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: 1266
Titlesort descending Author Date Type of Content Technology Type Stressor Receptor
Challenge of Using Passive Acoustic Monitoring in High-Energy Environments: UK Tidal Environments and Other Case Studies Booth, C. January 2016 Book Chapter Marine Energy general, Wind Energy general, Offshore Wind
Challenges and opportunities for governance in marine spatial planning Greenhill, L. February 2018 Book Chapter Marine Energy general, Wind Energy general, Offshore Wind Socio-economics, Marine Spatial Planning
Challenges and Solutions of Remote Sensing at Offshore Wind Energy Developments Kelly, T., West, T., Davenport, J. November 2009 Journal Article Wind Energy general, Offshore Wind Bats, Birds
Challenges in Implementing Sustainable Marine Spatial Planning: The New Portuguese Legal Framework Case Santos, C., et al. November 2015 Journal Article Marine Energy general, Wind Energy general, Offshore Wind Socio-economics, Legal and Policy, Marine Spatial Planning
Changes in Bird Habitat Utilisation around the Horns Rev 1 Offshore Wind Farm, with Particular Emphasis on Common Scoter Petersen, I., Fox, A. April 2007 Report Wind Energy general, Offshore Wind Static Device Birds, Seabirds, Waterfowl
Changes in Fish Communities on a Small Spatial Scale, an Effect of Increased Habitat Complexity by an Offshore Wind Farm van Hal, R., Griffioen, A., van Keeken, O. May 2017 Journal Article Wind Energy general, Offshore Wind Static Device Fish, Nearfield Habitat
Changing the Game: New Renewable Energy Support Website Launched Jim Strittholt April 2018 Blog Article Wind Energy general, Offshore Wind
Characterizing the benthic community in Maryland’s offshore wind energy areas using a towed camera sled: Developing a method to reduce the effort of image analysis and community description Cruz-Marrero, W., et al. May 2019 Journal Article Wind Energy general, Offshore Wind Benthic Invertebrates, Nearfield Habitat
Classification of Birds and Bats Using Flight Tracks Cullinan, V., Matzner, S., Duberstein, C. May 2015 Journal Article Wind Energy general, Offshore Wind Bats, Birds
Co-locating offshore wind farms and marine protected areas Ashley, M., et al. February 2018 Book Chapter Marine Energy general, Wind Energy general, Offshore Wind Socio-economics
Co-Location of Activities and Designations: A Means of Solving or Creating Problems in Marine Spatial Planning? Christie, N., et al. January 2014 Journal Article Wind Energy general, Offshore Wind Static Device Socio-economics, Marine Spatial Planning
Co-location of passive gear fisheries in offshore wind farms in the German EEZ of the North Sea: A first socio-economic scoping Stelzenmüller, V., et al. December 2016 Journal Article Wind Energy general, Offshore Wind Static Device Socio-economics, Fishing
Coastal impact of a hybrid marine farm operating close to the Sardinia Island Onea, F., Rusu, L. May 2015 Conference Paper Marine Energy general, Wave, Wind Energy general, Offshore Wind Energy Removal Farfield Environment
Coastal Process Modelling for Offshore Windfarm Environmental Impact Assessment: Best Practice Guide Lambkin, D., et al. September 2009 Report Wind Energy general, Offshore Wind Energy Removal
Coastal Wave Parks Should Not Interfere with Gray Whale Migrations Andrea Copping April 2012 Blog Article Offshore Wind
Cod and Sole Behaviour in an Offshore Wind Farm Winter, E., Aarts, G., van Keeken, O. October 2012 Presentation Wind Energy general, Offshore Wind Noise, Static Device Fish
Collision and Displacement Vulnerability Among Marine Birds of the California Current System Associated with Offshore Wind Energy Infrastructure Adams, J., et al. October 2016 Report Wind Energy general, Offshore Wind Dynamic Device Birds, Seabirds
Collision and displacement vulnerability to offshore wind energy infrastructure among marine birds of the Pacific Outer Continental Shelf Kelsey, E., et al. September 2018 Journal Article Wind Energy general, Offshore Wind Dynamic Device Birds
Collision Mortalities at Horseshoe Shoal of Bird Species of Special Concern Hatch, J., Brault, S. January 2007 Report Wind Energy general, Offshore Wind Dynamic Device Birds, Seabirds, Shorebirds, Waterfowl
Collision Risk Model for "rufa" Red Knots (Calidris canutus rufa) Interacting with a Proposed Offshore Wind Energy Facility in Nantucket Sound, Massachusetts Gordon, C., Nations, C. January 2016 Report Wind Energy general, Offshore Wind Birds, Shorebirds
Collision, Displacement and Barrier Effect Concept Note Humphreys, E., Cook, S., Burton, N. January 2015 Report Wind Energy general, Offshore Wind Dynamic Device, Static Device Birds, Raptors, Seabirds, Shorebirds
Colonization of an Artificial Hard Substrate by Mytilus edulis in the German Bight Joschko, T., et al. October 2008 Journal Article Marine Energy general, Wind Energy general, Offshore Wind Static Device Benthic Invertebrates
Combined Exploitation of Offshore Wind and Wave Energy in the Italian Seas: A Spatial Planning Approach Azzellino, A., et al. April 2019 Journal Article Marine Energy general, Wave, Wind Energy general, Offshore Wind Socio-economics, Marine Spatial Planning
Combining Offshore Wind and Wave Energy Extraction: An Environmental Perspective Rumes, B., et al. September 2015 Conference Paper Marine Energy general, Wave, Wind Energy general, Offshore Wind
Combining Wave Energy with Wind and Solar: Short-Term Forecasting Reikard, G., Robertson, B., Bidlot, J. September 2015 Journal Article Marine Energy general, Wave, Wind Energy general, Offshore Wind
Commercial Wind Lease Issuance and Site Characterization Activities on the Atlantic Outer Continental Shelf Offshore New Jersey, Delaware, Maryland, and Virginia Bureau of Ocean Energy Management, Regulation and Enforcement July 2011 Report Wind Energy general, Offshore Wind
Common Sole Larvae Survive High Levels of Pile-Driving Sound in Controlled Exposure Experiments Bolle, L., et al. March 2012 Journal Article Wind Energy general, Offshore Wind Noise Fish
Community Benefits, Framing and the Social Acceptance of Offshore Wind Farms: An Experimental Study in England Walker, B., Wiersma, B., Bailey, E. September 2014 Journal Article Wind Energy general, Offshore Wind Socio-economics, Stakeholder Engagement
Comparing offshore and onshore wind development considering acceptance costs Hevia-Koch, P., Jacobsen, H. February 2019 Journal Article Wind Energy general, Land-Based Wind, Offshore Wind Socio-economics, Stakeholder Engagement
Comparing Pre- and Post-Construction Distributions of Long-Tailed Ducks Clangula hyemalis in and around the Nysted Offshore Wind Farm, Denmark: A Quasi-Designed Experiment Accounting for Imperfect Detection, Local Surface Features and Autocorrelation Petersen, I., et al. January 2011 Report Wind Energy general, Offshore Wind Birds, Waterfowl
Comparison of Manual and Semi-Automatic Underwater Imagery Analyses for Monitoring of Benthic Hard-Bottom Organisms at Offshore Renewable Energy Installations Saskov, A., et al. September 2015 Journal Article Wind Energy general, Offshore Wind Static Device Benthic Invertebrates
Comparison of Visual and Digital Aerial Survey Results of Avian Abundance for Round 3, Norfolk Region Burt, L., Rexstad, E., Buckland, S. November 2009 Report Wind Energy general, Offshore Wind Birds, Seabirds
Compatibility of offshore energy installations with marine protected areas Thurstan, R., Yates, K., O'Leary, B. February 2018 Book Chapter Marine Energy general, Wind Energy general, Offshore Wind Ecosystem
Compendium of Avian Occurrence Information for the Continental Shelf Waters along the Atlantic Coast of the United States: Final Report (Database Selection - Shorebirds) O'Connell, A., Spiegel, C., Johnson, S. April 2011 Report Wind Energy general, Offshore Wind Birds, Shorebirds
Computationally Efficient Modelling of Dynamic Soil-Structure Interaction of Offshore Wind Turbines on Gravity Footings Damgaard, M., Andersen, L., Ibsen, L. August 2014 Journal Article Wind Energy general, Offshore Wind Nearfield Habitat
Concerning an Act on Offshore Renewable Energy Production (the Offshore Energy Act) Norwegian Ministry of Petroleum and Energy January 2009 Report Marine Energy general, Wind Energy general, Offshore Wind
Concerted Action for Offshore Wind Energy Deployment (COD): Overview of Environmental Impacts of Offshore Wind Energy Roth, E., Verhoef, L., Dingenouts, M. September 2004 Report Wind Energy general, Offshore Wind Birds, Fish, Marine Mammals, Nearfield Habitat
Consequences of a Cumulative Perspective on Marine Environmental Impacts: Offshore Wind Farming and Seabirds at North Sea Scale in Context of the EU Marine Strategy Framework Directive Busch, M., et al. January 2013 Journal Article Wind Energy general, Offshore Wind Birds, Farfield Environment
Consequential Environmental System Analysis of Expected Offshore Wind Electricity Production in Germany Pehnt, M., Oeser, M., Swider, D. May 2008 Journal Article Wind Energy general, Offshore Wind Socio-economics, Climate Change, Life Cycle Assessment
Conservation features: Sensitive species and habitats in the German Exclusive Economic Zone Krause, J. January 2014 Book Chapter Wind Energy general, Offshore Wind
Consideration of scales in offshore wind environmental impact assessments Ryan, K., Danylchuk, A., Jordaan, A. March 2019 Journal Article Wind Energy general, Offshore Wind Socio-economics, Environmental Impact Assessment
Contextualizing Avian Mortality: A Preliminary Appraisal of Bird and Bat Fatalities from Wind, Fossil-Fuel, and Nuclear Electricity Sovacool, B. June 2009 Journal Article Wind Energy general, Offshore Wind Dynamic Device, Static Device Bats, Birds
Continuation Implementation Masterplan Wind at Sea Ministry of Economic Affairs (Rijksoverheid), Ministry of Infrastructure and the Environment (Rijkwaterstaat) September 2015 Report Wind Energy general, Offshore Wind Noise, Static Device Bats, Birds, Fish, Marine Mammals
Cool Rationalities and Hot Air: A Rhetorical Approach to Understanding Debates on Renewable Energy Barry, J., Ellis, G., Robinson, C. May 2008 Journal Article Wind Energy general, Offshore Wind Socio-economics
Coordination and Cooperation in the European Marine Strategy Framework Directive and the US National Ocean Policy Maier, N. May 2014 Journal Article Marine Energy general, Wind Energy general, Offshore Wind Socio-economics
COWRIE 1.5 The Potential Effects of Electromagnetic Fields Generated by Sub-Sea Power Cables Associated with Offshore Wind Farm Developments on Electrically and Magnetically Sensitive Marine Organisms - A Review Gill, A., et al. July 2005 Report Wind Energy general, Offshore Wind EMF Benthic Invertebrates, Fish, Marine Mammals
COWRIE 2.0 Electromagnetic Fields (EMF) Phase 2: EMF Sensitive Fish Response to EM Emissions from Sub-sea Electricity Cables of the Type used by the Offshore Renewable Energy Industry Gill, A., et al. March 2009 Report Marine Energy general, Wind Energy general, Offshore Wind EMF Fish
COWRIE Workshop on the Cumulative Impact of Offshore Windfarms on Birds Norman, T., Buisson, R., Askew, N. May 2007 Report Wind Energy general, Offshore Wind Birds
Creation of microhabitats (tidepools) in ripraps with climax communities as a way to mitigate negative effects of artificial substrate on marine biodiversity Ostale-Valriberas, E., et al. September 2018 Journal Article Marine Energy general, Wind Energy general, Offshore Wind Static Device Benthic Invertebrates, Nearfield Habitat
Cultural Ecosystem Services in the Context of Offshore Wind Farming: A Case Study from the West Coast of Schleswig-Holstein Gee, K., Burkhard, B. September 2010 Journal Article Wind Energy general, Offshore Wind Socio-economics, Stakeholder Engagement
Cumulative Adverse Effects of Offshore Wind Energy Development on Wildlife Goodale, W., Milman, A. January 2016 Journal Article Wind Energy general, Offshore Wind Farfield Environment
Cumulative Adverse Effects of Offshore Wind Energy Development on Wildlife [Thesis] Goodale, M. September 2018 Thesis Wind Energy general, Offshore Wind Static Device Birds, Seabirds
Cumulative Effects of Wind Farms in the Dutch North Sea on Bird Populations Poot, M., et al. June 2012 Conference Paper Wind Energy general, Offshore Wind Dynamic Device Birds
Cumulative Impact Assessments and Bird/Wind Farm Interactions: Developing a Conceptual Framework Masden, E., et al. January 2010 Journal Article Wind Energy general, Offshore Wind Birds, Farfield Environment
Cumulative Impacts Assessment Guidelines: Guiding Principles for Cumulative Impacts Assessment in Offshore Wind Farms Renewable UK June 2013 Report Wind Energy general, Offshore Wind Socio-economics, Environmental Impact Assessment
Cumulative impacts of offshore windfarms Damian, H., Merck, T. January 2014 Book Chapter Wind Energy general, Offshore Wind Farfield Environment
Current and Wave Effects around Windfarm Monopile Foundations Miles, J., Martin, T, Goddard, L March 2017 Journal Article Wind Energy general, Offshore Wind Static Device
Current situation of offshore development in Germany and environmentally sound expansion of offshore wind energy van Leusen, S. January 2014 Book Chapter Wind Energy general, Offshore Wind Socio-economics, Legal and Policy
Current state of knowledge of effects of offshore renewable energy generation devices on marine mammals & research requirements Thompson, D., et al. July 2013 Report Marine Energy general, Tidal, Wave, Wind Energy general, Offshore Wind Marine Mammals
D2.4 Collation of Off‐shore Wind‐Wave Dynamics Bredmose, H., et al. November 2012 Report Wind Energy general, Offshore Wind
D2.6 Report on Offshore Wind System Monitoring Practice and Normalisation Procedures Schaumann, P., et al. December 2013 Report Wind Energy general, Offshore Wind
D4.06 Data Reports and Databases: Data on Coastal and Offshore Wind Measurements Courtney, M., et al. February 2014 Report Wind Energy general, Offshore Wind
D4.17 Report on environmental monitoring protocols Magagna, D., et al. May 2014 Report Marine Energy general, Tidal, Wave, Wind Energy general, Offshore Wind Chemicals, Dynamic Device, Noise, Static Device Benthic Invertebrates, Birds, Seabirds, Fish, Marine Mammals
Danish Offshore Wind Key Environmental Issues - A Follow-up Danish Energy Agency, et al. February 2013 Report Wind Energy general, Offshore Wind Birds, Seabirds, Fish, Marine Mammals
Danish Offshore Wind: Key Environmental Issues DONG Energy, et al. November 2006 Report Wind Energy general, Offshore Wind Dynamic Device, EMF, Energy Removal, Noise, Static Device Benthic Invertebrates, Birds, Fish, Marine Mammals, Nearfield Habitat, Socio-economics
Dark Green Electricity Comes from the Sea: Capitalizing on Ecological Merits of Offshore Wind Power? Toonen, H., Lindeboom, H. February 2015 Journal Article Wind Energy general, Offshore Wind Socio-economics
Decision Bias in Marine Spatial Planning of Offshore Wind Farms: Problems of Singular Versus Cumulative Assessments of Economic Impacts on Fisheries Berkenhagen, J., et al. May 2010 Journal Article Wind Energy general, Offshore Wind Socio-economics, Marine Spatial Planning
Deep Water: The Next Step for Offshore Wind Energy Arapogianni, A., et al. July 2013 Report Wind Energy general, Offshore Wind
Definition of a 5-MW Reference Wind Turbine for Offshore System Development Jonkman, J., et al. February 2009 Report Wind Energy general, Offshore Wind
Delivering Community Benefits from Wind Energy Development: A Toolkit Hassan, G., Capener, P. May 2007 Report Wind Energy general, Offshore Wind Socio-economics
Delivering Offshore Electricity to the EU: Spatial Planning of Offshore Renewable Energies and Electricity Grid Infrastructures in an Integrated EU Maritime Policy Seanergy May 2012 Report Wind Energy general, Offshore Wind
Density dependence and marine bird populations: are wind farm assessments precautionary? Horswill, C., O'Brien, S., Robinson, R. October 2017 Journal Article Wind Energy general, Offshore Wind Static Device Birds, Seabirds
Depth use and movements of homing Atlantic salmon (Salmo salar) in Scottish coastal waters in relation to marine renewable energy development Godfrey, J., et al. December 2014 Report Marine Energy general, Tidal, Wave, Wind Energy general, Offshore Wind Fish
Design and Implementation of a Marine Animal Alert System to Support Marine Renewable Energy Choi, E., et al. July 2013 Journal Article Marine Energy general, Wind Energy general, Offshore Wind Marine Mammals, Cetaceans
Design and Initial Component Tests of an Integrated Avian and Bat Collision Detection System for Offshore Wind Turbines Flowers, J., et al. April 2014 Conference Paper Wind Energy general, Offshore Wind Dynamic Device Bats, Birds
Determining Night-Time Distribution of Long-Tailed Ducks Using Satellite Telemetry Allison, T., Perkins, S., Perry, M. March 2009 Report Wind Energy general, Offshore Wind Birds, Waterfowl
Determining the Infrastructure Needs to Support Offshore Floating Wind and Marine Hydrokinetic Facilities on the Pacific West Coast and Hawaii Porter, A., Phillips, S. January 2016 Report Marine Energy general, Wind Energy general, Offshore Wind Socio-economics
Developing an Avian Collision Risk Model to Incorporate Variability and Uncertainty Masden, E. September 2015 Report Wind Energy general, Offshore Wind Dynamic Device, Static Device Birds
Developing an Instrumentation Package for in-Water Testing of Marine Hydrokinetic Energy Devices Nelson, E. August 2010 Conference Paper Marine Energy general, Wind Energy general, Offshore Wind
Developing Environmental Protocols and Modeling Tools to Support Ocean Renewable Energy and Stewardship McCann, J. September 2012 Report Marine Energy general, Wind Energy general, Offshore Wind
Developing Guidance on Ornithological Cumulative Impact Assessment for Offshore Wind Farm Developers King, S., et al. June 2009 Report Wind Energy general, Offshore Wind Dynamic Device Birds
Development of a Cost Minimizing Strategy to Mitigate Bird Mortalities in a Wind Farm Singh, K. May 2012 Thesis Wind Energy general, Offshore Wind Dynamic Device Birds
Development of a Geographic Information System-Based Decision Support Tool for Evaluating Windfarm Sitings in Great Lakes Aquatic Habitats Wehrly, K., et al. July 2011 Report Wind Energy general, Offshore Wind
Development of a New Underwater Piling Noise Mitigation System - Using Hydro Sound Dampers (HSD) Kuhn, C., et al. July 2012 Conference Paper Wind Energy general, Offshore Wind Noise
Development of cumulative impact assessment guidelines for offshore wind farms and evaluation of use in project making Durning, B., Broderick, M. July 2019 Journal Article Wind Energy general, Offshore Wind Socio-economics
Development of Noise Mitigation Measures in Offshore Wind Farm Construction Koschinski, S., Lüdemann, K. February 2013 Report Wind Energy general, Offshore Wind Noise
Development of Offshore Renewable Energy in Scotland's Seas: Research Implementation Strategy Scottish Government September 2012 Report Marine Energy general, Wind Energy general, Offshore Wind
Development of Spatial Information Layers for Commercial Fishing and Shellfishing in UK Waters to Support Strategic Siting of Offshore Windfarms Dunstone, D. March 2009 Report Wind Energy general, Offshore Wind Static Device Benthic Invertebrates, Fish, Socio-economics
Development of the Fouling Community on Turbine Foundations and Scour Protections in Nysted Offshore Wind Farm Birklund, J., Petersen, A June 2004 Report Wind Energy general, Offshore Wind Static Device Benthic Invertebrates, Nearfield Habitat
Development of Underwater Flora and Fauna Communities on Hard Substrates of the Offshore Wind Farm Egmond aan Zee Lengkeek, W., Bouma, S. December 2009 Report Wind Energy general, Offshore Wind Static Device Ecosystem
Did the Pile Driving during the Construction of the Offshore Wind Farm Egmond aan Zee, the Netherlands, Impact Local Seabirds? Leopold, M., Camphuysen, K. August 2009 Report Wind Energy general, Offshore Wind Noise Birds, Seabirds
Did the Pile Driving during the Construction of the Offshore Wind Farm Egmond aan Zee, the Netherlands, Impact Porpoises? Leopold, M., Camphuysen, K. February 2008 Report Wind Energy general, Offshore Wind Noise Marine Mammals, Cetaceans
Diel Variation in Feeding and Movement Patterns of Juvenile Atlantic Cod at Offshore Wind Farms Reubens, J., et al. May 2013 Journal Article Wind Energy general, Offshore Wind Static Device Fish
Differentiating Between Underwater Construction Noise of Monopile and Jacket Foundations for Offshore Windmills: A Case Study from the Belgian Part of the North Sea Norro, A., Rumes, B., Degraer, S. February 2013 Journal Article Wind Energy general, Offshore Wind Noise
Displacement of existing activities Kafas, A., Donohue, P., Davies, I. February 2018 Book Chapter Marine Energy general, Wind Energy general, Offshore Wind Socio-economics, Stakeholder Engagement
Displacement of seabirds by an offshore wind farm in the North Sea Welcker, J., Nehls, G. July 2016 Journal Article Wind Energy general, Offshore Wind Static Device Birds, Seabirds
Disruption to Place Attachment and the Protection of Restorative Environments: A Wind Energy Case Study Devine-Wright, P., Howes, Y. September 2010 Journal Article Wind Energy general, Offshore Wind Socio-economics
Distribution and Behaviour of Common Scoter Melanitta nigra Relative to Prey Resources and Environmental Parameters Kaiser, M., et al. March 2006 Journal Article Wind Energy general, Offshore Wind Birds, Waterfowl, Ecosystem
Distribution of Harbour Seals in the German Bight in Relation to Offshore Wind Power Plants Adelung, D., et al. January 2006 Book Chapter Wind Energy general, Offshore Wind Marine Mammals, Pinnipeds
Disturbance Effects on the Harbour Porpoise Population in the North Sea (DEPONS): Status report on model development van Beest, F., et al. February 2015 Report Offshore Wind Noise Marine Mammals

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