Abstract
Abstract. In recent years unmanned aerial vehicles (UAVs) have been used in several applications and research studies related to environmental monitoring. The works performed have demonstrated the suitability of UAVs to be employed in different scenarios, taking advantage of its capacity to acquire high-resolution data from different sensing payloads, in a timely and flexible manner. In forestry ecosystems, UAVs can be used with accuracies comparable with traditional methods to retrieve different forest properties, to monitor forest disturbances and to support disaster monitoring in fire and post-fire scenarios. In this study an area recently affected by a wildfire was surveyed using two UAVs to acquire multi-spectral data and RGB imagery at different resolutions. By analysing the surveyed area, it was possible to detect trees, that were able to survive to the fire. By comparing the ground-truth data and the measurements estimated from the UAV-imagery, it was found a positive correlation between burned height and a high correlation for tree height. The mean NDVI value was extracted used to create a three classes map. Higher NDVI values were mostly located in trees that survived that were not/barely affected by the fire. The results achieved by this study reiterate the effectiveness of UAVs to be used as a timely, efficient and cost-effective data acquisition tool, helping for forestry management planning and for monitoring forest rehabilitation in post-fire scenarios.
Highlights
Fires, caused by human or natural actions, are one of the disturbances that can severely affect forest ecosystems (Foster et al, 1998)
The methods employed in this study enabled to estimate the diameter at breast height (DBH) by regression of the canopy height models (CHMs) and the vegetation indices
This study shows the suitability of unmanned aerial vehicles (UAVs) to survey post-fires areas using RGB and multispectral imagery
Summary
Fires, caused by human or natural actions, are one of the disturbances that can severely affect forest ecosystems (Foster et al, 1998). In forestry, UAVs are used for estimation of dendrometric parameters, tree species classification, canopy gap analysis, forest health monitoring, disease mapping, for forest fire monitoring and post-fire monitoring (Torresan et al, 2017). Such applications are possible due to the flexibility of UAVs to support different sensors enabling to acquire RGB, multispectral, thermal infrared, hyperspectral and LiDAR data providing greater spatial and temporal resolutions than other remote sensing platforms (Pádua et al, 2017). UAVs can be used for forest fire prevention (Fernández-Álvarez et al, 2019), to estimate canopy fuels (Shin et al, 2018), for fire monitoring (Martínez-de Dios et al, 2011; Merino et al, 2012) and to help in firefighting operations (Yuan et al, 2015)
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