Eoldist, a Web Application for Estimating Cautionary Detection Distance of Birds by Automatic Detection Systems to Reduce Collisions With Wind Turbines
Julie Fluhr,
Olivier Duriez,
Constance Blary,
Thierry Chambert,
Bettina Almasi,
Patrik Byholm,
Nelleke H. Buitendijk,
Jocelyn Champagnon,
Mindaugas Dagys,
Wolfgang Fiedler,
Charlotte Francesiaz,
Frédéric Jiguet,
Simon Lee,
Alexandre Millon,
Flavio Monti,
Lucile Morcelet,
Ran Nathan,
Bart A. Nolet,
Rascha Nuijten,
Philippe Pilard,
Cécile Ponchon,
Alexandre Roulin,
Carlos D. Santos,
Orr Spiegel,
Kim Schalcher,
Aurélie De Seynes,
Geert Spanoghe,
Martin Wikelski,
Ramunas Žydelis,
Aurélien Besnard
Affiliations
Julie Fluhr
CEFE, Univ Montpellier, CNRS, EPHE, IRD Montpellier France
Olivier Duriez
CEFE, Univ Montpellier, CNRS, EPHE, IRD Montpellier France
Constance Blary
CEFE, Univ Montpellier, CNRS, EPHE, IRD Montpellier France
Thierry Chambert
CEFE, Univ Montpellier, CNRS, EPHE, IRD Montpellier France
Bettina Almasi
Swiss Ornithological Institute Sempach Switzerland
Patrik Byholm
Novia University of Applied Sciences Ekenäs Finland
Nelleke H. Buitendijk
Department of Animal Ecology Netherlands Institute of Ecology Wageningen The Netherlands
Jocelyn Champagnon
Tour du Valat, Research Institute for Conservation of Mediterranean Wetlands Arles France
Mindaugas Dagys
Nature Research Centre Vilnius Lithuania
Wolfgang Fiedler
Max Planck Institute of Animal Behavior Radolfzell Germany
Charlotte Francesiaz
Office Français pour la Biodiversité, Direction Recherche et Appui Scientifique Juvignac France
Frédéric Jiguet
CESCO, MNHN CNRS Sorbonne Université Paris France
Simon Lee
Centre for Ecology and Conservation University of Exeter Penryn UK
ABSTRACT The installation of automatic detection systems (ADSs) on operating wind energy facilities is a mitigation measure to reduce bird collisions. The effectiveness of an ADS depends on a combination of parameters, including the detection distance of the bird, its flight speed, and the time to complete the chosen action (e.g., turbine shutdown). We created a web application, Eoldist, to calculate cautionary detection distances required by an ADS, using bird flight speed and turbine shutdown time as input parameters. We compiled a database of the flight speeds of 168 Western Palearctic birds from a review of scientific literature supplemented by an analysis of unpublished GPS‐tracking datasets. To estimate turbine shutdown time, we conducted 137 field trials of experimental shutdown at seven wind farms and found that the duration to reach residual rotor speeds of 3 or 2 rotations per minute (rpm) was respectively 32.2 or 38.8 s on average. Based on this data, Eoldist allows the user to select a species from the database, wind turbine characteristics, and a residual rotor speed (3 or 2 rpm); it then calculates the time to reach the selected threshold and provides a distribution curve for the cautionary detection distance needed to prevent collision. This article includes examples of cautionary detection distances required for several species to demonstrate the sensitivity of key input parameters. Eoldist is freely available and should help the wind energy industry, ADS suppliers, and environmental agencies to define requirements for ADS bird detection that are compatible with the biology of the target species.
