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Veilleux S., Decaulne A., Bhiry N. (2018). Processus de pente, changement climatique et risques naturels dans la vallée Tasiapik, Nunavik, Canada..
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Veilleux S., Bhiry N., Decaulne A., Sæmundsson &Thorn;. (2017). Slope processes and associated risks to local residents and tourists in the Tasiapik Valley in Umiujaq, Nunavik. Arctic Change 2017, Quebec City, Canada, 11-15 December 2017.
Abstract:
Programme: 1148
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Vauglin I. (2020). ASTEP et ASTEP+, les exoplanètes depuis Concordia.
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Vaughan G., Roscoe H.K., Bartlett L.M., O'Connor F.M., Sarkissian A., Van Roozendael M., Lambert J.C., Simon P.C., Karlsen, K. Kaastad Hoiskar B.A., Fish D.J., Jones R.L., Freshwater R., Pommereau J.P. et al. (1997). An intercomparison of ground-based UV- visible sensors of Ozone and NO2. J. Geophys. Res., 1, 1411–1422.
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Vasset N., Mah C., Améziane N., Hemery L., Neill K. & Eléaume M. (2013). Biodiversité des astéries de l’Océan Austral. 9e Journées Scientifiques du CNFRA, Paris, 16-17 mai..
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Vas Elisabeth, Lescroël Amélie, Duriez Olivier, Boguszewski Guillaume, Grémillet David, . (2015). Approaching birds with drones: first experiments and ethical guidelines.
. Biology letters, 11(2), 20140754.
Abstract: Unmanned aerial vehicles, commonly called drones, are being increasingly used in ecological research, in particular to approach sensitive wildlife in inaccessible areas. Impact studies leading to recommendations for best practices are urgently needed. We tested the impact of drone colour, speed and flight angle on the behavioural responses of mallards Anas platyrhynchos in a semi-captive situation, and of wild flamingos (Phoenicopterus roseus) and common greenshanks (Tringa nebularia) in a wetland area. We performed 204 approach flights with a quadricopter drone, and during 80% of those we could approach unaffected birds to within 4 m. Approach speed, drone colour and repeated flights had no measurable impact on bird behaviour, yet they reacted more to drones approaching vertically. We recommend launching drones farther than 100 m from the birds and adjusting approach distance according to species. Our study is a first step towards a sound use of drones for wildlife research. Further studies should assess the impacts of different drones on other taxa, and monitor physiological indicators of stress in animals exposed to drones according to group sizes and reproductive status.
Keywords: Aircraft, Aircraft: ethics, Aircraft: instrumentation, Animals, Behavior, Animal, Charadriiformes, Charadriiformes: physiology, Color, Ducks, Ducks: physiology, Remote Sensing Technology, Remote Sensing Technology: ethics, Remote Sensing Technology: instrumentation,
Programme: 388
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Varlamov A., Keptuke G., Lavrillier A. (2020). Electronic Devices for Safeguarding Indigenous Languages and Cultures (Eastern Siberia).
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