Ocean Noise

doi:10.3390/books978-3-0365-4378-9

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Ocean Noise

From Science to Management

Edited by

June 2022

454 pages

ISBN978-3-0365-4377-2 (Hardback)
ISBN978-3-0365-4378-9 (PDF)

https://doi.org/10.3390/books978-3-0365-4378-9

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This book is a reprint of the Special Issue Ocean Noise: From Science to Management that was published in

Engineering

Environmental & Earth Sciences

Summary

Scientific and societal concern about the effects of underwater sound on marine ecosystems is growing. While iconic megafauna was of initial concern, more and more taxa are being included. Some countries have joined in multi-national initiatives to measure, monitor and mitigate environmental impacts of ocean noise at large, trans-boundary spatial scales. Approaches to regulating ocean noise change as new scientific evidence becomes available, but may also differ by country. The OCEANOISE conference series has provided a platform for the exchange of scientific results, management approaches, research needs, stakeholder concerns, etc. Attendees have represented various sectors, including academia, offshore industry, defence, NGOs, consultants and government regulators. The published articles in the Special Issue cover a range of topics and applications central to ocean noise.

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Keywords

military aircraft; noise pollution; ocean noise; Endangered species; human health; animal behavior; vessel noise; radiated noise levels; monopole source levels; propagation loss; animat; air gun; impact assessment; marine vibroseis; marine mammal; sound propagation; ocean noise; underwater noise modeling and mapping; underwater noise effects; ocean noise regulations; underwater acoustics; underwater sound impacts; marine conservation; impact assessment; coastal areas; fish; anthropogenic noise; passive acoustic monitoring; protected species; reproduction; underwater noise; sound propagation modelling; multivariate mixture model; acoustic zone; ship noise; Australian EEZ; source levels; underwater noise; marine shipping; automated identification system; sound mapping; management; fish; anthropogenic sound; seismic surveys; electromagnetic surveys; behavioral response studies; severity scoring of responses; controlled exposure experiments; cetaceans; Physeter macrocephalus; continuous naval sonar; marine soundscape; ship noise; wind noise; whale song; fish chorus; Australian EEZ; underwater sound impacts; marine mammal conservation; impact assessment; behavioral disturbance; hearing impairment; auditory masking; seismic airgun source; particle motion; ground motion; propagation loss; geophysical instruments; bioacoustics of marine mammals; underwater acoustic propagation; animal communication; ship noise; sound mapping; acoustic propagation; marine mammal; whistle detection; time difference of arrival; underwater acoustic; underwater sound sensing; ocean sound measurement; seismic interface waves; dispersion; water-particle velocity; seabed vibration; permanent threshold shift; synaptopathy; neuropathy; auditory brainstem response; behavioral thresholds; sea lice; Lepeophtheirus salmonis; acoustic trauma; transmission electron microscopy; scanning electron microscopy; ocean noise mitigation; ocean noise regulation; ocean sound measurement; small vessel source levels; acoustic techniques; hydrophone-based observations; passive acoustic monitoring; shallow water; pinnipeds; anthropogenic sound; auditory masking; apple snail; Pomacea maculata; acoustic trauma; scanning electron microscopy; invasive species; plague; mitigation method; salmon; Salmo salar; acoustic trauma; scanning electron microcopy; otolith organ; lateral line; histopathology; vaterite; neuromast