Modellierung der Schallausbreitung im Südozean zur Abschätzung des Gefährdungspotenzials seismischer Forschungsmessungen für marine Säuger

Modelling sound propagation in the ocean is an essential tool to assess the potential risk of air-gun shots on marine mammals. Based on a 2.5D finite-difference code (Bohlen, 2002) a full waveform modelling approach is presented, which determines both sound exposure levels of single shots and cumula...

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Main Author: Breitzke, Monika
Format: Conference Object
Language:unknown
Published: 2010
Subjects:
Alfred Wegener Institute
Antarc*
Antarctic
Polarforschung
Weddell Sea
Online Access:https://epic.awi.de/id/eprint/21973/
https://hdl.handle.net/10013/epic.34217
id ftawi:oai:epic.awi.de:21973
record_format openpolar
spelling ftawi:oai:epic.awi.de:21973 2024-09-15T17:36:45+00:00 Modellierung der Schallausbreitung im Südozean zur Abschätzung des Gefährdungspotenzials seismischer Forschungsmessungen für marine Säuger Breitzke, Monika 2010 https://epic.awi.de/id/eprint/21973/ https://hdl.handle.net/10013/epic.34217 unknown Breitzke, M. (2010) Modellierung der Schallausbreitung im Südozean zur Abschätzung des Gefährdungspotenzials seismischer Forschungsmessungen für marine Säuger , Arbeitskreis "Geologie und Geophysik der Polargebiete" in der Deutschen Gesellschaft für Polarforschung, 9.-10. April, Köln . hdl:10013/epic.34217 EPIC3Arbeitskreis "Geologie und Geophysik der Polargebiete" in der Deutschen Gesellschaft für Polarforschung, 9.-10. April, Köln Conference notRev 2010 ftawi 2024-06-24T04:01:54Z Modelling sound propagation in the ocean is an essential tool to assess the potential risk of air-gun shots on marine mammals. Based on a 2.5D finite-difference code (Bohlen, 2002) a full waveform modelling approach is presented, which determines both sound exposure levels of single shots and cumulative sound exposure levels of multiple shots fired along a seismic line. Point source approximations of compact air-gun clusters typically deployed by R/V Polarstern in polar regions are used as sound sources. Marine mammals are simulated as static receivers.Applications to deep (3000 m) and shallow (400 m) water models including constant and depth-dependent sound velocity profiles of the Amundsen/Bellingshausen and the Weddell Sea show dipole-like directivities in case of single shots and tubular cumulative sound exposure level fields beneath the seismic line in case of multiple shots. Compared to a semi-infinite model an incorporation of sea floor reflections enhances the seismically induced noise levels close to the sea surface. Refraction due to sound velocity gradients and sound channelling in near-surface ducts are evident, but affect only low to moderate levels. Hence, exposure zone radii derived for different hearing thresholds are almost independent of the sound velocity structure. With decreasing thresholds radii increase according to a spherical 20 log10 r law in case of single shots and according to a cylindrical 10 log10 r law in case of multiple shots. A doubling of the shot interval diminishes the cumulative sound exposure levels by -3 dB and halves the radii. The ocean bottom properties only slightly affect the radii in shallow waters, if the normal incidence reflection coefficient exceeds 0.2.A detailed description of this modelling study can be found in Breitzke & Bohlen (2010). It is a contribution to a risk assessment on the impact of seismic research surveys on marine mammals in the Antarctic Treaty area (Boebel et al., 2009) prepared by the Alfred-Wegener-Institute for Polar and Marine ... Conference Object Alfred Wegener Institute Antarc* Antarctic Polarforschung Weddell Sea Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description Modelling sound propagation in the ocean is an essential tool to assess the potential risk of air-gun shots on marine mammals. Based on a 2.5D finite-difference code (Bohlen, 2002) a full waveform modelling approach is presented, which determines both sound exposure levels of single shots and cumulative sound exposure levels of multiple shots fired along a seismic line. Point source approximations of compact air-gun clusters typically deployed by R/V Polarstern in polar regions are used as sound sources. Marine mammals are simulated as static receivers.Applications to deep (3000 m) and shallow (400 m) water models including constant and depth-dependent sound velocity profiles of the Amundsen/Bellingshausen and the Weddell Sea show dipole-like directivities in case of single shots and tubular cumulative sound exposure level fields beneath the seismic line in case of multiple shots. Compared to a semi-infinite model an incorporation of sea floor reflections enhances the seismically induced noise levels close to the sea surface. Refraction due to sound velocity gradients and sound channelling in near-surface ducts are evident, but affect only low to moderate levels. Hence, exposure zone radii derived for different hearing thresholds are almost independent of the sound velocity structure. With decreasing thresholds radii increase according to a spherical 20 log10 r law in case of single shots and according to a cylindrical 10 log10 r law in case of multiple shots. A doubling of the shot interval diminishes the cumulative sound exposure levels by -3 dB and halves the radii. The ocean bottom properties only slightly affect the radii in shallow waters, if the normal incidence reflection coefficient exceeds 0.2.A detailed description of this modelling study can be found in Breitzke & Bohlen (2010). It is a contribution to a risk assessment on the impact of seismic research surveys on marine mammals in the Antarctic Treaty area (Boebel et al., 2009) prepared by the Alfred-Wegener-Institute for Polar and Marine ...
format Conference Object
author Breitzke, Monika
spellingShingle Breitzke, Monika
Modellierung der Schallausbreitung im Südozean zur Abschätzung des Gefährdungspotenzials seismischer Forschungsmessungen für marine Säuger
author_facet Breitzke, Monika
author_sort Breitzke, Monika
title Modellierung der Schallausbreitung im Südozean zur Abschätzung des Gefährdungspotenzials seismischer Forschungsmessungen für marine Säuger
title_short Modellierung der Schallausbreitung im Südozean zur Abschätzung des Gefährdungspotenzials seismischer Forschungsmessungen für marine Säuger
title_full Modellierung der Schallausbreitung im Südozean zur Abschätzung des Gefährdungspotenzials seismischer Forschungsmessungen für marine Säuger
title_fullStr Modellierung der Schallausbreitung im Südozean zur Abschätzung des Gefährdungspotenzials seismischer Forschungsmessungen für marine Säuger
title_full_unstemmed Modellierung der Schallausbreitung im Südozean zur Abschätzung des Gefährdungspotenzials seismischer Forschungsmessungen für marine Säuger
title_sort modellierung der schallausbreitung im südozean zur abschätzung des gefährdungspotenzials seismischer forschungsmessungen für marine säuger
publishDate 2010
url https://epic.awi.de/id/eprint/21973/
https://hdl.handle.net/10013/epic.34217
genre Alfred Wegener Institute
Antarc*
Antarctic
Polarforschung
Weddell Sea
genre_facet Alfred Wegener Institute
Antarc*
Antarctic
Polarforschung
Weddell Sea
op_source EPIC3Arbeitskreis "Geologie und Geophysik der Polargebiete" in der Deutschen Gesellschaft für Polarforschung, 9.-10. April, Köln
op_relation Breitzke, M. (2010) Modellierung der Schallausbreitung im Südozean zur Abschätzung des Gefährdungspotenzials seismischer Forschungsmessungen für marine Säuger , Arbeitskreis "Geologie und Geophysik der Polargebiete" in der Deutschen Gesellschaft für Polarforschung, 9.-10. April, Köln . hdl:10013/epic.34217
_version_ 1810491836367634432

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