17 October 2016 Upscaling coniferous forest above-ground biomass based on airborne LiDAR and satellite ALOS PALSAR data
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Forest above-ground biomass (AGB) is an important indicator for understanding the global carbon cycle. It is hard to obtain a geographically and statistically representative AGB dataset, which is limited by unpredictable environmental conditions and high economical cost. A spatially explicit AGB reference map was produced by airborne LiDAR data and calibrated by field measurements. Three different sampling strategies were designed to sample the reference AGB, PALSAR backscatter, and texture variables. Two parametric and four nonparametric models were established and validated based on the sampled dataset. Results showed that random stratified sampling that used LiDAR-evaluated forest age as stratification knowledge performed the best in the AGB sampling. The addition of backscatter texture variables improved the parametric model performance by an R2 increase of 21% and a root-mean-square error (RMSE) decrease of 10  Mg ha−1. One of the four nonparametric models, namely, the random forest regression model, obtained comparable performance (R2=0.78, RMSE=14.95  Mg ha−1) to the parametric model. Higher estimation errors occurred in the forest stands with lower canopy cover or higher AGB levels. In conclusion, incorporating airborne LiDAR and PALSAR data was proven to be efficient in upscaling the AGB estimation to regional scale, which provides some guidance for future forest management over cold and arid areas.
© 2016 Society of Photo-Optical Instrumentation Engineers (SPIE)
Wang Li, Wang Li, Zheng Niu, Zheng Niu, Zengyuan Li, Zengyuan Li, Cheng Wang, Cheng Wang, Mingquan Wu, Mingquan Wu, Shakir Muhammad, Shakir Muhammad, } "Upscaling coniferous forest above-ground biomass based on airborne LiDAR and satellite ALOS PALSAR data," Journal of Applied Remote Sensing 10(4), 046003 (17 October 2016). https://doi.org/10.1117/1.JRS.10.046003 . Submission:


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