基于ICESat GLAS的云南省森林地上生物量反演

黄克标; 庞勇; 舒清态; 付甜

doi:10.11834/jrs.20130436

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基于ICESat GLAS的云南省森林地上生物量反演
Aboveground forest biomass estimation using ICESat GLAS in Yunnan,China
2013年17卷第1期页码：165-179
纸质出版日期： 2013 ，
DOI： 10.11834/jrs.20130436

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[1]黄克标,庞勇,舒清态,付甜.基于ICESat GLAS的云南省森林地上生物量反演[J].遥感学报,2013,17(01):165-179.

Aboveground forest biomass estimation using ICESat GLAS in Yunnan,China[J]. Journal of Remote Sensing, 2013,17(1):165-179.
[1]黄克标,庞勇,舒清态,付甜.基于ICESat GLAS的云南省森林地上生物量反演[J].遥感学报,2013,17(01):165-179. DOI： 10.11834/jrs.20130436.

Aboveground forest biomass estimation using ICESat GLAS in Yunnan,China[J]. Journal of Remote Sensing, 2013,17(1):165-179. DOI： 10.11834/jrs.20130436.

摘要

结合机载、星载激光雷达对GLAS（地球科学激光测高系统）光斑范围内的森林地上生物量进行估测

并利用MODIS植被产品以及MERIS土地覆盖产品进行了云南省森林地上生物量的连续制图。机载LiDAR扫描的260个训练样本用于构建星载GLAS的森林地上生物量估测模型

模型的决定系数（R2）为0.52

均方根误差（RMSE）为31Mg/ha。研究结果显示

云南省总森林地上生物量为12.72亿t

平均森林地上生物量为94Mg/ha。估测的森林地上生物量空间分布情况与实际情况相符

森林地上生物量总量与基于森林资源清查数据的估测结果相符

表明了利用机载LiDAR与星载ICESatGLAS结合进行大区域森林地上生物量估测的可靠性。

Abstract

Accurate estimates of forest aboveground biomass（AGB） could reduce uncertainties in the characterization of terrestrial carbon fluxes.Light Detection and Ranging（LiDAR） provides an accurate measure of canopy height and vertical structure and information for the estimation of aboveground biomass of vegetation.Spaceborne large footprint LiDAR（ICESat GLAS） acquires over 250 million observations over forest regions globally and has been used successfully for forest height and biomass estimation in various sites.In this paper

airborne LiDAR and ICESat GLAS data were used to estimate aboveground biomass of forest at footprint level in Yunnan

China.Vegetation products from EOS MODIS and ENVISAT MERIS were used to expand these discrete estimations from GLAS data to a wall-to-wall map.The R2 between ICESat GLAS waveform parameters and airborne LiDAR estimated forest AGB is 0.52 after training with 260 footprints.Results showed that the total forest AGB in Yunnan Province was 1272 million ton and the average was 94 Mg/ha.The amount and distribution of predicted aboveground biomass were in good agreement with the reference data.The results showed that the predict model using GLAS data could be used to estimate regional forest aboveground biomass successfully.