Abstract
The visual camouflage of many species living in the dense cover of the tropical rainforest become obstacles to conducting species monitoring. Unmanned aerial vehicles (drones) combined with thermal infrared imaging (TIR) can rapidly scan large areas from above and detect wildlife that has a body temperature that contrasts with its surrounding environment. This research tested the feasibility of DJI Mavic 2 Enterprise Dual with FLIR as aerial survey platforms to detect terrestrial and arboreal mammals in the five tree density classes in the remaining natural environment on the IPB University campus. This study demonstrated that large-size terrestrial mammal thermal signatures are visible in sparse vegetation at daytime and in the area under the canopy at night monitoring. In contrast, arboreal mammals were better detected in at early morning and night. Survey timing highly influenced the results – the best quality thermal images were obtained at sunrise, late evening, and at night. The drones allow safe operation at low altitudes with low levels of disturbance to animals. Both terrestrial and arboreal mammals are well detected and easily identified when the drone is flying at an altitude < 50 m HAGL. Our preliminary results indicated that thermal surveys from drones are a promising method.
Highlights
Wildlife monitoring is an essential aspect of biodiversity conservation efforts [1, 2]
This research uses consumer unmanned aerial vehicles (UAVs, commonly referred to as "drones") that fitted with a thermal infrared (TIR) camera to monitor mammals in the wild
Our study represents the first test of unmanned aerial vehicles with thermal infrared imagery to survey tropical rainforest terrestrial and arboreal mammals in Indonesia
Summary
Wildlife monitoring is an essential aspect of biodiversity conservation efforts [1, 2]. Aerial surveys to monitor wildlife in tropical areas are still rare because species live in rainforest habitat, where a thick canopy shades them from visual detection. This research uses consumer unmanned aerial vehicles (UAVs, commonly referred to as "drones") that fitted with a thermal infrared (TIR) camera to monitor mammals in the wild. This way is an opportunity that has only emerged in the last decade and could provide a solution for monitoring animals that are under heavy canopy. For the first time in this study, this research assessed these technologies' potential for surveying mammals who spend the majority of their lives on grounds (terrestrial) and trees (arboreal) in tropical rainforest Indonesia. Its main interest is evaluating the UAVs-TIR sensor system's performance in detecting mammals under various environmental conditions and determining several flight parameters and the response of animals to the flight of this technology
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