Modeled underwater sound levels in the Pan-Arctic due to increased shipping: Analysis from 2013 to 2019

Heaney, Kevin D.; Verlinden, Christopher M. A.; Seger, Kerri D.; Brandon, Jennifer A.

doi:10.1121/10.0024354

The Journal of the Acoustical Society of America

2024

DOI: 10.1121/10.0024354

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Modeled underwater sound levels in the Pan-Arctic due to increased shipping: Analysis from 2013 to 2019

Kevin D. Heaney,

Christopher M. A. Verlinden,

Kerri D. Seger

et al.

Abstract: The loss of Arctic sea ice is one of the most visible signs of global climate change. As Arctic sea ice has retreated, Arctic marine shipping has increased. The Pan-Arctic's unique underwater acoustic properties mean that even small increases in ship traffic can have a significant effect on the ambient soundscape. This study presents the first long-term, basin-scale model of shipping noise in the Pan-Arctic with a focus on a few select sub-regions. The Arctic Ship Traffic Database from the Protection of the Ar… Show more

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Cited by 2 publications

References 55 publications

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Characterizing offshore polar ocean soundscapes using ecoacoustic intensity and diversity metrics

Mattmüller,

Thomisch,

Hoffman

et al. 2024

R. Soc. Open Sci.

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Polar offshore environments are considered the last pristine soundscapes, but accelerating climate change and increasing human activity threaten their integrity. In order to assess the acoustic state of polar oceans, there is the need to investigate their soundscape characteristics more holistically. We apply a set of 14 ecoacoustic metrics (EAMs) to identify which metrics are best suited to reflect the characteristics of disturbed and naturally intact polar offshore soundscapes. We used two soundscape datasets: (i) the Arctic eastern Fram Strait (FS), which is already impacted by anthropogenic noise, and (ii) the quasi-pristine Antarctic Weddell Sea (WS). Our results show that EAMs when applied in concert can be used to quantitatively assess soundscape variability, enabling the appraisal of marine soundscapes over broad spatiotemporal scales. The tested set of EAMs was able to show that the eastern FS, which is virtually free from sea ice, lacks seasonal soundscape dynamics and exhibits low acoustic complexity owing to year-round wind-mediated sounds and anthropogenic noise. By contrast, the WS exhibits pronounced seasonal soundscape dynamics with greater soundscape heterogeneity driven in large part by the vocal activity of marine mammal communities, whose composition in turn varies with the prevailing seasonal sea ice conditions.

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Characterizing offshore polar ocean soundscapes using ecoacoustic intensity and diversity metrics

Mattmüller,

Thomisch,

Hoffman

et al. 2024

R. Soc. Open Sci.

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Regional soundscape modeling of the Atlantic Outer Continental Shelf

Heaney,

Ainslie,

Murray

et al. 2024

The Journal of the Acoustical Society of America

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The ocean soundscape is a complex superposition of sound from natural and anthropogenic sources. Recent advances in acoustic remote sensing and marine bioacoustics have highlighted how animals use their soundscape and how the background sound levels are influenced by human activities. In this paper, developments in computational ocean acoustics, remote sensing, and oceanographic modeling are combined to generate modelled sound fields at multiple scales in time and space. Source mechanisms include surface shipping, surface wind, and wave fields. A basin scale model is presented and applied to the United States Atlantic Outer Continental Shelf (OCS). For model-data comparison at a single hydrophone location, the model is run for a single receiver position. Environmental and source model uncertainty is included in the site-specific modeling of the soundscape. An inversion of the local sediment type is made for a set of sites in the OCS. After performing this inversion, the qualitative comparison of the modelled sound pressure level (SPL) time series and observed SPL is excellent. The quantitative differences in the mean root mean square error between the model and data is less than 3 dB for most sites and frequencies above 90 Hz.

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Modeled underwater sound levels in the Pan-Arctic due to increased shipping: Analysis from 2013 to 2019

Cited by 2 publications

References 55 publications

Characterizing offshore polar ocean soundscapes using ecoacoustic intensity and diversity metrics

Characterizing offshore polar ocean soundscapes using ecoacoustic intensity and diversity metrics

Regional soundscape modeling of the Atlantic Outer Continental Shelf

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