Health Monitoring of Abies nebrodensis Combining UAV Remote Sensing Data, Climatological and Weather Observations, and Phytosanitary Inspections

• Published in: Forests Vol. 16; no. 7; p. 1200
• Main Authors: Arcidiaco, Lorenzo, Corongiu, Manuela, Della Rocca, Gianni, Barberini, Sara, Emiliani, Giovanni, Schicchi, Rosario, Bonomo, Peppuccio, Pellegrini, David, Danti, Roberto
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 21.07.2025
• Subjects: Abies nebrodensis; Biodiversity; Climate change; Climatic changes; Climatology; Conservation; Datasets; Ecosystems; Endangered & extinct species; Endangered species; Environmental conditions; Environmental stress; High resolution; Machine learning; Moisture content; Monitoring methods; Physiology; Population decline; Precipitation; Remote sensing; Soil erosion; Trees; Unmanned aerial vehicles; Vegetation; Vegetation index; Water content; Wildlife conservation; Wind; Italy; Sicily Italy
• ISSN: 1999-4907; 1999-4907
• DOI: 10.3390/f16071200

Abies nebrodensis L. is a critically endangered conifer endemic to Sicily (Italy). Its residual population is confined to the Madonie mountain range under challenging climatological conditions. Despite the good adaptation shown by the relict population to the environmental conditions occurring in its habitat, Abies nebrodensis is subject to a series of threats, including climate change. Effective conservation strategies require reliable and versatile methods for monitoring its health status. Combining high-resolution remote sensing data with reanalysis of climatological datasets, this study aimed to identify correlations between vegetation indices (NDVI, GreenDVI, and EVI) and key climatological variables (temperature and precipitation) using advanced machine learning techniques. High-resolution RGB (Red, Green, Blue) and IrRG (infrared, Red, Green) maps were used to delineate tree crowns and extract statistics related to the selected vegetation indices. The results of phytosanitary inspections and multispectral analyses showed that the microclimatic conditions at the site level influence both the impact of crown disorders and tree physiology in terms of water content and photosynthetic activity. Hence, the correlation between the phytosanitary inspection results and vegetation indices suggests that multispectral techniques with drones can provide reliable indications of the health status of Abies nebrodensis trees. The findings of this study provide significant insights into the influence of environmental stress on Abies nebrodensis and offer a basis for developing new monitoring procedures that could assist in managing conservation measures.