The Knowledge Base provides access to documents and information about the environmental effects of marine renewable energy, supporting the OES-Environmental initiative. 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 | Content Type | Technology | Stressor | Receptor |
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The Evolution and Future Prospects of China’s Wave Energy Policy from the Perspective of Renewable Energy: Facing Problems, Governance Optimization and Effectiveness Logic | Qi, M.; Dai, X.; Zhang, B.; et al. | Journal Article | Marine Energy, Wave | Human Dimensions, Legal & Policy | ||
Insights from the management of offshore energy resources: Toward an ecosystem-services based management approach for deep-ocean industries | Bravo, M.; Brandt, M.; van der Grient, J.; et al. | Journal Article | Marine Energy, Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Avoidance, Changes in Flow, EMF, Habitat Change, Noise | Ecosystem Processes, Fish, Social & Economic Data | |
Marine Renewable Energy: Policy, People, and Prospects | Wickizer, B.; Brandt, D.; Robertson, B.; et al. | Book Chapter | Marine Energy, Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Human Dimensions, Legal & Policy | ||
A review of geographic information system (GIS) and techno economic (TE) software tools for renewable energy and methodology to develop a coupled GIS-TE software tool for marine renewable energy (MRE) | O'Connell, R.; Murphy, J.; McAuliffe, F.; et al. | Journal Article | Marine Energy | Human Dimensions, Social & Economic Data | ||
A biologist's guide to the galaxy: Leveraging artificial intelligence and very high-resolution satellite imagery to monitor marine mammals from space | Khan, C.; Goetz. K.; Cubaynes, H.; et al. | Journal Article | Marine Mammals | |||
5th ScotMER Symposium: Marine Mammals | Marine Scotland | Presentation | Marine Energy, Tidal, Wind Energy, Fixed Offshore Wind | Marine Mammals | ||
Socio-economic, legal, and political context of offshore renewable energies | Salvador, S.; Ribeiro, M. | Journal Article | Marine Energy, Wind Energy | Human Dimensions, Legal & Policy, Social & Economic Data | ||
BOEM Center for Marine Acoustics | Bureau of Ocean Energy Management (BOEM) | Website | Marine Energy, Wind Energy, Fixed Offshore Wind | Noise | ||
Magnetic fields generated by submarine power cables have a negligible effect on the swimming behavior of Atlantic lumpfish (Cyclopterus lumpus) juveniles | Durif, C.; Nyqvist, D.; Taormina, B.; et al. | Journal Article | Marine Energy, Wind Energy | EMF | Fish, Pelagic Fish | |
A Review of Offshore Renewable Energy in South America: Current Status and Future Perspectives | Shadman, M.; Roldan-Carvajal, M.; Pierart, F.; et al. | Journal Article | Marine Energy, Ocean Current, OTEC, Salinity Gradient, Wave, Wind Energy, Fixed Offshore Wind | Human Dimensions, Legal & Policy, Marine Spatial Planning | ||
A decision framework for tidal current power plant site selection based on GIS-MCDM: A case study in China | Shao, M.; Zhao, Y.; Sun, J.; et al. | Journal Article | Marine Energy, Tidal | Human Dimensions | ||
2020 State of the Science Report - Chapter 10: Environmental Monitoring Technologies and Techniques for Detecting Interactions of Marine Animals with Turbines | Hasselman, D.; Barclay, D.; Cavagnaro, R.; et al. | Report | Marine Energy, Tidal, Wave | |||
2020 State of the Science Report - Chapter 9: Social and Economic Data Collection for Marine Renewable Energy | Freeman, M. | Report | Marine Energy, Tidal, Wave | Human Dimensions, Social & Economic Data | ||
2020 State of the Science Report - Chapter 8: Encounters of Marine Animals with Marine Renewable Energy Device Mooring Systems and Subsea Cables | Garavelli, L. | Report | Marine Energy, Tidal, Wave | Entanglement | Marine Mammals | |
2020 State of the Science Report - Chapter 7: Changes in Oceanographic Systems Associated with Marine Renewable Energy Devices | Whiting, J.; Chang, G. | Report | Marine Energy, Tidal, Wave | Changes in Flow | Physical Environment, Sediment Transport, Water Quality | |
2020 State of the Science Report - Chapter 6: Changes in Benthic and Pelagic Habitats Caused by Marine Renewable Energy Devices | Hemery, L. | Report | Marine Energy, Tidal, Wave | Habitat Change | ||
2020 State of the Science Report - Chapter 5: Risk to Animals from Electromagnetic Fields Emitted by Electric Cables and Marine Renewable Energy Devices | Gill, A.; Desender, M. | Report | Marine Energy, Tidal, Wave | EMF | Fish, Invertebrates | |
2020 State of the Science Report - Chapter 4: Risk to Marine Animals from Underwater Noise Generated by Marine Renewable Energy Devices | Polagye, B.; Bassett, C. | Report | Marine Energy, Tidal, Wave | Noise | Fish, Marine Mammals | |
2020 State of the Science Report - Chapter 3: Collision Risk for Animals around Turbines | Sparling, C.; Seitz, A.; Masden, E.; et al. | Report | Marine Energy, Tidal | Collision | Birds, Fish, Marine Mammals | |
2020 State of the Science Report - Chapter 2: Marine Renewable Energy: Environmental Effects and Monitoring Strategies | Copping, A. | Report | Marine Energy, Tidal, Wave | |||
2020 State of the Science Report - Chapter 1: Marine Renewable Energy and Ocean Energy Systems | Copping, A. | Report | Marine Energy, Tidal, Wave | |||
Governance and Management Systems in Mediterranean Marine and Coastal Biosphere Reserves | Alfare, L.; Ruoss, E.; Boumaour, A. | Book Chapter | Marine Energy | Human Dimensions, Marine Spatial Planning | ||
Participatory Processes as Twenty-First-Century Social Knowledge Technology | Heron, E.; Heron, R.; Logie, J.; et al. | Book Chapter | Marine Energy | Human Dimensions, Marine Spatial Planning, Stakeholder Engagement | ||
Potential sites for the use of ocean energy in the Mexican Caribbean | Chavez, V.; Bárcenas, J.; Martinez, L.; et al. | Journal Article | Marine Energy, OTEC, Tidal, Wave | Human Dimensions, Social & Economic Data | ||
Activity-footprints, pressures-footprints and effects-footprints-Walking the pathway to determining and managing human impacts in the sea | Elliott, M.; Borja, A.; Cormier, R. | Journal Article | Marine Energy, Wind Energy, Fixed Offshore Wind | Habitat Change | Human Dimensions | |
Summary of workshop: Passive acoustic monitoring in high flow environments | European Marine Energy Centre (EMEC) | Report | Marine Energy, Tidal | |||
Foraging seabirds respond to an intermittent meteorological event in a coastal environment | Waggitt, J.; Torres, R.; Fraser, S. | Journal Article | Wind Energy, Fixed Offshore Wind | Birds, Seabirds | ||
Taking the Animals' Perspective Regarding Anthropogenic Underwater Sound | Popper, A.; Hawkins, A.; Thomsen, F. | Journal Article | Marine Energy, Wind Energy | Noise | Fish, Invertebrates, Marine Mammals | |
Challenges and Recommendations for Environmental Compliance for Marine Renewable Energy: Avoiding Issues Early for Efficient Permitting and Practicable Mitigation | Courbis, S. | Conference Paper | Marine Energy, Wind Energy, Fixed Offshore Wind | Human Dimensions, Legal & Policy | ||
How ‘Blue’ Is ‘Green’ Energy? | Wright, A.; Araujo-Wang, C.; Wang, J.; et al. | Journal Article | Marine Energy, Wind Energy, Fixed Offshore Wind | |||
Assessing the effects of tidal stream marine renewable energy on seabirds: A conceptual framework | Isaksson, N.; Masden, E.; Williamson, B.; et al. | Journal Article | Marine Energy, Tidal | Collision, Displacement | Birds, Seabirds | |
Marine Renewable Energy Legal Framework in Malaysia: A Way Forward | Ghazali, F.; Mustafa, M. | Journal Article | Marine Energy | Human Dimensions, Legal & Policy | ||
Public perceptions of tidal energy: Can you predict social acceptability across coastal communities in England? | Hooper, T.; Hattam, C.; Edwards-Jones, A.; et al. | Journal Article | Marine Energy, Tidal | Human Dimensions, Social & Economic Data, Stakeholder Engagement | ||
A critical analysis on hybrid renewable energy modeling tools: An emerging opportunity to include social indicators to optimise systems in small communities | Cuesta, M.; Castillo-Calzadilla, T.; Borges, C. | Journal Article | Marine Energy, Wind Energy | Human Dimensions | ||
Enabling Indigenous innovations to re-centre social licence to operate in the Blue Economy | Lyons, P.; Mynott, S.; Melbourne-Thomas, J. | Journal Article | Marine Energy, Wind Energy | Human Dimensions, Stakeholder Engagement | ||
Marine renewable energy project: The environmental implication and sustainable technology | Cui, Y.; Zhao, H. | Journal Article | Marine Energy | Human Dimensions, Social & Economic Data | ||
Deep-sea impacts of climate interventions | Levin, L.; Alfaro-Lucas, J.; Colaco, A.; et al. | Journal Article | Marine Energy, OTEC | Changes in Flow | Physical Environment, Water Quality | |
The effect of artificial reef design on the attraction of herbivorous fish and on coral recruitment, survival, and growth | Hylkema, A.; Debrot, A.; Cammenga, R.; et al. | Journal Article | Attraction, Habitat Change | Ecosystem Processes, Fish | ||
Resolving Key Uncertainties of Seabird Flight and Avoidance Behaviours at Offshore Wind Farms: Final Report for the study period 2020-2021 | Tjørnløv, R.; Skov, H.; Armitage, M.; et al. | Report | Wind Energy, Fixed Offshore Wind | Avoidance | Birds, Seabirds | |
SafeWave Deliverable 5.3 Refinement of a Risk-based Adaptive Management Approach with industry, regulatory and societal stakeholders | Verling, E.; Menchaca, I.; Galparsoro, I.; et al. | Report | Marine Energy | Human Dimensions, Legal & Policy | ||
Fish assemblages of three common artificial reef designs during early colonization | Hylkema, A.; Debrot, A.; Osinga, R.; et al. | Journal Article | Habitat Change | Ecosystem Processes, Fish, Invertebrates | ||
Environmental Impact Assessment: Wave Swell Energy Test Site, Grassy Harbour, King Island, Tasmania | Marine Solutions | Report | Marine Energy, Wave | Changes in Flow, Habitat Change | Environmental Impact Assessment | |
Sound sensitivity of the giant scallop (Placopecten magelanicus) is life stage, intensity, and frequency dependent | Jézéquel, Y.; Cones, S.; Mooney, T. | Journal Article | Noise | Invertebrates | ||
Shifting tides: Anthropocene entanglements and unravellings in the Bay of Fundy | Fredriksen, A. | Book Chapter | Marine Energy, Tidal | Human Dimensions, Social & Economic Data | ||
Assessing the impacts of anthropogenic sounds on early stages of benthic invertebrates: The “Larvosonic system” | Olivier, F.; Gigot, M; Mathias, D.; et al. | Journal Article | Marine Energy, Wind Energy | Noise | Invertebrates | |
Site Selection of Combined Offshore Wind and Wave Energy Farms: A Systematic Review | Hosseinzadeh, S.; Etemad-Shahidi, A.; Stewart, R. | Journal Article | Marine Energy, Wave, Wind Energy | Habitat Change | Human Dimensions, Social & Economic Data | |
The Push for Tidal Power Faces Its Biggest Challenge Yet | Royte, E. | Magazine Article | Marine Energy, Tidal | |||
Short Science Summary: Risk Retirement and Data Transferability | OES-Environmental | Summary | Marine Energy | |||
Short Science Summary: Adaptive Management | OES-Environmental | Summary | Marine Energy | Human Dimensions | ||
Short Science Summary: Marine Spatial Planning | OES-Environmental | Summary | Marine Energy | Human Dimensions, Marine Spatial Planning |
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