Ocean bottom seismometer networks can record opportunistic data sets of 20-Hz fin whale calls. Because networks are often too sparse for multi-station tracking, single-station methods are needed to estimate call density. We investigated a method to range to singing fin whales at full ocean depths using the spacing of water column multiples. Calls were detected by cross-correlating a spectrogram with a template call. To enhance multipath signals, we considered 20-min windows and either summed the spectrograms of all calls aligned on the strongest detection before measuring the multipath spacing or measured the spacing directly from the autocorrelation of the cross correlation time series. We evaluated the methods at five sites with contrasting seafloor and subsurface properties, bathymetric relief, and water depths of 4000–6000 m, using fin whale songs at four sites and a sei whale song at the fifth. The autocorrelation method works best, and ranges can be obtained to >15 km. Ranging at sedimented sites requires careful accounting for subsurface reflections. Ranges have considerable uncertainty in regions of bathymetric relief. The method requires that the time between calls is different from that of the multipaths and does not work reliably when more than one whale is singing nearby.
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February 2024
February 05 2024
Estimating distances to baleen whales using multipath arrivals recorded by individual seafloor seismometers at full ocean depth
Rose Hilmo
;
Rose Hilmo
a)
School of Oceanography, University of Washington
, Seattle, Washington 98195, USA
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William S. D. Wilcock
William S. D. Wilcock
School of Oceanography, University of Washington
, Seattle, Washington 98195, USA
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a)
Email: wader@uw.edu
J. Acoust. Soc. Am. 155, 930–951 (2024)
Article history
Received:
June 14 2023
Accepted:
January 11 2024
Citation
Rose Hilmo, William S. D. Wilcock; Estimating distances to baleen whales using multipath arrivals recorded by individual seafloor seismometers at full ocean depth. J. Acoust. Soc. Am. 1 February 2024; 155 (2): 930–951. https://doi.org/10.1121/10.0024615
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