A Modeling Comparison of the Potential Effects on Marine Mammals from Sounds Produced by Marine Vibroseis and Air Gun Seismic Sources
Concerns about the potential environmental impacts of geophysical surveys using air gun sources, coupled with advances in geophysical surveying technology and data processing, are driving research and development of commercially viable alternative technologies such as marine vibroseis (MV). MV syste...
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MDPI AG
2021-12-01
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| Series: | Journal of Marine Science and Engineering |
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| Online Access: | https://www.mdpi.com/2077-1312/9/1/12 |
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doaj-804b0dfdd4cf490c9a201cfac3cba87c2021-04-02T19:09:36ZengMDPI AGJournal of Marine Science and Engineering2077-13122021-12-019121210.3390/jmse9010012A Modeling Comparison of the Potential Effects on Marine Mammals from Sounds Produced by Marine Vibroseis and Air Gun Seismic SourcesMarie-Noël R. Matthews0Darren S. Ireland1David G. Zeddies2Robert H. Brune3Cynthia D. Pyć4JASCO Applied Sciences (Canada) Ltd., Halifax, NS B3B 1Z1, CanadaLGL Ecological Research Associates Inc., Bryan, TX 77802, USAJASCO Applied Sciences (USA) Inc., Silver Spring, MD 20910, USARobert Brune, LLC., Evergreen, CO 80439, USAJASCO Applied Sciences (Canada) Ltd., Victoria, BC V8Z 7X8, CanadaConcerns about the potential environmental impacts of geophysical surveys using air gun sources, coupled with advances in geophysical surveying technology and data processing, are driving research and development of commercially viable alternative technologies such as marine vibroseis (MV). MV systems produce controllable acoustic signals through volume displacement of water using a vibrating plate or shell. MV sources generally produce lower acoustic pressure and reduced bandwidth (spectral content) compared to air gun sources, but to be effective sources for geophysical surveys they typically produce longer duration signals with short inter-signal periods. Few studies have evaluated the potential effects of MV system use on marine fauna. In this desktop study, potential acoustic exposure of marine mammals was estimated for MV and air gun arrays by modeling the source signal, sound propagation, and animal movement in representative survey scenarios. In the scenarios, few marine mammals could be expected to be exposed to potentially injurious sound levels for either source type, but fewer were predicted for MV arrays than air gun arrays. The estimated number of marine mammals exposed to sound levels associated with behavioral disturbance depended on the selection of evaluation criteria. More behavioral disturbance was predicted for MV arrays compared to air gun arrays using a single threshold sound pressure level (SPL), while the opposite result was found when using frequency-weighted sound fields and a multiple-step, probabilistic, threshold function.https://www.mdpi.com/2077-1312/9/1/12animatair gunimpact assessmentmarine vibroseismarine mammalsound propagation |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Marie-Noël R. Matthews Darren S. Ireland David G. Zeddies Robert H. Brune Cynthia D. Pyć |
| spellingShingle |
Marie-Noël R. Matthews Darren S. Ireland David G. Zeddies Robert H. Brune Cynthia D. Pyć A Modeling Comparison of the Potential Effects on Marine Mammals from Sounds Produced by Marine Vibroseis and Air Gun Seismic Sources Journal of Marine Science and Engineering animat air gun impact assessment marine vibroseis marine mammal sound propagation |
| author_facet |
Marie-Noël R. Matthews Darren S. Ireland David G. Zeddies Robert H. Brune Cynthia D. Pyć |
| author_sort |
Marie-Noël R. Matthews |
| title |
A Modeling Comparison of the Potential Effects on Marine Mammals from Sounds Produced by Marine Vibroseis and Air Gun Seismic Sources |
| title_short |
A Modeling Comparison of the Potential Effects on Marine Mammals from Sounds Produced by Marine Vibroseis and Air Gun Seismic Sources |
| title_full |
A Modeling Comparison of the Potential Effects on Marine Mammals from Sounds Produced by Marine Vibroseis and Air Gun Seismic Sources |
| title_fullStr |
A Modeling Comparison of the Potential Effects on Marine Mammals from Sounds Produced by Marine Vibroseis and Air Gun Seismic Sources |
| title_full_unstemmed |
A Modeling Comparison of the Potential Effects on Marine Mammals from Sounds Produced by Marine Vibroseis and Air Gun Seismic Sources |
| title_sort |
modeling comparison of the potential effects on marine mammals from sounds produced by marine vibroseis and air gun seismic sources |
| publisher |
MDPI AG |
| series |
Journal of Marine Science and Engineering |
| issn |
2077-1312 |
| publishDate |
2021-12-01 |
| description |
Concerns about the potential environmental impacts of geophysical surveys using air gun sources, coupled with advances in geophysical surveying technology and data processing, are driving research and development of commercially viable alternative technologies such as marine vibroseis (MV). MV systems produce controllable acoustic signals through volume displacement of water using a vibrating plate or shell. MV sources generally produce lower acoustic pressure and reduced bandwidth (spectral content) compared to air gun sources, but to be effective sources for geophysical surveys they typically produce longer duration signals with short inter-signal periods. Few studies have evaluated the potential effects of MV system use on marine fauna. In this desktop study, potential acoustic exposure of marine mammals was estimated for MV and air gun arrays by modeling the source signal, sound propagation, and animal movement in representative survey scenarios. In the scenarios, few marine mammals could be expected to be exposed to potentially injurious sound levels for either source type, but fewer were predicted for MV arrays than air gun arrays. The estimated number of marine mammals exposed to sound levels associated with behavioral disturbance depended on the selection of evaluation criteria. More behavioral disturbance was predicted for MV arrays compared to air gun arrays using a single threshold sound pressure level (SPL), while the opposite result was found when using frequency-weighted sound fields and a multiple-step, probabilistic, threshold function. |
| topic |
animat air gun impact assessment marine vibroseis marine mammal sound propagation |
| url |
https://www.mdpi.com/2077-1312/9/1/12 |
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