Journal cover Journal topic
Biogeosciences An interactive open-access journal of the European Geosciences Union
Biogeosciences, 9, 179-191, 2012
https://doi.org/10.5194/bg-9-179-2012
© Author(s) 2012. This work is distributed under
the Creative Commons Attribution 3.0 License.
Research article
10 Jan 2012
Mapping tropical forest biomass with radar and spaceborne LiDAR in Lopé National Park, Gabon: overcoming problems of high biomass and persistent cloud
E. T. A. Mitchard1, S. S. Saatchi2, L. J. T. White3,4,5, K. A. Abernethy4,5, K. J. Jeffery3,4,5, S. L. Lewis6,10, M. Collins7, M. A. Lefsky8, M. E. Leal9, I. H. Woodhouse1, and P. Meir1 1School of GeoSciences, University of Edinburgh, EH8 9XP, UK
2Jet Propulsion Laboratory, California Institute of Technology, Pasadena, California, USA
3Agence Nationale des Parcs Nationaux, Libreville, Gabon
4School of Natural Sciences, University of Stirling, Stirling, FK9 4LA, UK
5Institut de Recherche en Ecologie Tropicale, CENAREST, Libreville, Gabon
6Earth and Biosphere Institute, School of Geography, University of Leeds, UK
7Grantham Research Institute on Climate Change and the Environment, London School of Economics, London, UK
8Natural Resource Ecology Laboratory, Colorado State University, Fort Collins, Colorado, USA
9Missouri Botanical Garden, St. Louis, Missouri, USA
10Department of Geography, University College London, London, UK
Abstract. Spatially-explicit maps of aboveground biomass are essential for calculating the losses and gains in forest carbon at a regional to national level. The production of such maps across wide areas will become increasingly necessary as international efforts to protect primary forests, such as the REDD+ (Reducing Emissions from Deforestation and forest Degradation) mechanism, come into effect, alongside their use for management and research more generally. However, mapping biomass over high-biomass tropical forest is challenging as (1) direct regressions with optical and radar data saturate, (2) much of the tropics is persistently cloud-covered, reducing the availability of optical data, (3) many regions include steep topography, making the use of radar data complex, (5) while LiDAR data does not suffer from saturation, expensive aircraft-derived data are necessary for complete coverage.

We present a solution to the problems, using a combination of terrain-corrected L-band radar data (ALOS PALSAR), spaceborne LiDAR data (ICESat GLAS) and ground-based data. We map Gabon's Lopé National Park (5000 km2) because it includes a range of vegetation types from savanna to closed-canopy tropical forest, is topographically complex, has no recent contiguous cloud-free high-resolution optical data, and the dense forest is above the saturation point for radar. Our 100 m resolution biomass map is derived from fusing spaceborne LiDAR (7142 ICESat GLAS footprints), 96 ground-based plots (average size 0.8 ha) and an unsupervised classification of terrain-corrected ALOS PALSAR radar data, from which we derive the aboveground biomass stocks of the park to be 78 Tg C (173 Mg C ha−1). This value is consistent with our field data average of 181 Mg C ha−1, from the field plots measured in 2009 covering a total of 78 ha, and which are independent as they were not used for the GLAS-biomass estimation. We estimate an uncertainty of ±25% on our carbon stock value for the park. This error term includes uncertainties resulting from the use of a generic tropical allometric equation, the use of GLAS data to estimate Lorey's height, and the necessity of separating the landscape into distinct classes.

As there is currently no spaceborne LiDAR satellite in operation (GLAS data is available for 2003–2009 only), this methodology is not suitable for change-detection. This research underlines the need for new satellite LiDAR data to provide the potential for biomass-change estimates, although this need will not be met before 2015.


Citation: Mitchard, E. T. A., Saatchi, S. S., White, L. J. T., Abernethy, K. A., Jeffery, K. J., Lewis, S. L., Collins, M., Lefsky, M. A., Leal, M. E., Woodhouse, I. H., and Meir, P.: Mapping tropical forest biomass with radar and spaceborne LiDAR in Lopé National Park, Gabon: overcoming problems of high biomass and persistent cloud, Biogeosciences, 9, 179-191, https://doi.org/10.5194/bg-9-179-2012, 2012.
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