Offshore Wind

Harnessing wind energy in offshore environments.

Similar to land-based wind technologies, offshore wind uses turbines to generate energy which is delivered to the shore via an export cable. A main advantage of offshore wind is the stronger and more consistent winds that blow offshore, allowing the use of larger turbine blades. The development of offshore wind in Europe and Asia has preceded development activities in other parts of the world. However, several projects in the United States are currently underway. While the most common offshore wind energy technology is a three-bladed horizontal axis turbine, there are a variety of foundation types which can support the deployment of devices in a range of aquatic environments – shallow nearshore habitats to deeper offshore environments.

 

Monopile Foundation

 

Monopile foundations are used at shallow depths (0-30 m) and consist of a pile being driven to varying depths into the seabed (10-40 m) depending on the soil conditions. The pile-driving construction process is an environmental concern as the noise produced is incredibly loud and propagates far in the water, even after mitigation strategies such as bubble shields, slow start, and acoustic cladding are employed. As with land-based wind energy, collision risk with birds and bats is a major concern, though the impact is more difficult to quantify because carcasses that provide evidence of collisions become lost at sea. While the footprint of offshore wind energy is relatively small, it may still cause scouring. As with all electricity generation, there is a slight concern that electromagnetic fields generated by power cables may affect animals that use Earth's natural magnetic field for orientation, navigation, and hunting. Likewise, chemicals such as anti-corrosion paint and small amounts of oil and grease may enter the waterbody during spills, though some turbine designs do not require lubrication. Artificial reefing is likely to occur around wind farms as the new hard substrate provides protection and attracts colonizing invertebrates.

Tripod Fixed Bottom

 

Tripod fixed bottom foundations are used at transitional depth (20-80 m) and consist of three legs connecting to a central shaft that supports the turbine base. Each leg has a pile driven into the seabed creating a wide foundation that allows for the piles to be placed at a shallower depth in the seabed. The environmental effects are very similar to monopiles, except that the footprint is a little larger.

Gravity Foundation

 

Gravity foundations are used at shallow depths (0-30 m) and consist of a large and heavy base constructed of steel or concrete to rest on the seabed. The footprint is relatively large and may cause scouring, artificial reefing, or physical destruction of habitats upon introduction. Otherwise, the environmental effects are similar to monopiles.

Gravity Tripod

 

Gravity tripod foundations are used at transitional depths (10-40 m) and consist of two heavy concrete structures connected by three legs where one structure sits on the seabed while the other sits above the water. Very few offshore windfarms are currently using this foundation. The environmental concerns are identical to those of gravity foundations, though the scouring effect may be less significant depending on the design.

Floating Structure

 

Floating structure foundations are used at deep depths (40-900 m) and consist of a balanced floating structure moored to the seabed with fixed cables. The floating structure may be stabilized using buoyancy, mooring lines, or a ballast. The mooring lines may cause minor scouring or pose a risk of collision, but the turbine foundation is mostly located in the upper layer of the water column where there tend to be less organisms.

Total Results: 1390
Titlesort descending Author Date Type of Content Technology Type Stressor Receptor
Assessing cumulative socio-ecological impacts of offshore wind farm development in the Bay of Seine (English Channel) Raoux, A., et al. February 2018 Journal Article Wind Energy general, Offshore Wind Static Device Ecosystem Processes, Human Dimensions, Climate Change
Assessing Ecological Risks of Offshore Wind Power on Kattegat Cod Hammar, L., Wikström, A., Molander, S. June 2014 Journal Article Wind Energy general, Offshore Wind Chemicals, EMF, Noise, Static Device Fish
Assessing Environmental Impacts of Offshore Wind Farms: Lessons Learned and Recommendations for the Future Bailey, H., Brookes, K., Thompson, P. September 2014 Journal Article Wind Energy general, Offshore Wind Dynamic Device, Noise Birds, Ecosystem Processes, Marine Mammals
Assessing Integrated Risks Of Offshore Wind Projects: Moving Towards Gigawatt-scale Deployments Ram, B. June 2011 Journal Article Wind Energy general, Offshore Wind
Assessing larval connectivity for marine spatial planning in the Adriatic Bray, L., Kassis, D., Hall-Spencer, J. April 2017 Journal Article Wind Energy general, Offshore Wind Static Device Invertebrates, Human Dimensions, Marine Spatial Planning
Assessing Northern Gannet Avoidance of Offshore Windfarms Rehfisch, M., et al. June 2014 Report Wind Energy general, Offshore Wind Static Device Birds, Seabirds
Assessing Seabird Displacement at Offshore Wind Farms: Power Ranges of a Monitoring and Data Handling Protocol Vanermen, N., et al. September 2015 Journal Article Wind Energy general, Offshore Wind Static Device Birds, Seabirds
Assessing The Benefit Of Noise Reduction Measures During Offshore Wind Farm Construction On Harbour Porpoises Verfuss, U., et al. September 2016 Report Wind Energy general, Offshore Wind Noise Marine Mammals, Cetaceans
Assessing the Cumulative Adverse Effects of Offshore Wind Energy Development on Seabird Foraging Guilds Along the East Coast of the United States Goodale, M,, Milman, A., Griffin, C. May 2019 Journal Article Wind Energy general, Offshore Wind Birds, Seabirds
Assessing the cumulative exposure of wildlife to offshore wind energy development Wing Goodale, M., Milman, A. April 2019 Journal Article Marine Energy general, Wind Energy general, Offshore Wind
Assessing the Environmental Impact of Underwater Noise During Offshore Windfarm Construction and Operation Nedwell, J., et al. November 2012 Conference Paper Wind Energy general, Offshore Wind Noise Farfield Environment, Fish, Marine Mammals, Nearfield Habitat
Assessing the Impact of Climate Conditions on Harnessing Coastal (Offshore) Wind Energy Akter, S., Loo, J., Hannan, M. November 2018 Conference Paper Wind Energy general, Offshore Wind Human Dimensions, Climate Change
Assessing the Impact of Marine Wind Farms on Birds through Movement Modelling Masden, E., et al. May 2012 Journal Article Wind Energy general, Offshore Wind Static Device Birds
Assessing the Impact of the Tunø Knob Wind Park on Sea Ducks: The Influence of Food Resources Guillemette, M., Larsen, J., Clausager, I. February 1999 Report Wind Energy general, Offshore Wind Birds, Seabirds, Shorebirds
Assessing the Impact of Underwater Sounds on Fishes and Other Forms of Marine Life Hawkins, A., Popper, A. March 2014 Magazine Article Marine Energy general, Wind Energy general, Offshore Wind Noise Fish
Assessing the Impact of Windfarms in Subtidal, Exposed Marine Areas Dahlgren, T., et al. February 2014 Book Chapter Wind Energy general, Offshore Wind Farfield Environment, Nearfield Habitat
Assessing the Impacts of Wind Farms on Birds Drewitt, A., Langston, R. March 2006 Journal Article Wind Energy general, Offshore Wind Dynamic Device, Static Device Birds
Assessing the Life Cycle Environmental Impacts of Wind Power: A Review of Present Knowledge and Research Needs Arvesen, A., Hertwich, E. October 2012 Journal Article Wind Energy general, Offshore Wind Human Dimensions, Life Cycle Assessment
Assessing the Responses of Coastal Cetaceans to the Construction of Offshore Wind Turbines Thompson, P., et al. August 2010 Journal Article Wind Energy general, Offshore Wind Noise Marine Mammals, Cetaceans
Assessing the risk of offshore wind farm development to migratory birds designated as features of UK Special Protection Areas (and other Annex 1 species) Wright, L., et al. October 2012 Report Wind Energy general, Offshore Wind Birds
Assessing the Underwater Acoustics of the World's Largest Vibration Hammer (OCTA-KONG) and Its Potential Effects on the Indo-Pacific Humpbacked Dolphin (Sousa chinensis) Wang, Z., et al. October 2014 Journal Article Wind Energy general, Offshore Wind Noise Marine Mammals, Cetaceans
Assessing Underwater Noise Levels during Pile-Driving at an Offshore Windfarm and its Potential Effects on Marine Mammals Bailey, H., et al. June 2010 Journal Article Wind Energy general, Offshore Wind Noise Marine Mammals
Assessing use-use interactions at sea: A theoretical framework for spatial decision support tools facilitating co-location in maritime spatial planning Bonnevie, I., Hansen, H., Schrøder, L. August 2019 Journal Article Marine Energy general, Wind Energy general, Offshore Wind Human Dimensions, Marine Spatial Planning
Assessing Vulnerability of Marine Bird Populations to Offshore Wind Farms Furness, R., Wade, H., Masden, E. April 2013 Journal Article Wind Energy general, Offshore Wind Dynamic Device, Static Device Birds
Assessment and Costs of Potential Engineering Solutions for the Mitigation of the Impacts of Underwater Noise Arising from the Construction of Offshore Windfarms Nehls, G., et al. September 2007 Report Wind Energy general, Offshore Wind Noise
Assessment of Displacement Impacts of Offshore Windfarms and Other Human Activities on Red-Throated Divers and Alcids McGovern, S., Goddard, B., Rehfisch, M. December 2016 Report Wind Energy general, Offshore Wind Birds
Assessment of Entanglement Risk to Marine Megafauna due to Offshore Renewable Energy Mooring Systems Harnois, V., et al. September 2015 Journal Article Marine Energy general, Wind Energy general, Offshore Wind Static Device Marine Mammals
Assessment of Offshore Wind Farm Effects on Birds and Needs to Plan their Future Development in Spain Mateos-Rodriguez, M., Muñoz, A., Arroyo, G. January 2012 Journal Article Wind Energy general, Offshore Wind Dynamic Device Birds, Seabirds
Assessment of Sub-Sea Acoustic Noise and Vibration from Offshore Wind Turbines and its Impact on Marine Wildlife; Initial Measurements of Underwater Noise during Construction of Offshore Windfarms, and Comparison with Background Noise Nedwell, J., Langworthy, J., Howell, D. May 2003 Report Wind Energy general, Offshore Wind Noise Fish, Marine Mammals
Assessment Of The Effects Of Noise And Vibration From Offshore Wind Farms On Marine Wildlife Vella, G., et al. January 2001 Report Wind Energy general, Offshore Wind Noise Fish, Marine Mammals
Assessment of the Effects of Offshore Wind in Birds Percival, S. January 2001 Report Wind Energy general, Offshore Wind Dynamic Device, Static Device Birds, Seabirds, Waterfowl
Assessment of the Effects of the Offshore Wind Farm Egmond aan Zee (OWEZ) for Harbour Porpoise (comparison T0 and T1) Scheidat, M., et al. September 2009 Report Wind Energy general, Offshore Wind Static Device Marine Mammals
Assessment of the Environmental Impact of Offshore Wind-Farms OSPAR Commission January 2008 Conference Paper Wind Energy general, Offshore Wind Invertebrates, Birds, Fish, Marine Mammals
Assessment of the Marine Renewables Industry in Relation to Marine Mammals: Synthesis of Work Undertaken by the ICES Working Group on Marine Mammal Ecology (WGMME) Murphy, S., et al. January 2012 Report Marine Energy general, Wind Energy general, Offshore Wind Marine Mammals, Cetaceans
Assessment of the Potential for Acoustic Deterrents to Mitigate the Impact on Marine Mammals of Underwater Noise Arising from the Construction of Offshore Windfarms Gordon, J., et al. July 2007 Report Wind Energy general, Offshore Wind Noise Marine Mammals
Assessment of the Potential for Conflict between Existing Ocean Space Use and Renewable Energy Development off the Coast of Oregon Sullivan, C. June 2012 Thesis Marine Energy general, Wind Energy general, Offshore Wind Static Device Human Dimensions
Assessment of Wind‐Farm and Other Bird Casualties from Carcasses Found on a Northumbrian Beach Over an 11‐Year Period Newton, I., Little, B. May 2009 Journal Article Wind Energy general, Offshore Wind Dynamic Device Birds, Seabirds
Atlantic Coast Port Access Route Study (ACPARS) ACPARS Working Group February 2016 Report Wind Energy general, Offshore Wind Human Dimensions, Navigation
Atlas of UK Marine Renewable Energy Resources ABP Marine Environmental Research May 2008 Website Marine Energy general, Tidal, Wave, Wind Energy general, Offshore Wind
Attitudes and Perceptions of Fishermen on the Island of Ireland Towards the Development of Marine Renewable Energy Projects Reilly, K., O'Hagan, A., Dalton, G. August 2015 Journal Article Marine Energy general, Wind Energy general, Offshore Wind Human Dimensions
Attitudes of Scottish Fishers Towards Marine Renewable Energy Alexander, K., Wilding, T., Jacomina Heymans, J. January 2013 Journal Article Marine Energy general, Wind Energy general, Offshore Wind Fish, Human Dimensions
Attitudes towards Marine Energy: Understanding the Values de Groot, J. March 2015 Thesis Marine Energy general, Tidal, Wave, Wind Energy general, Offshore Wind Human Dimensions, Stakeholder Engagement
Attraction of nocturnally migrating birds to artificial light: The influence of colour, intensity and blinking mode under different cloud cover conditions Rebke, M., et al. May 2019 Journal Article Wind Energy general, Offshore Wind Lighting Birds
Automatic Bird Identification for Offshore Wind Farms Niemi, J., Tanttu, J. March 2019 Book Chapter Offshore Wind Birds
Avian Collision Risk at an Offshore Wind Farm Desholm, M., Kahlert, J. June 2005 Journal Article Wind Energy general, Offshore Wind Dynamic Device Birds, Waterfowl
Avian Issues for Offshore Wind Development Allison, T., Jedrey, E., Perkins, S. June 2008 Journal Article Wind Energy general, Offshore Wind Dynamic Device, Static Device Birds, Waterfowl
Avian Sensitivity to Mortality: Prioritising Migratory Bird Species for Assessment at Proposed Wind Farms Desholm, M. June 2009 Journal Article Wind Energy general, Offshore Wind Dynamic Device, Static Device Birds, Passerines, Raptors, Seabirds, Waterfowl
Avoidance Behaviour of Birds around Offshore Wind Farms: Overview of Knowledge Including Effects of Configuration Krijgsveld, K. July 2014 Report Wind Energy general, Offshore Wind Static Device Birds
Avoidance Behaviour of Migrating Raptors Approaching an Offshore Wind Farm Jacobsen, E., Jensen, F., Blew, J. March 2019 Book Chapter Offshore Wind Raptors
Avoidance of Wind Farms by Harbour Seals is Limited to Pile Driving Activities Russell, D., et al. May 2016 Journal Article Wind Energy general, Offshore Wind Noise Marine Mammals, Pinnipeds
Barotrauma is a Significant Cause of Bat Fatalities at Wind Turbines Baerwald, E., et al. August 2008 Journal Article Wind Energy general, Offshore Wind Dynamic Device Bats
Barriers to Movement: Modelling Energetic Costs of Avoiding Marine Wind Farms Amongst Breeding Seabirds Masden, E., et al. July 2010 Journal Article Wind Energy general, Offshore Wind Static Device Birds, Seabirds
Barrow Offshore Wind Farm Post-Construction Monitoring Report Barrow Offshore Wind January 2008 Report Wind Energy general, Offshore Wind Dynamic Device, Energy Removal, Noise, Static Device Invertebrates, Birds, Seabirds, Waterfowl, Fish
Base Line Studies North Sea Wind Farms: Final Report Pelagic Fish Grift, R., et al. June 2004 Report Wind Energy general, Offshore Wind Energy Removal Fish, Nearfield Habitat
Base-Line Investigations of Birds in Relation to an Offshore Wind Farm at Rødsand: Results and Conclusions, 2002 Desholm, M., et al. September 2003 Report Wind Energy general, Offshore Wind Static Device Birds, Passerines, Raptors, Seabirds, Waterfowl
Baseline Studies North Sea Wind Farms: Fluxes, Flight Paths and Altitudes of Flying Birds 2003-2004 Krijgsveld, K., et al. October 2005 Report Wind Energy general, Offshore Wind Birds
Baseline Studies North Sea Wind Farms: Lot 5 Marine Birds in and Around the Future Sites Nearshore Windfarm (NSW) and Q7 Leopold, M., et al. January 2004 Report Wind Energy general, Offshore Wind Birds, Seabirds
Bat 1: Estimate of bat populations at the southern North Sea - Supporting note to ZDV report no. 2016.031 Migrating bats at the southern North Sea Lagerveld, S., et al. March 2017 Report Wind Energy general, Offshore Wind Birds
Bat Activity at a Small Wind Turbine in the Baltic Sea Rydell, J., Wickman, A. October 2015 Journal Article Wind Energy general, Offshore Wind Bats
Bat activity during autumn relates to atmospheric conditions: implications for coastal wind energy development Smith, A., McWilliams, S. December 2016 Journal Article Wind Energy general, Land-Based Wind, Offshore Wind Static Device Bats
Bat Activity in Dutch offshore wind farms in autumn 2012 Lagerveld, S., et al. January 2014 Journal Article Wind Energy general, Offshore Wind Bats
Bat Flight Analysis around Wind Turbines - A Feasibility Study Lagerveld, S., et al. March 2017 Report Wind Energy general, Offshore Wind Bats
Bat Migration Across the Southern North Sea and Possible Implications for Offshore Wind Farms Lagerveld, S., Platteeuw, M. March 2016 Presentation Wind Energy general, Offshore Wind Bats
Bats and Offshore Wind Turbines Studied in Southern Scandinavia Ahlén, I., et al. July 2007 Report Wind Energy general, Offshore Wind Dynamic Device Bats
Bats and Wind Energy Development Cris Hein July 2015 Blog Article Land-Based Wind, Offshore Wind
Bats in Dutch Offshore Wind Farms in Autumn 2012 Lagerveld, S., et al. January 2014 Journal Article Wind Energy general, Offshore Wind Bats
Behavioral Reactions of Harbor Porpoise to Pile-Driving Noise Tougaard, J., et al. January 2012 Journal Article Wind Energy general, Offshore Wind Noise Marine Mammals
Behavioral Responses of a Harbor Porpoise (Phocoena phocoena) to Playbacks of Broadband Pile Driving Sounds Kastelein, R., et al. December 2013 Journal Article Wind Energy general, Offshore Wind Noise Marine Mammals
Behavioural Reactions of Cod (Gadus morhua) and Plaice (Pleuronectes platessa) to Sound Resembling Offshore Wind Turbine Noise Mueller, C. December 2007 Thesis Wind Energy general, Offshore Wind Noise Fish
Behavioural Reactions of Free-Ranging Porpoises and Seals to the Noise of a Simulated 2 MW Windpower Generator Koschinski, S., et al. December 2003 Journal Article Wind Energy general, Offshore Wind Noise Marine Mammals, Pinnipeds
Benefits and Disadvantages of Co-Locating Windfarms and Marine Conservation Zones, with a Focus on Commercial Fishing Blyth-Skyrme, R. March 2011 Report Wind Energy general, Offshore Wind Human Dimensions, Fisheries, Legal and Policy
Benthic and Fish Aggregation Inside an Offshore Wind Farm: Which Effects on the Trophic Web Functioning? Raoux, A., et al. January 2017 Journal Article Wind Energy general, Offshore Wind Static Device Invertebrates, Ecosystem Processes
Benthic biodiversity on old platforms, young wind farms, and rocky reefs Coolen, J., et al. July 2018 Journal Article Wind Energy general, Offshore Wind Static Device Invertebrates
Benthic Communities at Horns Rev Before, During and After Construction of Horns Rev Offshore Wind Farm: Final Report Vattenfall May 2006 Report Wind Energy general, Offshore Wind Static Device Invertebrates, Nearfield Habitat
Benthic Communities on Hard Substrates of the Offshore Wind Farm Egmond aan Zee (OWEZ) Bouma, S., Lengkeek, W. February 2012 Report Wind Energy general, Offshore Wind Invertebrates
Benthic Conservation Features and Species Associated With Subsea Pipelines: Considerations for Decommissioning Rouse, S., et al. April 2019 Journal Article Wind Energy general, Offshore Wind Invertebrates, Human Dimensions, Legal and Policy
Benthic Monitoring and Sampling Design and Effort to Detect Spatial Changes: A Case Study using Data from Offshore Wind Farm Sites Franco, A., Quintino, V., Elliott, M. October 2015 Journal Article Wind Energy general, Offshore Wind Static Device Invertebrates
Benthic Monitoring During Wind Turbine Installation and Operation at the Block Island Wind Farm, Rhode Island Bartley, M., et al. February 2018 Report Wind Energy general, Offshore Wind Invertebrates, Nearfield Habitat
Benthic production and energy export from man-made structures to softbottoms: does it matter? Dannheim, J., et al. September 2018 Conference Paper Wind Energy general, Offshore Wind Energy Removal Invertebrates, Ecosystem Processes, Farfield Environment, Nearfield Habitat
Benthos distribution modelling and its relevance for marine ecosystem management Reiss, H., et al. February 2015 Journal Article Marine Energy general, Wind Energy general, Offshore Wind Invertebrates
Best Management Practices for North Atlantic Right Whales During Offshore Wind Energy Construction and Operations Along the U.S. East Coast NRDC March 2019 Report Wind Energy general, Offshore Wind Marine Mammals, Cetaceans
Best Practice Guidance for the Use of Remote Techniques for Observing Bird Behaviour in Relation to Offshore Wind Farms Desholm, M., Fox, A., Beasley, P. January 2004 Report Wind Energy general, Offshore Wind Birds, Seabirds, Shorebirds
Biodiversity Characterisation of Fouling Communities and Their Hydrodynamic Consequences on Marine Renewable Energy Infrastructure in the UK Want, A., Harris, R., Porter, J. December 2018 Conference Paper Marine Energy general, Wind Energy general, Offshore Wind Static Device Invertebrates
Biodiversity Offsets for Offshore Wind Farm Projects: The Current Situation in Europe Vaissière, A., et al. September 2014 Journal Article Wind Energy general, Offshore Wind Ecosystem Processes
Biology and Video Surveys of North Hoyle Wind Turbines 11th-13th August 2004 Bunker, F. August 2004 Report Wind Energy general, Offshore Wind Static Device Invertebrates, Fish
Bird and Bat Collision Risks & Wind Energy Facilities Willmott, J., et al. December 2012 Report Wind Energy general, Land-Based Wind, Offshore Wind Dynamic Device, Static Device Bats, Birds
Bird Casualties Caused by a Wind Energy Project in an Estuary Musters, C., Noordervliet, M., terKeurs, W. March 1996 Journal Article Wind Energy general, Offshore Wind Dynamic Device Birds, Seabirds, Shorebirds, Waterfowl
Bird collisions at an offshore platform in the North Sea Hüppop, O., et al. January 2016 Journal Article Wind Energy general, Offshore Wind Static Device Birds
Bird Killer, Industrial Intruder or Clean Energy? Perceiving Risks to Ecosystem Services Due to an Offshore Wind Farm Klain, S., et al. January 2018 Journal Article Wind Energy general, Offshore Wind Human Dimensions
Bird Migration Studies and Potential Collision Risk with Offshore Wind Turbines Hüppop, O., et al. March 2006 Journal Article Wind Energy general, Offshore Wind Dynamic Device Birds, Passerines
Bird Monitoring at Offshore Wind Farms in the Belgian Part of the North Sea - Assessing Seabird Displacement Effects Vanermen, N., et al. January 2013 Report Wind Energy general, Offshore Wind Static Device Birds
Bird Movements at Rotor Heights Measured Continuously with Vertical Radar at a Dutch Offshore Wind Farm Fijn, R., et al. July 2015 Journal Article Wind Energy general, Offshore Wind Dynamic Device Birds, Passerines, Seabirds
Bird Numbers and Distributions in the Horns Rev Offshore Wind Farm Area Petersen, I. January 2005 Report Wind Energy general, Offshore Wind Birds, Seabirds, Waterfowl
Birds and Offshore Wind Farms: A Hot Topic in Marine Ecology Exo, K., Hüppop, O., Garthe, S. April 2003 Journal Article Wind Energy general, Offshore Wind Dynamic Device, Static Device Birds, Seabirds, Ecosystem Processes, Nearfield Habitat
Birds and Offshore Wind: Studying and Assessing Effects Pereksta, D. July 2013 Presentation Wind Energy general, Offshore Wind Birds
Block Island Wind Farm and Block Island Transmission System Environmental Report/Construction and Operations Plan Tetra Tech Inc. September 2012 Report Wind Energy general, Offshore Wind Human Dimensions, Environmental Impact Assessment
Blue Seas - Green Energy: A Sectoral Marine Plan for Offshore Wind Energy in Scottish Territorial Waters (Post Adoption Statement) APS Group Scotland March 2011 Report Wind Energy general, Offshore Wind Human Dimensions
Blue Seas - Green Energy: A Sectoral Marine Plan for Offshore Wind Energy in Scottish Territorial Waters (The Plan) APS Group Scotland March 2011 Report Wind Energy general, Offshore Wind Human Dimensions
Book of Abstracts: Conference on Wind Power and Environmental Impacts Naturvårdsverket February 2013 Report Wind Energy general, Offshore Wind
Breeding density, fine-scale tracking, and large-scale modeling reveal the regional distribution of four seabird species Wakefield, E., et al. October 2017 Journal Article Wind Energy general, Offshore Wind Static Device Birds, Seabirds

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