Mapping the spatial pattern of temperate forest above ground biomass by integrating airborne lidar with Radarsat-2 imagery via geostatistical models

Wang Li; Zheng Niu; Shuai Gao; Cheng Wang

doi:10.1117/12.2068643

17 November 2014 Mapping the spatial pattern of temperate forest above ground biomass by integrating airborne lidar with Radarsat-2 imagery via geostatistical models

Wang Li, Zheng Niu, Shuai Gao, Cheng Wang

Author Affiliations +

Proceedings Volume 9262, Lidar Remote Sensing for Environmental Monitoring XIV; 92620S (2014) https://doi.org/10.1117/12.2068643
Event: SPIE Asia-Pacific Remote Sensing, 2014, Beijing, China

Abstract

Light Detection and Ranging (LiDAR) and Synthetic Aperture Radar (SAR) are two competitive active remote sensing techniques in forest above ground biomass estimation, which is important for forest management and global climate change study. This study aims to further explore their capabilities in temperate forest above ground biomass (AGB) estimation by emphasizing the spatial auto-correlation of variables obtained from these two remote sensing tools, which is a usually overlooked aspect in remote sensing applications to vegetation studies. Remote sensing variables including airborne LiDAR metrics, backscattering coefficient for different SAR polarizations and their ratio variables for Radarsat-2 imagery were calculated. First, simple linear regression models (SLR) was established between the field-estimated above ground biomass and the remote sensing variables. Pearson’s correlation coefficient (R²) was used to find which LiDAR metric showed the most significant correlation with the regression residuals and could be selected as co-variable in regression co-kriging (RCoKrig). Second, regression co-kriging was conducted by choosing the regression residuals as dependent variable and the LiDAR metric (Hmean) with highest R² as co-variable. Third, above ground biomass over the study area was estimated using SLR model and RCoKrig model, respectively. The results for these two models were validated using the same ground points. Results showed that both of these two methods achieved satisfactory prediction accuracy, while regression co-kriging showed the lower estimation error. It is proved that regression co-kriging model is feasible and effective in mapping the spatial pattern of AGB in the temperate forest using Radarsat-2 data calibrated by airborne LiDAR metrics.

Citation Download Citation

Wang Li, Zheng Niu, Shuai Gao, and Cheng Wang "Mapping the spatial pattern of temperate forest above ground biomass by integrating airborne lidar with Radarsat-2 imagery via geostatistical models", Proc. SPIE 9262, Lidar Remote Sensing for Environmental Monitoring XIV, 92620S (17 November 2014); https://doi.org/10.1117/12.2068643

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