2015
DOI: 10.1017/s1466046615000186
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Environmental Reviews and Case Studies: Applications of Unmanned Aircraft Systems (UAS) for Waterbird Surveys

Abstract: Utilizing unmanned aircraft systems (UAS) can be an efficient and repeatable means of surveying wildlife, especially waterbirds. As with any technology in its infancy, case studies offer opportunities to explore drawbacks and limitations, both anticipated and unanticipated. We examined the relationship between flight altitude and camera focal length on bird identification. We then conducted a post-hoc analysis to examine the effect of flight altitude on bird flushing behavior. We flew UAS missions at three loc… Show more

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Cited by 41 publications
(51 citation statements)
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“…This finding is consistent with that of Mulero-Pázmány et al [39], who also found that the targets (i.e., rhinoceros, people acting as poachers) were better detected with a lower-flying drone. Our results are also consistent with those of Dulava et al [49], who reported a significant negative relation between ground sampling distance (GSD) and correct waterbird identification with a minimum of 5 mm GSD. In our study, we favored flight altitude AGL above GSD as a measure of resolution because of identical camera parameters, however, the two are conceptually interchangeable.…”
Section: Discussionsupporting
confidence: 93%
“…This finding is consistent with that of Mulero-Pázmány et al [39], who also found that the targets (i.e., rhinoceros, people acting as poachers) were better detected with a lower-flying drone. Our results are also consistent with those of Dulava et al [49], who reported a significant negative relation between ground sampling distance (GSD) and correct waterbird identification with a minimum of 5 mm GSD. In our study, we favored flight altitude AGL above GSD as a measure of resolution because of identical camera parameters, however, the two are conceptually interchangeable.…”
Section: Discussionsupporting
confidence: 93%
“…Vas et al (2015) systematically assessed reactions of non-breeding mallards (Anas platyrhynchos), greater flamingos (Phoenicopterus roseus), and common greenshanks (Tringa nebularia) to small multirotor UAS of varying colour, speed, and approach angle. Most recently, Dulava et al (2015) evaluated the detectability of non-breeding waterbird species as well as decoys by small fixedwing UAS at varying flight altitudes and camera settings, while Brooke et al (2015) reported detection of various seabirds in UAS video footage.…”
Section: Birdsmentioning
confidence: 99%
“…Finally, a key consideration is whether UAS disturb target or non-target animals, which a growing number of studies have quantitatively assessed (Sarda-Palomera et al 2012;Chabot et al 2015;Ditmer et al 2015;Dulava et al 2015;Goebel et al 2015;Pomeroy et al 2015;Vas et al 2015). The general consensus has been that UAS cause low to no disturbance, in particular when compared to alternative methods, such as intrusive direct surveying by investigators or low-altitude surveying by larger and noisier conventional aircraft.…”
Section: Herptilesmentioning
confidence: 99%
“…, Dulava et al. ) due to their low flight altitude and small area footprint of individual images. The time required to manually review and analyze images may then negate any efficiency gained during data collection.…”
Section: Introductionmentioning
confidence: 99%
“…UAS can provide precise, lowdisturbance surveys of birds , Vas et al 2015, Hodgson et al 2016. Unlike manned aircraft, however, UAS are obligate photographic survey platforms that usually collect large numbers of images (Drever et al 2015, Dulava et al 2015 due to their low flight altitude and small area footprint of individual images. The time required to manually review and analyze images may then negate any efficiency gained during data collection.…”
Section: Introductionmentioning
confidence: 99%