Shijuan Chen scite author profile

Monitoring vegetation recovery typically requires ground measurements of vegetation height, which is labor-intensive and time-consuming. Recently, unmanned aerial vehicles (UAVs) have shown great promise for characterizing vegetation in a cost-efficient way, but the literature on specific methods and cost savings is scant. In this study, we surveyed vegetation height on seismic lines in Alberta's Boreal Forest using a point-intercept sampling strategy, and compared them to height estimates derived from UAV-based photogrammetric point clouds. In order to derive UAV-based vegetation height, we tested three different approaches to estimate terrain elevation: (1) UAV_RTK, where photogrammetric point clouds were normalized using terrain measurements obtained from a real-time kinematic global navigation satellite system (RTK GNSS) surveys; (2) UAV_LiDAR, where photogrammetric data were normalized using pre-existing LiDAR (Light Detection and Ranging) data; and (3) UAV_UAV, where UAV photogrammetry data were used alone. Comparisons were done at two scales: point level (n = 1743) and site level (n = 30). The point-level root-mean-square errors (RMSEs) of UAV_RTK, UAV_LiDAR, and UAV_UAV were 28 cm, 31 cm, and 30 cm, respectively. The site-level RMSEs were 11 cm, 15 cm, and 8 cm, respectively. At the aggregated site level, we found that UAV photogrammetry could replace traditional field-based vegetation surveys of mean vegetation height across the range of conditions assessed in this study, with an RMSE less than 10 cm. Cost analysis indicates that using UAV-based point clouds is more cost-effective than traditional field vegetation surveys.

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Monitoring temperate forest degradation on Google Earth Engine using Landsat time series analysis

Chen

Woodcock

Bullock

et al. 2021

Remote Sensing of Environment

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Mapping causal agents of disturbance in boreal and arctic ecosystems of North America using time series of Landsat data

Zhang

Woodcock

Chen

et al. 2022

Remote Sensing of Environment

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Monitoring shifting cultivation in Laos by combining time series analysis and object-based analysis

Chen

Olofsson

Saphangthong

et al. 2022

Preprint

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Shijuan Chen

Measuring Vegetation Height in Linear Disturbances in the Boreal Forest with UAV Photogrammetry

Monitoring temperate forest degradation on Google Earth Engine using Landsat time series analysis

Mapping causal agents of disturbance in boreal and arctic ecosystems of North America using time series of Landsat data

Monitoring shifting cultivation in Laos by combining time series analysis and object-based analysis

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