Predicting fire risk and improving forest fire management with UAV LiDAR


Forest fires are becoming more and more prevalent with climate change

With climate change, forest fires are becoming more common, causing ecological and economic loss. A forest fire site was assessed using high-resolution LiDAR (Light Detection and Ranging), captured from a drone, and satellite optical imagery to appraise the potential of this approach for the future. The findings showed that UAV LiDAR data provided ecologically meaningful metrics which can be used to predict fire risk, develop more detailed, site-specific fire impact studies and create post-fire management plans.

Establishing forest fire severity with UAV LiDAR

Wildfires don’t burn evenly through forests, some areas may be barely touched, whilst in other areas, most of the trees and foliage will be severely damaged. Understanding the severity and distribution of a fire within a forest can assist with estimating and modelling future forest fires to aid both prevention and containment.

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Different tree profiles from UAV LiDAR within the forest fire area 

Satellite optical imagery cannot penetrate through the canopy down to the low-level vegetation and the ground below. Low altitude UAV LiDAR overcomes this constraint. Lasers can penetrate through the gaps in the foliage, and the resulting three-dimensional point cloud displays the canopy, the lower vegetation and the ground beneath. Individual trees can be detected, and the vertical profile of the canopy and vegetation can be viewed.

UAV LiDAR enables a fine-grain assessment of fire severity

In this study, the research team at Toledo University surveyed the 2017 Yeste forest fire site in Albacete, SE, Spain. The survey was undertaken using the Routescene UAV LiDAR system and data analysis in Routescene’s LidarViewer Pro software to establish ground from non-ground points to create Digital Terrain Models (DTMs) and Canopy Height Models.

Areas of moderate severity damage from forest fire shown in LidarViewer Pro software

Few studies have used LiDAR drone data to characterise crown damage after fires at the individual tree level. The team could distinguish crown fire from surface fire through changes in the understory Leaf Area Index and understory and midstory vegetation. They found that unburned and low-severity burned areas were more diverse in tree structures than moderate and high severity burned ones.

Olga Viedma from the Department of Environmental Sciences, University of Castilla-La Mancha, Spain, commented, “UAV LiDAR surveying, with its level of detail, was the obvious next choice of technology and a natural evolution to further examine the levels of damage to individual trees. I am delighted to say the Routescene UAV LiDAR system worked well and proved to be very useful. We have since carried out further studies on forest fires using the system in central Spain and the Canary Islands.”

The project demonstrated the potential to distinguish post-fire plant structures in detail using UAV LiDAR data. When crossed with satellite-based fire severity metrics, the high-resolution results allow researchers to estimate the impact of fire on single trees, not just whole forested areas, using metrics that are ecologically meaningful down to an individual tree level. 

Routescene UAV LidarPod 

For more information on this case study of the Routescene UAV LiDAR system being used for investigating the effects of forest fires, please visit

Tags : LiDARRoutesceneUAV
Georgina Ford

The author Georgina Ford

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