Relating ALOS-2 PALSAR-2 Parameters to Biomass and Structure of Temperate Broadleaf Hyrcanian Forests

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RESEARCH ARTICLE

Relating ALOS-2 PALSAR-2 Parameters to Biomass and Structure of Temperate Broadleaf Hyrcanian Forests Parisa Golshani1 • Yasser Maghsoudi2

•

Hormoz Sohrabi1

Received: 29 November 2018 / Accepted: 11 January 2019 Ó Indian Society of Remote Sensing 2019

Abstract Evaluation of forest biomass is required for sustainable forest management, efficiency valuation and exploring variations in carbon resources. In this research, we studied the possibility of polarimetric synthetic aperture radar (PolSAR) features in order to approximation of forest biomass in Hyrcanian forests. Our study sought to resolve the following inquiries: (1) Does the relevance between aboveground biomass (AGB) and SAR features depend on forest type and structure? (2) Does the use of polarimetric decomposition components elevate the saturation point of SAR response to biomass? (3) What are the most impressive texture parameters for mapping Hyrcanian vegetation biomass? For this purpose, we recorded 115 circular sample plots with 0.1 ha area in four sites, with various forest structures and biomass. Quad-pol PALSAR-2 data were used to apply decomposition methods and investigate the relationship between AGB and PolSAR attributes. To measure the efficiency of PolSAR data for biomass estimation, we used regression analysis, in which second-order and linear models were fit to forecast biomass per hectare, as defined from the field computations. Our results indicated that decomposition features have a high ability to enhance the saturation point and can produce more favorable outcomes than the backscatter coefficients for biomass estimation. Experimental results showed that the response of backscattering coefficients to biomass is affected by the forest type and canopy structure. These findings confirmed that the HH polarization backscatter is better suited for sparse areas, while HV polarization backscatter is qualified for dense areas. Keywords Polarimetric SAR Decomposition Forest structure Hyrcanian forest Aboveground biomass

Introduction Forest biomass data are required to support sustainable forest resource management, productivity valuation, forest sustainability and explore variations in carbon stocks (Lu 2006; Rauste 2005; Vashum and Jayakumar 2012). Hence, quantifying changes in forest biomass stock is one of the major goals of vegetation studies (Toan et al. 1992; Xu et al. 2016). Most researchers concentrated on estimating aboveground biomass due to the difficulty in gathering underground biomass data (Lu 2006).

& Yasser Maghsoudi [email protected] 1

Department of Forestry, Tarbiat Modares University, Tehran, Iran

2

Faculty of Geodesy and Geomatics Engineering, K.N. Toosi University of Technology, Tehran, Iran

Aboveground biomass mapping (AGB) employing different remote sensing data and methods has a long history. Since the launch of the Landsat as the first remote sensing satellite to date, different sensors have been applied to estimate forest biomass and combining data from remote sensing imagery with g

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Relating ALOS-2 PALSAR-2 Parameters to Biomass and Structure of Temperate Broadleaf Hyrcanian Forests

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