The Knowledge Base provides access to documents and information about the environmental effects of wind and marine renewable energy, supporting the OES-Environmental and WREN initiatives. Relevant documents from around the world are compiled into a user-friendly table that displays all content available in Tethys. Results can be narrowed using the keyword filters on the right, or with search terms entered in the text box, including targeted searches (e.g., org:DOE, author:copping). Content may also be sorted alphabetically by clicking on column headers. Some entries will appear on the next page.
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Title | Author | Date Sort ascending | Content Type | Technology | Stressor | Receptor |
---|---|---|---|---|---|---|
Beneath the blades: Marine wind farms support parts of local biodiversity - a systematic review | Knorrn, A.; Teder, T.; Kaasik, A.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind | Changes in Flow, EMF, Habitat Change, Noise | Fish, Demersal Fish, Invertebrates | |
Potential environmental impacts of floating solar photovoltaic systems | Benjamins, S.; Williamson, B.; Billing, S-L.; et al. | Journal Article | Attraction, Changes in Flow, Chemicals, EMF, Habitat Change | Birds, Fish, Marine Mammals, Physical Environment, Human Dimensions | ||
Local and regional interactions between tidal stream turbines and coastal environment | Li, X.; Li, M.; Wolf, J.; et al. | Journal Article | Marine Energy, Tidal | Changes in Flow, Habitat Change | Physical Environment, Sediment Transport | |
Integrated survey methodologies provide process-driven framework for marine renewable energy environmental impact assessment | Chapman, J.; Williamson, B.; Couto, A.; et al. | Journal Article | Marine Energy, Tidal | Changes in Flow | Birds, Fish | |
OES-Environmental 2024 State of the Science Report: Environmental Effects of Marine Renewable Energy Development Around the World | OES-Environmental | Report | Marine Energy, OTEC, Tidal, Wave | Attraction, Avoidance, Changes in Flow, Collision, Displacement, EMF, Entanglement, Habitat Change, Noise | Birds, Ecosystem Processes, Fish, Invertebrates, Marine Mammals, Physical Environment, Reptiles, Sea Turtles, Terrestrial Mammals, Human Dimensions, Environmental Justice, Legal & Policy | |
Environmental impacts from large-scale offshore renewable-energy deployment | Ouro, P.; Fernandez, R.; Armstrong, A.; et al. | Journal Article | Marine Energy, Tidal, Wave, Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Changes in Flow, Collision, EMF, Habitat Change, Noise | Birds, Fish, Marine Mammals, Cetaceans, Physical Environment, Sediment Transport | |
Answering the key stakeholder questions about the impact of offshore wind farms on marine life using hypothesis testing to inform targeted monitoring | Cresci, A.; Degraer, S.; Zhang, G.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind | Changes in Flow, EMF, Habitat Change, Noise | Human Dimensions, Stakeholder Engagement | |
Elevated fish densities extend kilometres from oil and gas platforms | Lawrence, J.; Speirs, D.; Heath, M.; et al. | Journal Article | Attraction | Fish | ||
A framework for studying the effects of offshore wind energy development on birds and bats in the Eastern United States | Williams, K.; Gulka, J.; Cook, A.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind | Attraction, Avoidance, Collision, Displacement | Bats, Birds | |
Field observations of the wake from a full-scale tidal turbine array | Guerra, M.; Hay, A. | Journal Article | Marine Energy, Tidal | Changes in Flow | Physical Environment | |
Localized Tidal Energy Extraction in Puget Sound Can Adjust Estuary Reflection and Friction, Modifying Barotropic Tides System-Wide | Spicer, P.; MacCready, P.; Yang, Z. | Journal Article | Marine Energy, Tidal | Changes in Flow | Physical Environment | |
Primary vs grey: A critical evaluation of literature sources used to assess the impacts of offshore wind farms | Szostek, C.; Edwards-Jones, A.; Beaumont, N.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Changes in Flow, Collision, Habitat Change | Bats, Birds, Fish, Invertebrates, Marine Mammals, Physical Environment, Human Dimensions | |
A three-dimensional model of terrain-induced updrafts for movement ecology studies | Thedin, R.; Brandes, D.; Quon, E.; et al. | Journal Article | Wind Energy, Land-Based Wind | Changes in Flow | Bats, Birds | |
Wake characteristics behind a tidal turbine with surface waves in turbulent flow analyzed with large-eddy simulation | Ouro, P.; Mullings, H.; Christou, A.; et al. | Journal Article | Marine Energy, Tidal | Changes in Flow | ||
Animal displacement from marine energy development: Mechanisms and consequences | Hemery, L.; Garavelli, L.; Copping, A.; et al. | Journal Article | Marine Energy, Tidal, Wave | Attraction, Avoidance, Displacement | ||
Larger wind turbines as a solution to reduce environmental impacts | Akhtar, N.; Geyer, B.; Schrum, C. | Journal Article | Wind Energy, Fixed Offshore Wind | Changes in Flow | Physical Environment | |
What are the potential effects of offshore wind farms on coastal fish and their essential habitats? | Henry, S.; Couturier, L.; Darnaude, A.; et al. | Report | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Changes in Flow, Chemicals, EMF, Habitat Change, Noise | Fish | |
A Numerical Modeling Framework to Evaluate Effects of Offshore Wind Farms on California’s Coastal Upwelling Ecosystem | Raghukumar, K.; Nelson, T.; Chang, G.; et al. | Report | Wind Energy, Floating Offshore Wind | Changes in Flow | Physical Environment | |
Assessment of ocean energy systems as a source of energy for a proposed aquaculture ecosystem in Guam | Peralta, F. | Conference Paper | Marine Energy, OTEC, Wave | Changes in Flow, Chemicals, Habitat Change | Fish, Invertebrates, Marine Mammals, Human Dimensions, Marine Spatial Planning, Social & Economic Data | |
The power of wave energy converters arrays to mitigate coastal erosion | Berrio, Y.; Rivillas-Ospina, G.; Arango-Manrique, A.; et al. | Conference Paper | Marine Energy, Wave | Changes in Flow | Physical Environment, Sediment Transport | |
Improving Understanding of Environmental Effects from Single MRE Devices to Arrays | Hasselman, D.; Hemery, L.; Copping, A.; et al. | Conference Paper | Marine Energy, Tidal, Wave | Changes in Flow, Collision, Displacement, EMF, Entanglement, Habitat Change, Noise | ||
Settlement success of European flat oyster (Ostrea edulis) on different types of hard substrate to support reef development in offshore wind farms | ter Hofstede, R.; Witte, S.; Kamermans, P.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind | Attraction, Habitat Change | Invertebrates | |
An Eulerian perspective on habitat models of striped bass occurrence in an offshore wind development area | Rothermel, E.; O'Brien, M.; Best, J.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Attraction, Avoidance, Displacement | Fish, Pelagic Fish | |
Balancing power production and coastal protection: A bi-objective analysis of Wave Energy Converters | Battisti, B.; Giorgi, G.; Fernández, G. | Journal Article | Marine Energy, Wave | Changes in Flow | Physical Environment, Human Dimensions, Climate Change | |
Effects of small marine energy deployments on oceanographic systems | Whiting, J.; Garavelli, L.; Farr, H.; et al. | Journal Article | Marine Energy, Tidal, Wave | Changes in Flow | Physical Environment | |
Overlap between the Mid-Atlantic Bight Cold Pool and offshore wind lease areas | Horwitz, R.; Miles, T.; Munroe, D.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Changes in Flow | Ecosystem Processes, Physical Environment, Human Dimensions, Fisheries | |
A synthesis review of nature positive approaches and coexistence in the offshore wind industry | Pardo, J.; Aune, M.; Harman, C.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Attraction, Habitat Change | Fish, Invertebrates, Human Dimensions, Fisheries, Marine Spatial Planning | |
Waterbodies thermal energy based systems interactions with marine environment — A review | Bordbar, A.; Georgoulas, K.; Dai, Y.; et al. | Journal Article | Marine Energy, OTEC | Changes in Flow, Chemicals, Habitat Change | Human Dimensions | |
European plaice movements show evidence of high residency, site fidelity, and feeding around hard substrates within an offshore wind farm | Buyse, J.; Reubens, J.; Hostens, K.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind | Attraction | Fish, Demersal Fish, Human Dimensions, Fisheries | |
Automatic classification of biofouling images from offshore renewable energy structures using deep learning | Signor, J.; Schoefs, F.; Quillienn, N.; et al. | Journal Article | Attraction | Invertebrates | ||
Key Biofouling Organisms in Tidal Habitats Targeted by the Offshore Renewable Energy Sector in the North Atlantic Include the Massive Barnacle Chirona hameri | Want, A.; Goubard, A.; Jonveaux, S.; et al. | Journal Article | Marine Energy, Tidal | Attraction, Habitat Change | Invertebrates | |
Study on the Impact of Offshore Wind Farms on Surrounding Water Environment in the Yangtze Estuary Based on Remote Sensing | Cai, L.; Hu, Q.; Qiu, Z.; et al. | Journal Article | Wind Energy | Changes in Flow | Physical Environment, Sediment Transport, Human Dimensions, Environmental Impact Assessment | |
Numerical Study of Turbulent Wake of Offshore Wind Turbines and Retention Time of Larval Dispersion | Ajmi, S.; Boutet, M.; Bennis, A.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind | Changes in Flow | Ecosystem Processes, Fish, Invertebrates | |
Modeling Morphodynamic Impacts and Optimization of Marine Hydrokinetic Arrays in Shallow Offshore Environments | Moghadam, H.; Ortiz, A. | Journal Article | Marine Energy | Changes in Flow, Habitat Change | Physical Environment, Sediment Transport | |
Impact of hydrodynamics on community structure and metabolic production of marine biofouling formed in a highly energetic estuary | Portas, A.; Carriot, N.; Ortalo-Magne, A.; et al. | Journal Article | Attraction | Invertebrates | ||
Fish distribution in three dimensions around the Block Island Wind Farm as observed with conventional and volumetric echosounders | Jech, J.; Lipsky, A.; Moran, P.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind | Attraction | Fish | |
Morphological Modelling to Investigate the Role of External Sediment Sources and Wind and Wave-Induced Flow on Sand Bank Sustainability: An Arklow Bank Case Study | Creane, S.; O'Shea, M.; Coughlan, M.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Changes in Flow | Physical Environment, Sediment Transport | |
Spatiotemporal Variations of Ocean Upwelling and Downwelling Induced by Wind Wakes of Offshore Wind Farms | Liu, K.; Du, J.; Larsén, X.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Changes in Flow | Physical Environment | |
Potential Hydrodynamic Impacts of Offshore Wind Energy on Nantucket Shoals Regional Ecology: An Evaluation from Wind to Whales | National Academies of Sciences, Engineering, and Medicine | Report | Wind Energy, Fixed Offshore Wind | Changes in Flow | Ecosystem Processes, Invertebrates, Marine Mammals, Cetaceans | |
Oceanographic Effects of Offshore Wind Structures and Their Potential Impacts on the North Atlantic Right Whale and Their Prey | Brodie, J.; Manhard, R.; Krebs, J.; et al. | Report | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Changes in Flow | Marine Mammals, Cetaceans | |
Tidal energy extraction modifies tidal asymmetry and transport in a shallow, well-mixed estuary | Spicer, P.; Yang, Z.; Wang, T.; et al. | Journal Article | Marine Energy, Tidal | Changes in Flow, Habitat Change | Physical Environment, Sediment Transport, Water Quality | |
ITSASDRONE, an autonomous marine surface drone for fish monitoring around wave energy devices | Uriarte, A.; Boyra, G.; Ferarios, J.; et al. | Conference Paper | Marine Energy, Wave | Attraction | Fish | |
Towards understanding environmental and cumulative impacts of floating wind farms: Lessons learned from the fixed-bottom offshore wind farms | Rezaei, F.; Contestabile, P; Vicinanza, D.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Attraction, Avoidance, Collision, EMF | Birds, Seabirds, Fish, Invertebrates | |
Wind Energy and Insects: Reviewing the State of Knowledge and Identifying Potential Interactions | Weschler, M. | Thesis | Wind Energy | Attraction, Collision | Invertebrates | |
Residency and habitat use of European lobster (Homarus gammarus) within an offshore wind farm | Thatcher, H.; Stamp, T.; Wilcockson, D.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind | Attraction, Habitat Change | Invertebrates | |
Offshore construction using gravity-base foundations indicates no long-term impacts on dolphins and harbour porpoise | Potlock, K.; Temple, A.; Berggren, P. | Journal Article | Wind Energy | Attraction | Marine Mammals, Cetaceans | |
Imaging-sonar observations of salmonid interactions with a vertical axis instream turbine | Bender, A.; Langhamer, O.; Francisco, F.; et al. | Journal Article | Marine Energy, Riverine | Attraction, Avoidance | Fish | |
Probability of Atlantic Salmon Post-Smolts Encountering a Tidal Turbine Installation in Minas Passage, Bay of Fundy | Sanderson, B.; Karsten, R.; Solda, C.; et al. | Journal Article | Marine Energy, Tidal | Attraction, Avoidance | Fish, Pelagic Fish | |
Impact of wind farms on local land surface temperature in Qinghai Province, China | Zhang, X.; Wang, H.; Shang, G.; et al. | Journal Article | Wind Energy, Land-Based Wind | Changes in Flow | Physical Environment | |
Fish response to the presence of hydrokinetic turbines as a sustainable energy solution | Müller, S.; Muhawenimana, V.; Sonnino-Sorisio, G.; et al. | Journal Article | Marine Energy, Riverine | Attraction, Avoidance | Fish |
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