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A review of radar remote sensing for biomass estimation
Sinha, S.; Jeganathan, C.; Sharma, L.K. & Nathawat, M.S.
Abstract
Forest plays a vital role in regulating climate
through carbon sequestration in its biomass. Biomass
reflects the health and environmental conditions of a forest
ecosystem. In context to the climate change mitigation
mechanisms like REDD (reducing emissions from deforestation
and forest degradation), an extensive forest monitoring
campaign is especially important. Remote sensing
of forest structure and biomass with synthetic aperture
radar (SAR) bears significant potential for mapping and
understanding forest ecological processes. Limitations of
the conventional forest inventory procedures, like the
extensive cost, labor and time, can be overcome through
integrated geospatial techniques. Optical sensor or SAR
data are suitable for extracting information about simple
and homogeneous forest stand sites. However, optical
sensors face serious limitations, specifically in tropical
regions, like the cloud cover that SAR can overcome along
with targeting saturation and penetration aspects. Simultaneous
use of spectral information and image texture
parameters improves the biomass assessment over
undulating terrain and in radical conditions. Also, synergic
use of multi-sensor optical and SAR has better potential
than single sensor. Interferometric (InSAR) and polarimetric
(PolSAR) SAR or a combination of the both (Pol-
InSAR) serves as effective alternatives. These techniques
could serve as valuable methods for biomass assessment of
heterogeneous complex biophysical environments. However,
SAR data have its own limitations and complexities.
Identifying, understanding and solving major uncertainties
in different stages of the biomass estimation procedure are
critical. In this regard, the current study provides a review
of radar remote sensing-based studies in forest biomass
estimation.
Keywords
Biomass; Interferometry; Polarimetry; SAR; Uncertainty
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