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 Sort ascending | Technology | Stressor | Receptor |
---|---|---|---|---|---|---|
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 | ||
Short Science Summary: Environmental Monitoring | OES-Environmental | Summary | Marine Energy | Human Dimensions | ||
Short Science Summary: Social and Economic Data | OES-Environmental | Summary | Marine Energy | Human Dimensions, Social & Economic Data | ||
Short Science Summary: Entanglement Risk | OES-Environmental | Summary | Marine Energy | Entanglement | ||
Short Science Summary: Changes in Oceanographic Systems | OES-Environmental | Summary | Marine Energy | Changes in Flow | Physical Environment | |
Short Science Summary: Changes in Benthic and Pelagic Habitats | OES-Environmental | Summary | Marine Energy | Habitat Change | ||
Short Science Summary: Electromagnetic Fields | OES-Environmental | Summary | Marine Energy | EMF | ||
Short Science Summary: Underwater Noise | OES-Environmental | Summary | Marine Energy | Noise | ||
Short Science Summary: Collision Risk | OES-Environmental | Summary | Marine Energy, Tidal | Collision | ||
Short Science Summary: Benefits and Effects | OES-Environmental | Summary | Marine Energy | |||
Habitat Change Evidence Base | OES-Environmental | Summary | Marine Energy | Habitat Change | ||
PacWave North Test Site | Oregon State University | Project Site | Marine Energy, Wave | |||
Swansea Bay Tidal Lagoon (SBTL) | Tidal Lagoon Power; Andritz Hydro | Project Site | Marine Energy, Tidal | |||
Eco Wave Power Wave Energy Power Station Jaffa | Eco Wave Power Ltd. | Project Site | Marine Energy, Wave | |||
MW-Level Wave Energy Demonstration Project | Chinese Academy of Sciences; Guangzhou Institute of Energy Conversion (GIEC) | Project Site | Marine Energy, Wave | |||
Tidal Thames Test Site | The Port of London Authority | Project Site | Marine Energy, Riverine | |||
BOEM Center for Marine Acoustics | Bureau of Ocean Energy Management (BOEM) | Website | Marine Energy, Wind Energy, Fixed Offshore Wind | Noise | ||
Technologies for Ocean Acoustic Monitoring | National Oceanic and Atmospheric Administration (NOAA) | Website | ||||
What is sound? | Discovery of Sound in the Sea | Website | ||||
Surface Currents at San Juan Islands | Pacific Northwest National Laboratory (PNNL) | Video | Marine Energy, Tidal | |||
Surface Currents at Tacoma Narrows | Pacific Northwest National Laboratory (PNNL) | Video | Marine Energy, Tidal | |||
Surface Currents at Admiralty Inlet | Pacific Northwest National Laboratory (PNNL) | Video | Marine Energy, Tidal | |||
The Colonization of a Multi-functional Artificial Reef Designed for the American Lobster, Homarus Americanus | Roy, C. | Thesis | Habitat Change | Fish, Invertebrates | ||
A stakeholder-grounded evaluation of the seven functions model of technological innovation systems theory in UK offshore wind and marine renewables | Aldersey-Williams, J. | Thesis | Marine Energy, Wind Energy, Fixed Offshore Wind | Human Dimensions, Social & Economic Data | ||
The 1982 Law of the Sea Convention and the regulation of offshore renewable energy activities within national jurisdiction | Jung, D. | Thesis | Marine Energy, Wind Energy, Fixed Offshore Wind | Human Dimensions, Legal & Policy | ||
International Law and Offshore Energy Production: Marine Environmental Protection through Normative Interactions | Giannopoulos, N. | Thesis | Marine Energy, Wind Energy, Fixed Offshore Wind | Human Dimensions, Legal & Policy | ||
Public perceptions of tidal energy between Australia and Canada | Barber, D. | Thesis | Marine Energy, Tidal | Human Dimensions, Social & Economic Data | ||
Ecosystem services and the blue economy: navigating power and values | Schutter, M. | Thesis | Human Dimensions, Legal & Policy, Social & Economic Data | |||
Human impact on highly mobile cetaceans: the use of biotelemetry data to inform ocean management | Evert, M. | Thesis | Marine Mammals, Cetaceans, Human Dimensions, Legal & Policy, Marine Spatial Planning | |||
Stakeholders' requirements regarding wave energy technology | Kujanpää, J. | Thesis | Marine Energy, Wave | Human Dimensions, Stakeholder Engagement | ||
Comparing two tourism-dependent, coastal communities and their opinions of local marine renewable energy projects | DeSanti, B. | Thesis | Marine Energy | Human Dimensions, Recreation & Tourism, Social & Economic Data | ||
Potential impacts of submarine power cables from marine renewable energy projects on benthic communities | Taormina, B. | Thesis | Marine Energy, Tidal, Wave, Wind Energy, Fixed Offshore Wind | EMF, Habitat Change | Ecosystem Processes, Physical Environment, Invertebrates, Marine Mammals | |
Decision analytical models for the sustainable development of marine renewable energy | Akbari, N. | Thesis | Marine Energy, Tidal, Wave, Wind Energy | Human Dimensions | ||
MRE Regulator Survey Report: Canada | Rose, D.; Freeman, M. | Report | Marine Energy, Tidal, Wave | |||
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 | |||
Summary of workshop: Passive acoustic monitoring in high flow environments | European Marine Energy Centre (EMEC) | Report | Marine Energy, Tidal | |||
OES-Environmental 2020 State of the Science Report: Environmental Effects of Marine Renewable Energy Development Around the World | Copping, A.; Hemery, L. | Report | Marine Energy, Tidal, Wave | Attraction, Avoidance, Changes in Flow, Collision, Displacement, EMF, Entanglement, Habitat Change, Noise | Birds, Seabirds, Shorebirds, Waterfowl, Ecosystem Processes, Fish, Demersal Fish, Pelagic Fish, Invertebrates, Marine Mammals, Cetaceans, Pinnipeds, Physical Environment, Sediment Transport, Reptiles, Legal & Policy, Marine Spatial Planning, Social & Economic Data | |
2020 State of the Science Report - Chapter 14: Summary and Path Forward | Copping, A. | Report | Marine Energy, Tidal, Wave | |||
2020 State of the Science Report - Chapter 13: Risk Retirement and Data Transferability for Marine Renewable Energy | Copping, A.; Freeman, M.; Gorton, A.; et al. | Report | Marine Energy, Tidal, Wave | EMF, Noise | Human Dimensions |
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