Page 20 - Summer2020
P. 20

Dahl, P. H., Dall’Osto, D. R., and Farrell, D. M. (2015a). The underwater sound field from vibratory pile driving. The Journal of the Acoustical Soci- ety of America 137, 3544-3554.
Dahl, P. H., de Jong, C. A. F., and Popper, A. N. (2015b). The under- water sound field from impact pile driving and its potential effects on marine life. Acoustics Today 11(2), 18-25.
Ellison, W. T., Southall, B. L., Clark, C. W., and Frankel, A. S. (2012). A new context-based approach to assess marine mammal behavioral responses to anthropogenic sounds. Conservation Biology 26, 21-28.
Frisk, G. V. (1994). Ocean and Seabed Acoustics. Prentice-Hall, Inc,
Englewood Cliffs, NJ.
Global Wind Energy Council. (2017). GWEC Global Wind 2017
Report. Available at Accessed Febru-
ary 12, 2020.
Global Wind Energy Council. (2019). Global Wind Report 2018.
Available at Accessed
January 31, 2020.
International Organization for Standardization (ISO). (2017). ISO
18406:2017 Underwater Acoustics — Measurement of Radiated Under- water Sound from Percussive Pile Driving. International Organization for Standardization, Geneva, Switzerland.
JASCO and LGL. (2019). Request for an Incidental Harassment Autho- rization to Allow the Non‐Lethal Take of Marine Mammals Incidental to Construction Activities in the Vineyard Wind BOEM Lease Area OCS‐A 0501, Version 4.1. Document No. 01648, Prepared by JASCO Applied Sciences (USA) Ltd. and LGL Ecological Research Associ- ates, for Vineyard Wind, LLC. Available at Accessed February 27, 2020.
Lin, Y.-T., Newhall, A. E., Miller, J. H., Potty, G. R., and Vigness- Raposa, K. J. (2019). A three-dimensional underwater sound propagation model for offshore wind farm noise prediction. The Journal of the Acoustical Society of America 145, EL335-EL340.
Madsen, P. T., Wahlberg, M., Tougaard, J., Lucke, K., and Tyack, P. (2006). Wind turbine underwater noise and marine mammals: Impli- cations of current knowledge and data needs. Marine Ecology Progress Series 309, 279-295.
Martin, S. B., and Barclay, D. R. (2019). Determining the dependence of marine pile driving sound levels on strike energy, pile penetra- tion , and propagation effects using a linear mixed model based on damped cylindrical spreading. The Journal of the Acoustical Society of America 109, 109-121.
Matuschek, R., and Betke, K. (2009). Measurements of construction noise during pile driving of offshore research platforms and wind farms. NAG/DAGA International Conference on Acoustics, Rotter- dam, The Netherlands, March 23–23, 2009, pp. 262-265.
Miller, J. H., Potty, G. R., and Kim, H.-K. (2016). Pile-driving pressure and particle pelocity at the seabed: Quantifying effects on crustaceans and groundfish. In A. N. Popper and A. D. Hawkins (Eds.), The Effects of Noise on Aquatic Life II, Springer, New York, pp. 719-728.
Nedwell, J., and Howell, D. (2004). A Review of Offshore Windfarm Related Underwater Noise Sources. Subacoustech Report No. 544 R 0308, Prepared by Subacoustech Ltd. for The Crown Estate. Avail- able at Accessed February 27, 2020.
Norro, A. M. J., Rumes, B., and Degraer, S. J. (2013). Differentiating between underwater construction noise of monopile and jacket foun- dations for offshore windmills: A case study from the Belgian part of the North Sea. The Scientific World Journal, Article ID 897624.
Popper, A. N., and Hawkins, A. D. (Eds.). (2016). The Effects of Noise on Aquatic Life II. Springer, New York.
Popper, A. N., and Hawkins, A. D. (2018). The importance of particle motion to fishes and invertebrates. The Journal of the Acoustical Soci- ety of America 143, 470-488.
Popper, A. N., Hawkins, A. D., Fay, R. R., Mann, D. A., 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). Sound Exposure Guidelines for Fishes and Sea Turtles: A Technical Report prepared by ANSI-Accredited Standards Committee S3/SC1 and registered with ANSI. ASA S3/SC1.4 TR-2014. SpringerBriefs in Oceanography, Springer International Publishing, and ASA Press, Cham, Switzerland.
Robinson, S. P., and Theobald, P. (2017). A standard for the measure- ment of underwater sound radiated from marine pile driving. 24th International Congress on Sound and Vibration, London, UK, July 23–27, 2017, pp. 5022-5028.
Sigray, P., and Andersson, M. H. (2011). Particle motion measured at an operational wind turbine in relation to hearing sensitivity in fish. The Journal of the Acoustical Society of America 130, 200-207.
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 hearing effects. Aquatic Mammals 45, 125-232.
Tetra Tech. (2012). Block Island Wind Farm and Block Island Transmission System Environmental Report/Construction and Operations Plan. Report Prepared by Tetra Tech Inc. for Deepwater Wind, Boston, MA. Avail- able at Accessed February 27, 2020.
Topham, E., Gonzalez, E., McMillan, D., and João, E. (2019). Chal- lenges of decommissioning offshore wind farms: Overview of the European experience. Journal of Physics: Conference Series, WindEu- rope Conference and Exhibition 2019, Bilbao,Spain, April 2–4, 2019, Vol. 1222, No. 1, p. 012035.
Tougaard, J., Henriksen, O. D., and Miller, L. A. (2009). Underwa- ter noise from three types of offshore wind turbines: estimation of impact zones for harbor porpoises and harbor seals. The Journal of the Acoustical Society of America 125, 3766-3773.
Tsouvalas, A., and Metrikine, A. V (2016). Structure-borne wave radi- ation by impact and vibratory piling in offshore installations: From sound prediction to auditory damage. Journal of Marine Science and Engineering 4(3), 44.
US Department of Energy (2016). National Offshore Wind Strategy. Avail- able at Accessed February 27, 2020.
Vigness-Raposa, K. J., Giard, J. L., Frankel, A. S., Miller, J. H., Potty, G. R., Lin, Y. T., Newhall, A., and Mason, T. (2017). Variations in the acoustic field recorded during pile-driving construction of the Block Island Wind Farm. The Journal of the Acoustical Society of America 141(5), 3993.
Wilkes, D. R., and Gavrilov, A. N. (2017). Sound radiation from impact-driven raked piles. Journal of the Acoustical Society of Amer- ica 142, 1-11.
Wind Europe. (2018). Offshore Wind in Europe. Available at Accessed January 30, 2020.
Wu, X., Hu, Y., Li, Y., Yang, J., Duan, L., Wang, T., Adcock, T., Jiang, Z., Gao, Z., Lin, Z., and Borthwick, A. (2019). Foundations of offshore wind turbines: A review. Renewable and Sustainable Energy Reviews 104, 379-393.
                     20 Acoustics Today • Summer 2020

   18   19   20   21   22