Research Pathways of Forest Above-Ground Biomass Estimation Based on SAR Backscatter and Interferometric SAR Observations

Estimation of forest biomass with synthetic aperture radar (SAR) and interferometric SAR (InSAR) observables has been surveyed in 186 peer-reviewed papers to identify major research pathways in terms of data used and retrieval models. Research evaluated primarily (i) L-band observations of SAR backs...

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Main Authors: Maurizio Santoro, Oliver Cartus
Format: Article
Language:English
Published: MDPI AG 2018-04-01
Series:Remote Sensing
Subjects:
SAR
Online Access:http://www.mdpi.com/2072-4292/10/4/608
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spelling doaj-8b1d065deb7443c9afe2f12c159abe4f2020-11-24T22:57:31ZengMDPI AGRemote Sensing2072-42922018-04-0110460810.3390/rs10040608rs10040608Research Pathways of Forest Above-Ground Biomass Estimation Based on SAR Backscatter and Interferometric SAR ObservationsMaurizio Santoro0Oliver Cartus1Gamma Remote Sensing, Worbstrasse 225, 3073 Gümligen, SwitzerlandGamma Remote Sensing, Worbstrasse 225, 3073 Gümligen, SwitzerlandEstimation of forest biomass with synthetic aperture radar (SAR) and interferometric SAR (InSAR) observables has been surveyed in 186 peer-reviewed papers to identify major research pathways in terms of data used and retrieval models. Research evaluated primarily (i) L-band observations of SAR backscatter; and, (ii) single-image or multi-polarized retrieval schemes. The use of multi-temporal or multi-frequency data improved the biomass estimates when compared to single-image retrieval. Low frequency SAR backscatter contributed the most to the biomass estimates. Single-pass InSAR height was reported to be a more reliable predictor of biomass, overcoming the loss of sensitivity of SAR backscatter and coherence in high biomass forest. A variety of empirical and semi-empirical regression models relating biomass to the SAR observables were proposed. Semi-empirical models were mostly used for large-scale mapping because of the simple formulation and the robustness of the model parameters estimates to forest structure and environmental conditions. Non-parametric models were appraised for their capability to ingest multiple observations and perform accurate retrievals having a large number of training samples available. Some studies argued that estimating compartment biomass (in stems, branches, foliage) with different types of SAR observations would lead to an improved estimate of total biomass. Although promising, scientific evidence for such an assumption is still weak. The increased availability of free and open SAR observations from currently orbiting and forthcoming spaceborne SAR missions will foster studies on forest biomass retrieval. Approaches attempting to maximize the information content on biomass of individual data streams shall be pursued.http://www.mdpi.com/2072-4292/10/4/608SARforestabove-ground biomassbackscatterinterferometrycoherenceretrieval
collection DOAJ
language English
format Article
sources DOAJ
author Maurizio Santoro
Oliver Cartus
spellingShingle Maurizio Santoro
Oliver Cartus
Research Pathways of Forest Above-Ground Biomass Estimation Based on SAR Backscatter and Interferometric SAR Observations
Remote Sensing
SAR
forest
above-ground biomass
backscatter
interferometry
coherence
retrieval
author_facet Maurizio Santoro
Oliver Cartus
author_sort Maurizio Santoro
title Research Pathways of Forest Above-Ground Biomass Estimation Based on SAR Backscatter and Interferometric SAR Observations
title_short Research Pathways of Forest Above-Ground Biomass Estimation Based on SAR Backscatter and Interferometric SAR Observations
title_full Research Pathways of Forest Above-Ground Biomass Estimation Based on SAR Backscatter and Interferometric SAR Observations
title_fullStr Research Pathways of Forest Above-Ground Biomass Estimation Based on SAR Backscatter and Interferometric SAR Observations
title_full_unstemmed Research Pathways of Forest Above-Ground Biomass Estimation Based on SAR Backscatter and Interferometric SAR Observations
title_sort research pathways of forest above-ground biomass estimation based on sar backscatter and interferometric sar observations
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2018-04-01
description Estimation of forest biomass with synthetic aperture radar (SAR) and interferometric SAR (InSAR) observables has been surveyed in 186 peer-reviewed papers to identify major research pathways in terms of data used and retrieval models. Research evaluated primarily (i) L-band observations of SAR backscatter; and, (ii) single-image or multi-polarized retrieval schemes. The use of multi-temporal or multi-frequency data improved the biomass estimates when compared to single-image retrieval. Low frequency SAR backscatter contributed the most to the biomass estimates. Single-pass InSAR height was reported to be a more reliable predictor of biomass, overcoming the loss of sensitivity of SAR backscatter and coherence in high biomass forest. A variety of empirical and semi-empirical regression models relating biomass to the SAR observables were proposed. Semi-empirical models were mostly used for large-scale mapping because of the simple formulation and the robustness of the model parameters estimates to forest structure and environmental conditions. Non-parametric models were appraised for their capability to ingest multiple observations and perform accurate retrievals having a large number of training samples available. Some studies argued that estimating compartment biomass (in stems, branches, foliage) with different types of SAR observations would lead to an improved estimate of total biomass. Although promising, scientific evidence for such an assumption is still weak. The increased availability of free and open SAR observations from currently orbiting and forthcoming spaceborne SAR missions will foster studies on forest biomass retrieval. Approaches attempting to maximize the information content on biomass of individual data streams shall be pursued.
topic SAR
forest
above-ground biomass
backscatter
interferometry
coherence
retrieval
url http://www.mdpi.com/2072-4292/10/4/608
work_keys_str_mv AT mauriziosantoro researchpathwaysofforestabovegroundbiomassestimationbasedonsarbackscatterandinterferometricsarobservations
AT olivercartus researchpathwaysofforestabovegroundbiomassestimationbasedonsarbackscatterandinterferometricsarobservations
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