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 Sort ascending | Content Type | Technology | Stressor | Receptor |
---|---|---|---|---|---|---|
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 | |
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 | |
Practical Approaches for Providing Empirical Data on Seabird Behavior and Prey Assemblages in Tidal Channels | Fraser, S.; Waggitt, J. | Journal Article | Marine Energy, Tidal | Collision, Habitat Change | Birds, Seabirds, Fish, Invertebrates | |
Tidal streams, fish, and seabirds: Understanding the linkages between mobile predators, prey, and hydrodynamics | Couto, A.; Williamson, B.; Cornulier, T.; et al. | Journal Article | Marine Energy, Tidal | Attraction, Changes in Flow, Habitat Change | Birds, Seabirds, Fish | |
Bayesian network modelling provides spatial and temporal understanding of ecosystem dynamics within shallow shelf seas | Trifonova, N.; Scott, B.; De Dominicis, M.; et al. | Journal Article | Marine Energy, Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Ecosystem Processes, Physical Environment, Fish, Marine Mammals, Human Dimensions | ||
Application of a multibeam echosounder to document changes in animal movement and behaviour around a tidal turbine structure | Williamson, B.; Blondel, P.; Williamson, L.; et al. | Journal Article | Marine Energy, Tidal | Attraction, Collision, Habitat Change | Birds, Seabirds, Fish, Marine Mammals | |
Investigating biophysical linkages at tidal energy candidate sites: a case study for combining environmental assessment and resource characterisation | Scherelis, C.; Penesis, I.; Hemer, M.; et al. | Journal Article | Marine Energy, Tidal | Attraction, Habitat Change | Physical Environment, Fish, Human Dimensions, Environmental Impact Assessment | |
Modelling the impact of tidal range energy on species communities | Baker, A.; Craighead, R.; Jarvis, E.; et al. | Journal Article | Marine Energy, Tidal | Changes in Flow, Habitat Change | Ecosystem Processes, Fish, Invertebrates | |
Dataset for concurrent echosounder and ADCP measurements at a tidal energy candidate site in Australia | Scherelis, C.; Penesis, I.; Hemer, M.; et al. | Journal Article | Marine Energy, Tidal | Attraction, Avoidance, Habitat Change | Fish | |
Vertical migrations of fish schools determine overlap with a mobile tidal stream marine renewable energy device | Whitton, T.; Jackson, S.; Hiddink, J.; et al. | Journal Article | Marine Energy, Tidal | Fish, Pelagic Fish | ||
Predictable changes in fish school characteristics due to a tidal turbine support structure | Williamson, B.; Fraser, S.; Williamson, L.; et al. | Journal Article | Marine Energy, Tidal | Attraction | Fish | |
Interaction of Marine Renewable Energy and Marine Organisms: Active Acoustic Assessment | Williamson, B.; Fraser, S.; Nikora, V.; et al. | Conference Paper | Marine Energy, Tidal | Attraction, Avoidance, Collision, Displacement | Fish | |
Relating fish distributions to physical characteristics of a tidal energy candidate site in the Banks Strait, Australia | Scherelis, C.; Penesis, I.; Marsh, P.; et al. | Conference Paper | Marine Energy, Tidal | Fish | ||
Improving visual biodiversity assessments of motile fauna in turbid aquatic environments | Jones, R.; Griffin, R.; Rees, S.; et al. | Journal Article | Marine Energy, Tidal, Wave, Wind Energy, Fixed Offshore Wind | Fish, Demersal Fish, Invertebrates, Marine Mammals | ||
Over or under? Autonomous sensor fish reveals why overshot weirs may be safer than undershot weirs for fish passage | Pflugrath, B.; Boys, C.; Cathers, B.; et al. | Journal Article | Riverine, Marine Energy | Collision | Fish | |
Fish Distributions in a Tidal Channel Indicate the Behavioural Impact of a Marine Renewable Energy Installation | Fraser, S.; Williamson, B.; Nikora, V.; et al. | Journal Article | Marine Energy, Tidal | Attraction | Fish | |
Comparison of damage to live v. euthanized Atlantic salmon Salmo salar smolts from passage through an Archimedean screw turbine | Brackley, R.; Lucas, M.; Thomas, R.; et al. | Journal Article | Riverine, Marine Energy | Collision | Pelagic Fish, Fish | |
Multisensor Acoustic Tracking of Fish and Seabird Behavior Around Tidal Turbine Structures in Scotland | Williamson, B.; Fraser, S.; Blondel, P.; et al. | Journal Article | Tidal, Marine Energy | Seabirds, Fish, Birds | ||
Ecological and morphological traits predict depth-generalist fishes on coral reefs | Bridge, T.; Luiz, O.; Coleman, R.; et al. | Journal Article | Marine Energy, Wave | Fish | ||
A Self-Contained Subsea Platform for Acoustic Monitoring of the Environment Around Marine Renewable Energy Devices - Field Deployments at Wave and Tidal Energy Sites in Orkney, Scotland | Williamson, B.; Blondel, P.; Armstrong, E.; et al. | Journal Article | Wave, Tidal, Marine Energy | Collision | Marine Mammals, Fish, Birds | |
Temporal Variation in Environmental Conditions and the Structure of Fish Assemblages around an Offshore Oil Platform in the North Sea | Fujii, T. | Journal Article | Wind Energy, Fixed Offshore Wind, Marine Energy | Habitat Change | Pelagic Fish, Fish, Demersal Fish | |
Depth use and migratory behaviour of homing Atlantic salmon (Salmo salar) in Scottish coastal waters | Godfrey, J.; Stewart, D.; Middlemas, S.; et al. | Journal Article | Marine Energy, Wind Energy | Fish | ||
Out in the Wash: Spatial Ecology of a Temperate Marine Shallow Rocky-Reef Species Derived using Acoustic Telemetry | Stocks, J.; Gray, C.; Taylor, M. | Journal Article | Marine Energy | Fish | ||
In-Situ Ecological Interactions with a Deployed Tidal Energy Device; An Observational Pilot Study | Broadhurst, M.; Barr, S.; Orme, D. | Journal Article | Marine Energy, Tidal | Fish, Demersal Fish, Pelagic Fish | ||
An International Assessment of the Environmental Effects of Marine Energy Development | Copping, A.; Battey, H.; Brown-Saracino, J.; et al. | Journal Article | Marine Energy | Attraction, Avoidance, Changes in Flow, Collision, Displacement, Noise | Fish, Marine Mammals | |
Environmental Impact Assessments for Wave Energy Developments - Learning from Existing Activities and Informing Future Research Priorities | Leeney, R.; Greaves, D.; Conley, D.; et al. | Journal Article | Marine Energy, Wave | Fish, Human Dimensions, Environmental Impact Assessment | ||
Review of migratory routes and behaviour of Atlantic salmon, sea trout and European eel in Scotland’s coastal environment: implications for the development of marine renewables | Malcolm, I.A.; Godfrey, J.; Youngson, A.F. | Journal Article | Marine Energy | Fish | ||
Long-Term Multibeam Measurements Around a Tidal Turbine Test Site in Orkney, Scotland | Blondel, P.; Williamson, B. | Conference Paper | Marine Energy, Tidal | Birds, Fish, Marine Mammals | ||
Assessing Wave Energy Effects on Biodiversity: The Wave Hub Experience | Witt, M.; Sheehan, E.; Broderick, A.; et al. | Journal Article | Marine Energy, Wave | Birds, Fish, Invertebrates, Marine Mammals | ||
Short Term Temporal Behavioural Responses in Pollack, Pollachius pollachius to Marine Tidal Turbine Devices; a Combined Video and ADCP Doppler Approach | Broadhurst, M.; Barr, S. | Conference Paper | Marine Energy, Tidal | Fish, Demersal Fish | ||
The emergence of a new marine renewable energy industry – what are the implications for fisheries? | Bell, M.; Side, J.; Kerr, S.; et al. | Conference Paper | Marine Energy, Tidal, Wave | Changes in Flow, Collision, EMF, Habitat Change, Noise | Fish, Human Dimensions, Environmental Impact Assessment, Fisheries | |
Simulation-Based Investigations of Fishery Changes as Affected by the Scale and Design of Artificial Habitats | Sayer, M.; Magill, S.; Pitcher, T.; et al. | Journal Article | Marine Energy | Habitat Change | Fish, Human Dimensions, Fisheries | |
The Potential for Cooperative Management of Elasmobranchs and Offshore Renewable Energy Development in UK Waters | Gill, A.; Kimber, J. | Journal Article | Wind Energy, Fixed Offshore Wind, Marine Energy | Fish | ||
Temporal Variability of Pelagic Fish Assemblages around Fish Aggregation Devices: Biological and Physical Influences | Dempster, T. | Journal Article | Marine Energy | Habitat Change | Fish, Pelagic Fish | |
The Distribution of Chondrichthyan Fishes Around the British Isles and Implications for Conservation | Ellis, J.R.; Cruz-Martinez, A.; Rackham, B.D.; et al. | Journal Article | Marine Energy | Fish | ||
Homing of Pelagic Fish to Fish Aggregation Devices (FADs): The Role of Sensory Cues | Dempster, T.; Kingsford, M. | Journal Article | Marine Energy | Habitat Change | Fish, Pelagic Fish | |
Changes in a fish assemblage after a coral bleaching event | Booth, D.; Beretta, G. | Journal Article | Marine Energy | Fish, Pelagic Fish |
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