Assessing woody biomass in African tropical savannahs by multiscale remote sensing
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Citation
Weicheng Wu, Eddy De Pauw, Ulf Hellden. (21/3/2013). Assessing woody biomass in African tropical savannahs by multiscale remote sensing. International Journal of Remote Sensing, 34 (13), pp. 4525-4549.
Abstract
Woody biomass production is a critical indicator in evaluation of land use management
and the dynamics of the global carbon cycle (sequestration/emission) in
terrestrial ecosystems. The objective of the present study was to develop, through a case
study in Sudan, an operational multiscale remote-sensing-based methodology for largescale
estimation of woody biomass in tropical savannahs. Woody biomass estimation
models obtained by different authors from destructive field measurements in different
tropical savannah ecosystems were expressed as functions of tree canopy cover (CC).
The field-measured CC data were used for developing regression equations with atmospherically
corrected and reflectance-based vegetation indices derived from Landsat
ETM+ (Enhanced Thematic Mapper Plus) imagery. Among a set of vegetation indices,
the normalized difference vegetation index (NDVI) provided the best correlation with
CC (R2 = 0.91) and was hence selected for woodland woody biomass estimation. After
validation of the CC-NDVI model and its applicability to Moderate Resolution Imaging
Spectroradiometer (MODIS) data, time-series MODIS NDVI data (MOD13Q1) were
used to partition the woody component from the herbaceous component for sparse
woodlands, woodlands and forests defined by the Food and Agriculture Organization
(FAO) of the United Nations Land Cover Map. Following the weighting of the estimation
models based on the dominant woody species in each vegetation community,
NDVI-based woody biomass models were applied according to their weighted ratios to
the decomposed summer and autumn woody NDVI images in all vegetation communities
in the whole of Sudan taking the year 2007, for example. The results were found to
be in good agreement with those from other authors obtained by either field measurements
or other remote sensing methods using MODIS and lidar data. It is concluded
that the proposed approach is operational and can be applied for a reliable large-scale
assessment of woody biomass at a ground resolution of 250 m in tropical savannah
woodlands of any month or season.