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High resolution three-dimensional beam radiation pattern of harbour porpoise clicks with implications for passive acoustic monitoring

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  • Jamie D.J. Macaulay, University of St Andrews
  • ,
  • Chloe E. Malinka
  • ,
  • Douglas Gillespie, University of St Andrews
  • ,
  • Peter T. Madsen

The source properties and radiation patterns of animal vocalisations define, along with propagation and noise conditions, the active space in which these vocalisations can be detected by conspecifics, predators, prey, and by passive acoustic monitoring (PAM). This study reports the 4π (360° horizontal and vertical) beam profile of a free-swimming, trained harbour porpoise measured using a 27-element hydrophone array. The forward echolocation beam is highly directional, as predicted by a piston model, and is consistent with previous measurements. However, at off-axis angles greater than ±30°, the beam attenuates more rapidly than the piston model and no side lobes are present. A diffuse back beam is also present with levels about -30 dB relative to the source level. In PAM, up to 50% of detections can be from portions of the beam profile with distorted click spectra, although this drops substantially for higher detection thresholds. Simulations of the probability of acoustically detecting a harbour porpoise show that a traditional piston model can underestimate the probability of detection compared to the actual three-dimensional radiation pattern documented here. This highlights the importance of empirical 4π measurements of beam profiles of toothed whales, both to improve understanding of toothed whale biology and to inform PAM.

Original languageEnglish
JournalThe Journal of the Acoustical Society of America
Number of pages14
Publication statusPublished - Jun 2020

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