Chasing the bird: 3D acoustic tracking of aerial flight displays with a minimal planar microphone array
Peer reviewed, Journal article
Published version
Permanent lenke
https://hdl.handle.net/11250/3087842Utgivelsesdato
2023Metadata
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Originalversjon
10.1080/09524622.2023.2241420Sammendrag
Tracking the flight patterns of birds and bats in three-dimensional space is central to key questions in evolutionary ecology but remains a difficult technical challenge. For example, complex aerial flight displays are common among birds breeding in open habitats, but information on flight performance is limited. Here, we demonstrate the feasibility of using a large ground-based 4-microphone planar array to track the aerial flight displays of the cryptic Jack Snipe Lymnocryptes minimus. The main element of male display flights resembles a galloping horse at a distance. Under conditions of sufficient signal-to-noise ratio and of vertical alignment with the microphone array, we successfully tracked male snipe in 3D space for up to 25 seconds with a total flight path of 280 m. The ’gallop’ phase of male snipe dropped from ca. 141 to 64 m above ground at an average velocity of 77 km/h and up to 92 km/h. Our project is one of the first applications of bioacoustics to measure 3D flight paths of birds under field conditions, and our results were consistent with our visual observations. Our microphone array and postprocessing workflow provides a standardised protocol that could be used to collect comparative data on birds with complex aerial flight displays. Acoustic display; animal flight; flight tracking; Jack Snipe; Lymnocryptes minimus; microphone array