Offshore wind farms are part of the transition to a sustainable energy supply and both the total numbers and size of wind turbines are rapidly increasing. While the impact of underwater sound related to construction work has been in the focus of research and regulation, few data exist on the potential impact of underwater sound from operational wind farms. Here, we reviewed published sound levels of underwater sound from operational wind farms and found an increase with size of wind turbines expressed in terms of their nominal power. This trend was identified in both broadband and turbine-specific spectral band sound pressure levels (SPLs). For a nominal power of 10 MW, the trends in broadband SPLs and turbine-specific spectral band SPLs yielded source levels of 170 and 177 dB re 1 μPa m, respectively. The shift from using gear boxes to direct drive technology is expected to reduce the sound level by 10 dB. Using the National Oceanic Atmospheric Administration criterion for behavioral disruption for continuous noise (i.e., level B), a single 10 MW direct drive turbine is expected to cause behavioral response in marine mammals up to 1.4 km distance from the turbine, compared to 6.3 km for a turbine with gear box.

1.
Degraer
,
S.
,
Carey
,
D. A.
,
Coolen
,
J. W. P.
,
Hutchison
,
Z. L.
,
Kerckhof
,
F.
,
Rumes
,
B.
, and
Vanaverbeke
,
J.
(
2020
). “
Offshore wind farm artificial reefs affect ecosystem structure and functioning: A synthesis
,”
Oceanography
33
,
48
57
.
2.
Elliott
,
J.
,
Khan
,
A. A.
,
Lin
,
Y.-T.
,
Mason
,
T.
,
Miller
,
J. H.
,
Newhall
,
A. E.
,
Potty
,
G. R.
, and
Vigness-Raposa
,
K. J.
(
2019
). “
Field observations during wind turbine operations at the Block Island Wind Farm, Rhode Island
,”
Report No. OCS Study BOEM 2019-028
, U.S. Department of the Interior, Bureau of Ocean Energy Management, Office of Renewable Energy Programs, Washington DC, p.
281
.
3.
Finneran
,
J. J.
(
2015
). “
Noise-induced hearing loss in marine mammals: A review of temporary threshold shift studies from 1996 to 2015
,”
J. Acoust. Soc. Am.
138
,
1702
1726
.
4.
Gill
,
A. B.
,
Bartlett
,
M.
, and
Thomsen
,
F.
(
2012
). “
Potential interactions between diadromous fishes of U.K. conservation importance and electromagnetic fields and subsea noise from marine renewable energy developments
,”
J. Fish Biol.
81
(
2
),
664
695
.
5.
GWEC
(
2020
). “
Global offshore wind report 2020
,” GWEC, Brussels, Belgium: available at https://www.4coffshore.com/windfarms/.
6.
Hawkins
,
A. D.
, and
Popper
,
A. N.
(
2016
). “
Quo Vadimus—A sound approach to assessing the impact of underwater noise on marine fishes and invertebrates
,”
ICES J. Mar. Sci.
74
,
635
651
.
7.
Hildebrand
,
J. A.
(
2009
). “
Anthropogenic and natural sources of ambient noise in the ocean
,”
Mar. Ecol. Prog. Ser.
395
,
5
20
.
8.
Lübben
,
A.
, and
Wilts
,
F.
(
2015
). “
Measurements of sound during offshore wind farm construction and operation in the Southern North Sea
,” Technical Report.
9.
Madsen
,
P. T.
,
Wahlberg
,
M.
,
Tougaard
,
J.
,
Lucke
,
K.
, and
Tyack
,
P.
(
2006
). “
Wind turbine underwater noise and marine mammals: Implications of current knowledge and data needs
,”
Mar. Ecol. Prog. Ser.
309
,
279
295
.
10.
Marmo
,
B.
,
Roberts
,
I.
,
Buckingham
,
M. P.
,
King
,
S.
, and
Booth
,
C.
(
2013
). “
Modelling of noise effects of operational offshore wind turbines including noise transmission through various foundation types
,”
Scottish Government
,
Edinburgh, UK
.
11.
McKenna
,
M. F.
,
Wiggins
,
S. M.
, and
Hildebrand
,
J. A.
(
2013
). “
Relationship between container ship underwater noise levels and ship design, operational and oceanographic conditions
,”
Sci. Rep.
3
,
1760
.
12.
Merchant
,
N. D.
,
Brookes
,
K. L.
,
Faulkner
,
R. C.
,
Bicknell
,
A. W. J.
,
Godley
,
B. J.
, and
Witt
,
M. J.
(
2016
). “
Underwater noise levels in UK waters
,”
Sci. Rep.
6
,
36942
.
13.
Nedwell
,
J. R.
,
Parvin
,
S. J.
,
Edwards
,
B.
,
Workman
,
R.
,
Brooker
,
A. G.
, and
Kynoch
,
J. E.
(
2007
). “
Measurement and interpretation of underwater noise during construction and operation of offshore windfarms in UK waters
,”
Report No. 544R0738
, Cowrie Ltd., London.
14.
NMFS.
(
2018
). “
Revisions to: Technical guidance for assessing the effects of anthropogenic sound on marine mammal hearing (version 2.0): Underwater thresholds for onset of permanent and temporary threshold shifts
,” Technical Memorandum NMFS-OPR-59, U.S. Department of Commerce, NOAA, Silver Spring, MD, p.
167
.
15.
Norro
,
A.
, and
Sigray
,
P.
(
2015
). “
Marven WP5, Underwater noise measurements at Belgium offshore wind farm
,” Technical Report.
16.
Popper
,
A. N.
, and
Fay
,
R. R.
(
2011
). “
Rethinking sound detection by fishes
,”
Hear. Res.
273
,
25
36
.
17.
Popper
,
A. N.
, and
Hawkins
,
A. D.
(
2018
). “
The importance of particle motion to fishes and invertebrates
,”
J. Acoust. Soc. Am.
143
,
470
488
.
18.
Popper
,
A. N.
,
Hawkins
,
A. D.
,
Fay
,
R. R.
,
Mann
,
D.
,
Bartol
,
S.
,
Carlson
,
T.
,
Coombs
,
S.
,
Ellison
,
W. T.
,
Gentry
,
R.
,
Halvorsen
,
M. B.
,
Lokkeborg
,
S.
,
Rogers
,
P.
,
Southall
,
B. L.
,
Zeddies
,
D. G.
, and
Tavolga
,
W. N.
(
2014
).
ASA S3/SC1.4 TR-2014 Sound Exposure Guidelines for Fishes and Sea Turtles: A Technical Report Prepared by ANSI-Accredited Standards Committee S3/SC1 and Registered with ANSI
(
Springer International Publishing
,
New York
).
19.
Popper
,
A. N.
,
Hawkins
,
A. D.
, and
Thomsen
,
F.
(
2020
). “
Taking the animals' perspective regarding anthropogenic underwater sound
,”
Trends Ecol. Evol.
35
,
787
794
.
20.
Potty
,
G. R.
,
Miller
,
J. H.
,
Lin
,
Y. T.
, and
Newhall
,
A. E.
(
2020
). “
Characterization of particle motion near offshore wind farm sites in the United States east coast
,”
J. Acoust. Soc. Am.
148
,
2550
2550
.
21.
Scheidat
,
M.
,
Tougaard
,
J.
,
Brasseur
,
S.
,
Carstensen
,
J.
,
van Polanen Petel
,
T.
,
Teilmann
,
J.
, and
Reijnders
,
P.
(
2011
). “
Harbour porpoises (phocoena phocoena) and wind farms: A case study in the Dutch North Sea
,”
Environ. Res. Lett.
6
,
1
10
.
22.
Sigray
,
R.
, and
Andersson
,
M. H.
(
2011
). “
Particle motion measured at an operational wind turbine in relation to hearing sensitivity in fish
,”
J. Acoust. Soc. Am.
130
,
200
207
.
23.
Southall
,
B. L.
,
Bowles
,
A. E.
,
Ellison
,
W. T.
,
Finneran
,
J. J.
,
Gentry
,
R. L.
,
Greene
,
C. R. J.
,
Kastak
,
D.
,
Ketten
,
D. R.
,
Miller
,
J. H.
,
Nachtigall
,
P. E.
,
Richardson
,
W. J.
,
Thomas
,
J. A.
, and
Tyack
,
P L.
(
2007
). “
Marine mammal noise exposure criteria: Initial scientific recommendations
,”
Aquatic Mamm.
33
,
411
521
.
24.
Southall
,
B. L.
,
Finneran
,
J. J.
,
Reichmuth
,
C.
,
Nachtigall
,
P. E.
,
Ketten
,
D. R.
,
Bowles
,
A. E.
,
Ellison
,
W. T.
,
Nowacek
,
D. P.
, and
Tyack
,
P. L.
(
2019
). “
Marine mammal noise exposure criteria: Updated scientific recommendations for residual effects
,”
Aquatic Mamm.
45
,
125
232
.
25.
Thomsen
,
F.
,
Gill
,
A.
,
Kosecka
,
M.
,
Andersson
,
M.
,
Andre
,
M.
,
Degraer
,
S.
,
Folegot
,
T.
,
Gabriel
,
J.
,
Judd
,
A.
,
Neumann
,
T.
,
Norro
,
A.
,
Risch
,
D.
,
Sigray
,
P.
,
Wood
,
D.
, and
Wilson
,
B.
(
2015
). “
MaRVEN—Environmental Impacts of Noise, Vibrations and Electromagnetic Emissions from Marine Renewable Energy
,” Final Study Report No. RTD-KI-NA-27-738-EN-N.
26.
Thomsen
,
F.
,
Lüdemann
,
K.
,
Kafemann
,
R.
, and
Piper
,
W.
(
2006
).
Effects of Offshore Wind Farm Noise on Marine Mammals and Fish
(
Biola
,
Hamburg, Germany
).
27.
Tougaard
,
J.
,
Henriksen
,
O. D.
, and
Miller
,
L. A.
(
2009
). “
Underwater noise from three types of offshore wind turbines: Estimation of impact zones for harbor porpoises and harbor seals
,”
J. Acoust. Soc. Am.
125
(
6
),
3766
3773
.
30.
Tougaard
,
J.
,
Hermannsen
,
L.
, and
Madsen
,
P. T.
(
2020
). “
How loud is the underwater noise from operating offshore wind turbines?
J. Acoust. Soc. Am.
148
(
5
),
2855
2893
.
28.
Van Radecke
,
H.
, and
Benesch
,
M.
(
2012
). “
Measurements of operational sound of offshore wind turbines to determine the sound transmission in terms of the sound transfer function between tower and water at turbines in the test field offshore
,” Final Study Report, Funding Reference No. 0327687 (in German).
29.
Wahlberg
,
M.
, and
Westerberg
,
H.
(
2005
). “
Hearing in fish and their reactions to sounds from offshore wind farms
,”
Mar. Ecol. Prog. Ser.
288
,
295
309
.
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