range in order to remove the range dependence of the intensity signal. In general terms, intensity-based models provided more accurate predictions of the biomass fractions. Height models selected were mainly based on a percentile of the height distribution. Intensity models selected included variables that consider the percentage of the intensity accumulated at different height percentiles, which implicitly take into account the height distribution. The general models derived considering all species together were based on height combined with intensity data. These models yielded R(2) values greater than 0.58 for the different biomass fractions considered and RMSE values of 28.89, 18.28 and 1.51 Mg ha(-1) for aboveground, branch and foliage biomass, respectively. Results greatly improved for species-specific models using the main species present in each plot, with R(2) values greater than 0.85, 0.70 and 0.90 for black pine, Spanish juniper and Holm oak, respectively, and with lower RMSE for the biomass fractions. Reductions in WAR point density had only a small effect on the results obtained, except for those models based on a variation of the Canopy Reflection Sum, which was weighted by the mean point density. Based on the species-specific equations derived, Holm oak dominated plots showed the highest average carbon contained by aboveground biomass and branch biomass 44.66 and 31.42 Mg ha(-1) respectively, while for foliage biomass carbon, Spanish juniper showed the highest average value (3.04 Mg ha(-1)). (C) 2009 Elsevier Inc. All rights reserved.

URLhttp://dx.doi.org/10.1016/j.rse.2009.11.021