Differentiation of Narrow-band High-frequency Signals Produced by Odontocetes

ABSTRACT OF THE THESISDifferentiation of Narrow-Band High Frequency-Signals Produced by OdontocetesbyGrace Elizabeth TellerMaster of Science in OceanographyUniversity of California, San Diego, 2016Simone Baumann-Pickering, ChairPassive acoustics are an excellent method for studying marine mammals th...

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Bibliographic Details
Main Author: Teller, Grace
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: eScholarship, University of California 2016
Subjects:
Online Access:http://www.escholarship.org/uc/item/728841nv
http://n2t.net/ark:/13030/m51c6jjj
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Summary:ABSTRACT OF THE THESISDifferentiation of Narrow-Band High Frequency-Signals Produced by OdontocetesbyGrace Elizabeth TellerMaster of Science in OceanographyUniversity of California, San Diego, 2016Simone Baumann-Pickering, ChairPassive acoustics are an excellent method for studying marine mammals through echolocation. The data captured in acoustic recordings has the ability to relay information about density, distribution, and behavior over long time periods. The ability to understand, monitor, and predict these factors is imperative to the conservation and management of marine mammals. In order to utilize passive acoustics effectively, researchers must first become well acquainted with how to distinguish acoustic emissions. The northeast Pacific Ocean is home to at least four species of odontocetes producing narrow-band high-frequency (NBHF) signals. Utilizing bottom moored passive acoustics these signals were recorded at three sites. Eight unknown click types of NBHF echolocation clicks resulted with varying spectral and temporal features that were used in discriminating harbor porpoise (Phocoena phocoena), Dall’s porpoise (Phocoenoides dalli), and dwarf and pygmy sperm whales as a group (Kogia spp). Associations were made based on relative dominance by click type at a site and known habitat and ecology of each species in question. Based on this association, harbor porpoise signals are best described by a notch position lower than the peak. Bimodal inter-click interval (ICI) below 40 ms and around 135 ms indicates a potential for this species to switch between long and short range sensing. Possible Dall’s porpoise and Kogia spp. signals both maintain a spectral shape where the notch is positioned after the peak frequency. Distinguishing these species may best be done by the position of energy onset above and below 100 kHz and ICI around 40 ms or 80 ms, respectively.