Localization and propagation of seismic shots in the deep-water Beaufort Sea

Sound propagation models were developed for modally dispersed seismic shots to determine range to a seismic source from two High-frequency Acoustic Recording Packages (HARPs) deployed on the continental slope break north-northwest of Point Barrow, Alaska in the fall of 2007.Received levels at the HA...

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Bibliographic Details
Main Author: Keen, Kelly Ann
Format: Article in Journal/Newspaper
Language:English
Published: eScholarship, University of California 2012
Subjects:
Online Access:http://www.escholarship.org/uc/item/5vg0p7x3
Description
Summary:Sound propagation models were developed for modally dispersed seismic shots to determine range to a seismic source from two High-frequency Acoustic Recording Packages (HARPs) deployed on the continental slope break north-northwest of Point Barrow, Alaska in the fall of 2007.Received levels at the HARPs had an average received sound level of 112.8 dB rms. These received level measurements coincide with levels that have shown to elicit behavioral responses in bowhead whales, and raise concerns about how seismic activities may potentially impact marine mammals across large spatial scales and international maritime boundaries. Although guidelines have been established to reduce such impacts, current mitigation measures show considerable variation between countries and do not take into account the transboundary nature of sound in the ocean. To provide an international framework for the regulation of seismic surveys in the Arctic, a better understanding of how sound propagates in a changing Arctic environment, in addition to how the cumulative impacts of multiple seismic activities may influence ambient noise levels across large spatial scales is needed. A collaborative approach to management, mitigation, and research is essential to provide effective protection for marine mammals as a result of increased international and multi-industry interest in the Arctic and its natural resources.