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Título : Estimating Total Length of Partially Submerged Crocodylians from Drone Imagery
Autor : Aubert, Clément
Moguédec, Gilles Le
Velasco, Alvaro
Combrink, Xander
Lang, Jeffrey W.
Griffith, Phoebe
Pacheco-Sierra, Gualberto
Pérez, Etiam
Charruau, Pierre
Francisco, Villamarín
Roberto, Igor J.
Marioni, Boris
Colbert, Joseph E.
Mobaraki, Asghar
Woodward, Allan R.
Somaweera, Ruchira
Tellez, Marisa
Brien, Matthew
Matthew H., Shirley
Palabras clave : UAV
allometry
crocodiles survey
non-invasive survey
ecology
alternative methods
Fecha de publicación : 2024
Editorial : Scopus
Citación : PRODUCCIÓN CIENTÍFICA-ARTÍCULOS;A-IKIAM-000521
Resumen : Understanding the demographic structure is vital for wildlife research and conservation. For crocodylians, accurately estimating total length and demographic class usually necessitates close observation or capture, often of partially immersed individuals, leading to potential imprecision and risk. Drone technology offers a bias-free, safer alternative for classification. We evaluated the effectiveness of drone photos combined with head length allometric relationships to estimate total length, and propose a standardized method for drone-based crocodylian demographic classification. We evaluated error sources related to drone flight parameters using standardized targets. An allometric framework correlating head to total length for 17 crocodylian species was developed, incorporating confidence intervals to account for imprecision sources (e.g., allometric accuracy, head inclination, observer bias, terrain variability). This method was applied to wild crocodylians through drone photography. Target measurements from drone imagery, across various resolutions and sizes, were consistent with their actual dimensions. Terrain effects were less impactful than Ground-Sample Distance (GSD) errors from photogrammetric software. The allometric framework predicted lengths within ≃11–18% accuracy across species, with natural allometric variation among individuals explaining much of this range. Compared to traditional methods that can be subjective and risky, our drone-based approach is objective, efficient, fast, cheap, non-invasive, and safe. Nonetheless, further refinements are needed to extend survey times and better include smaller size classes.
URI : http://repositorio.ikiam.edu.ec/jspui/handle/RD_IKIAM/783
ISSN : 2504-446X
https://doi.org/10.3390/drones8030115
Aparece en las colecciones: ARTÍCULOS CIENTÍFICOS

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