Offshore Wind and Wildlife in the Gulf of Maine
References cited in Habitat, Winter 2022/23 article on Offshore Wind and Wildlife in the Gulf of Maine:
Amaral, et. al. (2020). The Underwater Sound from Offshore Wind Farms, Acoustics Today.
Brandt et al (2011). Responses of harbour porpoises to pile driving at the Horns Rev II offshore wind farm in the Danish North Sea, Marine Ecology Progress Series.
Cook, et. al. (2018). Quantifying avian avoidance of offshore wind turbines: Current evidence and key knowledge gaps, Marine Environmental Research.
Copping et al (2020). Potential Environmental Effects of Marine Renewable Energy Development The State of the Science, Journal of Marine Science and Engineering.
Dierschke, et. al. (2016). Seabirds and offshore wind farms in European waters: Avoidance and attraction, Biological Conservation.
Dokter, Adriaan, BirdCast (Autumn 2021). New BirdCast Analysis Shows How High Migrating Birds Fly, Living Bird Magazine.
Dunlop et. al. (2016). Limited influence of a wind power project submarine cable on a Laurentian Great Lakes fish community. Journal of Applied Ichthyology, 32(1):18-31.
Hansen, et. al. (2020). The common murre (Uria aalge), an auk seabird, reacts to underwater sound. Journal of the Acoustical Society of America, 147: 4069-4074.
Hutchison et. al. (2018). Electromagnetic Field (EMF) Impacts on Elasmobranch (shark, rays, and skates) and American Lobster Movement and Migration from Direct Current Cables, (Report No. BOEM 2018-003). Report by University of Rhode Island. Report for Bureau of Ocean Energy Management (BOEM).
Johansen et. al. (2016). In-air and underwater hearing in the great cormorant (Phalacrocorax carbo sinensis). The Effects of Noise on Aquatic Life II (Pp. 505-512).
Kimley et. al. (2017). Chinook salmon and green sturgeon migrate through San Francisco Estuary despite large distortions in the local magnetic field produced by bridges. PLos ONE 12(6): e0169031.
Loring, et. al. (2021). Tracking Movements of Migratory Shorebirds in the U.S. Atlantic Outer Continental Shelf Region. Bureau of Ocean Energy Management.
Maine Department of Inland Fisheries and Wildlife (Updated March 5, 2018). Avian Resources in Maine’s Coastal Plain.
Maxwell, et. al. (2022). Potential impacts of floating wind turbine technology for marine species and habitats. Journal of Environmental Management.
New York State Energy Research and Development Authority (2022). Marine Mammals Workgroup Report: State of the Science Workshop on Wildlife and Offshore Wind Energy 2020: Cumulative Impacts.
Peterson, T. (2016). Long-term Bat Monitoring on Islands, Offshore Structures, and Coastal Sites in the Gulf of Maine, mid-Atlantic, and Great Lakes. Report by Stantec Consulting for US Department of Energy.
U.S. Offshore Wind Synthesis of Environmental Effects Research (SEER) (Summer 2022). Bird and Bat Interactions with Offshore Wind Farms.
U.S. Offshore Wind Synthesis of Environmental Effects Research (SEER) (Winter 2022). Risk to Marine Life from Marine Debris & Floating Offshore Wind Cable Systems.
Vanerman, et. al. (2015). Seabird avoidance and attraction at an offshore wind farm in the Belgian part of the North Sea. Hydrobiologia.
Welch, L., et al. (2022). U.S. Fish and Wildlife Service Trust Resources and Responsibilities. May 19 Presentation given for the Intergovernmental Renewable Energy Task Force Meeting for the Gulf of Maine.
Wilbur, et. al. (May 2022). Demersal fish and invertebrate catches relative to construction and operation of North America’s first offshore wind farm. ICES Journal of Marine Science.
Wilhelmsson and Langhamer (2014). The influence of fisheries exclusion and addition of hard substrata on fish and crustaceans. Marine Renewable Energy Technology and Environmental Interactions, ed. M A Shields and A I L Payne (Berlin: Springer), pp 49-60.
Yakola, K., Seabird Tracking in the Gulf of Maine. National Audubon Society, Oregon State University, U.S. Fish and Wildlife. Publication forthcoming.