Abstract
Eucalyptus Longhorned Borers (ELB) are some of the most destructive pests in regions with Mediterranean climate. Low rainfall and extended dry summers cause stress in eucalyptus trees and facilitate ELB infestation. Due to the difficulty of monitoring the stands by traditional methods, remote sensing arises as an invaluable tool. The main goal of this study was to demonstrate the accuracy of unmanned aerial vehicle (UAV) multispectral imagery for detection and quantification of ELB damages in eucalyptus stands. To detect spatial damage, Otsu thresholding analysis was conducted with five imagery-derived vegetation indices (VIs) and classification accuracy was assessed. Treetops were calculated using the local maxima filter of a sliding window algorithm. Subsequently, large-scale mean-shift segmentation was performed to extract the crowns, and these were classified with random forest (RF). Forest density maps were produced with data obtained from RF classification. The normalized difference vegetation index (NDVI) presented the highest overall accuracy at 98.2% and 0.96 Kappa value. Random forest classification resulted in 98.5% accuracy and 0.94 Kappa value. The Otsu thresholding and random forest classification can be used by forest managers to assess the infestation. The aggregation of data offered by forest density maps can be a simple tool for supporting pest management.
Highlights
Eucalyptus Longhorned Borers (ELB), Phoracantha semipunctata (Fabricius), and P. recurva Newman (Coleoptera: Cerambycidae), are among the most destructive eucalypt pests in regions with Mediterranean climate [1,2]
near infrared (NIR) spectral region revealed the largest differences between the two tree classes, and the highest discriminating power when compared with red-edge and other bands
The reflectance of the green band was generally higher than that of red band because of the high This study explored the capability of multispectral images captured with a parrot sequoia camera to detect the mortality caused by ELB on E. globulus plantations
Summary
Eucalyptus Longhorned Borers (ELB), Phoracantha semipunctata (Fabricius), and P. recurva Newman (Coleoptera: Cerambycidae), are among the most destructive eucalypt pests in regions with Mediterranean climate [1,2]. Eucalyptus globulus is one of the most planted eucalypt species in these regions, and it is known to have low resistance to ELB [2,3]. The ability of larvae to successfully colonize the host plant depends on low bark moisture content, leaving water-stressed trees susceptible to attack by ELB [1,5,7]. Under the Mediterranean climate, with low rainfall and extended dry summers periods, the attack by ELB often result in significant tree mortality, despite long-lasting efforts to select for more resistant E. globulus genotypes [8]. With droughts expected to increase due to climate change, ELB outbreaks will likely become more frequent and more severe [9]
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