Dear MARMAM community, We would like to share our new publication on the spatial filtering provided by directional toothed whale biosonar beams in JEB:
Malinka, CE, Rojano-Doñate, L., Madsen, PT. (2021). Directional biosonar beams allow echolocating harbour porpoises to actively discriminate and intercept closely spaced targets. Journal of Experimental Biology, 224 (16): jeb242779. doi: https://doi.org/10.1242/jeb.242779 Abstract: Echolocating toothed whales face the problem that high sound speeds in water mean that echoes from closely spaced targets will arrive at time delays within their reported auditory integration time of some 264 µs. Here, we test the hypothesis that echolocating harbour porpoises cannot resolve and discriminate targets within a clutter interference zone given by their integration time. To do this, we trained two harbour porpoises (Phocoena phocoena) to actively approach and choose between two spherical targets at four varying inter-target distances (13.5, 27, 56 and 108 cm) in a two-alternative forced-choice task. The free-swimming, blindfolded porpoises were tagged with a sound and movement tag (DTAG4) to record their echoic scene and acoustic outputs. The known ranges between targets and the porpoise, combined with the sound levels received on target-mounted hydrophones revealed how the porpoises controlled their acoustic gaze. When targets were close together, the discrimination task was more difficult because of smaller echo time delays and lower echo level ratios between the targets. Under these conditions, buzzes were longer and started from farther away, source levels were reduced at short ranges, and the porpoises clicked faster, scanned across the targets more, and delayed making their discrimination decision until closer to the target. We conclude that harbour porpoises can resolve and discriminate closely spaced targets, suggesting a clutter rejection zone much shorter than their auditory integration time, and that such clutter rejection is greatly aided by spatial filtering with their directional biosonar beam. It's not open access (sorry), but a PDF is freely available on the Aarhus Bioacoustics lab website: https://marinebioacoustics.wordpress.com/publications/ Kindest regards, Chloe Chloe Malinka, PhD Marine Bioacoustics Lab<http://www.marinebioacoustics.com/> Zoophysiology, Dept. Biology Aarhus University C.F. Møllers Allé 3, Building 1131 DK-8000 Aarhus C, Denmark Email: [email protected]<mailto:[email protected]> Twitter: @c_malinka<https://twitter.com/c_malinka> [AU_Logo]
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