R.P.A. Dekeling scite author profile

R.P.A. Dekeling

4Publications

42Citation Statements Received

46Citation Statements Given

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Affiliations

Ministry of Defence, Ministry of Infrastructure and the Environment, Defence Materiel Administration

Publications

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Common Sole Larvae Survive High Levels of Pile-Driving Sound in Controlled Exposure Experiments

Bolle¹,

Jong²,

Bierman³

et al. 2012

PLoS ONE

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In view of the rapid extension of offshore wind farms, there is an urgent need to improve our knowledge on possible adverse effects of underwater sound generated by pile-driving. Mortality and injuries have been observed in fish exposed to loud impulse sounds, but knowledge on the sound levels at which (sub-)lethal effects occur is limited for juvenile and adult fish, and virtually non-existent for fish eggs and larvae. A device was developed in which fish larvae can be exposed to underwater sound. It consists of a rigid-walled cylindrical chamber driven by an electro-dynamical sound projector. Samples of up to 100 larvae can be exposed simultaneously to a homogeneously distributed sound pressure and particle velocity field. Recorded pile-driving sounds could be reproduced accurately in the frequency range between 50 and 1000 Hz, at zero to peak pressure levels up to 210 dB re 1µPa2 (zero to peak pressures up to 32 kPa) and single pulse sound exposure levels up to 186 dB re 1µPa2s. The device was used to examine lethal effects of sound exposure in common sole (Solea solea) larvae. Different developmental stages were exposed to various levels and durations of pile-driving sound. The highest cumulative sound exposure level applied was 206 dB re 1µPa2s, which corresponds to 100 strikes at a distance of 100 m from a typical North Sea pile-driving site. The results showed no statistically significant differences in mortality between exposure and control groups at sound exposure levels which were well above the US interim criteria for non-auditory tissue damage in fish. Although our findings cannot be extrapolated to fish larvae in general, as interspecific differences in vulnerability to sound exposure may occur, they do indicate that previous assumptions and criteria may need to be revised.

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The European Marine Strategy: Noise Monitoring in European Marine Waters from 2014

Dekeling

Tasker

Ainslie

et al. 2016

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The European Marine Strategy Framework Directive requires European member states to develop strategies for their marine waters leading to programs of measures that achieve or maintain good environmental status (GES) in all European seas by 2020. An essential step toward reaching GES is the establishment of monitoring programs, enabling the state of marine waters to be assessed on a regular basis. A register for impulsive noise-generating activities would enable assessment of their cumulative impacts on wide temporal and spatial scales; monitoring of ambient noise would provide essential insight into current levels and any trend in European waters.

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Verification of airgun sound field models for environmental impact assessment

Ainslie

Halvorsen²,

Dekeling

et al. 2016

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Effect of Pile-Driving Sounds on the Survival of Larval Fish

Bolle¹,

Jong

Bierman

et al. 2016

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Concern exists about the potential effects of pile-driving sounds on fish, but evidence is limited, especially for fish larvae. A device was developed to expose larvae to accurately reproduced pile-driving sounds. Controlled exposure experiments were carried out to examine the lethal effects in common sole larvae. No significant effects were observed at zero-to-peak pressure levels up to 210 dB re 1 μPa(2) and cumulative sound exposure levels up to 206 dB re 1 μPa(2)·s, which is well above the US interim criteria for nonauditory tissue damage in fish. Experiments are presently being carried out for European sea bass and herring larvae.

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R.P.A. Dekeling

Common Sole Larvae Survive High Levels of Pile-Driving Sound in Controlled Exposure Experiments

The European Marine Strategy: Noise Monitoring in European Marine Waters from 2014

Verification of airgun sound field models for environmental impact assessment

Effect of Pile-Driving Sounds on the Survival of Larval Fish

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