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.
As an alternative to the Knowledge Base, check out the Map Viewer to access geotagged content in a spatial view.
Title | Author | Date | Content Type | Technology | Stressor | Receptor |
---|---|---|---|---|---|---|
Supergen Offshore Renewable Energy (ORE) Hub | Greaves, D. | Research Study | Marine Energy, Ocean Current, Tidal, Wave | Attraction, Avoidance, Collision, Noise | Birds, Ecosystem Processes, Invertebrates, Marine Mammals, Physical Environment, Human Dimensions, Social & Economic Data | |
Marine Renewable Energy: An Introduction to Environmental Effects | OES-Environmental | Summary | Marine Energy, Tidal, Wave | Changes in Flow, Collision, Displacement, EMF, Entanglement, Habitat Change, Noise | Birds, Ecosystem Processes, Fish, Invertebrates, Marine Mammals, Physical Environment, Human Dimensions | |
Does exposure to noise from human activities compromise sensory information from cephalopod statocysts? | Solé, M.; Lenoir, M.; Durfort, M.; et al. | Journal Article | Marine Energy, Wind Energy | Noise | Invertebrates | |
A critical period of susceptibility to sound in the sensory cells of cephalopod hatchlings. | Solé, M.; Lenoir, M.; Fortuno, J-M.; et al. | Journal Article | Marine Energy, Wind Energy | Noise | Invertebrates | |
Evidence of Cnidarians sensitivity to sound after exposure to low frequency noise underwater sources | Solé, M.; Lenoir, M.; Fortuno, J-M.; et al. | Journal Article | Marine Energy, Wind Energy | Noise | Invertebrates | |
Offshore exposure experiments on cuttlefish indicate received sound pressure and particle motion levels associated with acoustic trauma | Solé, M.; Sigray, P.; Lenoir, M.; et al. | Journal Article | Marine Energy, Wind Energy | Noise | Invertebrates | |
Ultrastructural Damage of Loligo vulgaris and Illex coindetii statocysts after Low Frequency Sound Exposure | Solé, M.; Lenoir, M.; Dufort, M.; et al. | Journal Article | Marine Energy, Wind Energy | Noise | Invertebrates | |
Sea Lice Are Sensitive to Low Frequency Sounds | Solé, M.; Lenoir, M.; Fortuno, J-M.; et al. | Journal Article | Marine Energy, Wind Energy | Noise | Invertebrates, Human Dimensions, Fisheries | |
A proteomic analysis of the statocyst endolymph in common cuttlefish (Sepia officinalis): an assessment of acoustic trauma after exposure to sound | Solé, M.; Monge, M.; André, M.; et al. | Journal Article | Marine Energy, Wind Energy | Noise | Invertebrates | |
Commercial cuttlefish exposed to noise from offshore windmill construction show short-range acoustic trauma | Solé, M.; De Vreese, S.; Fortuno, J-M.; et al. | Journal Article | Marine Energy, Wind Energy | Noise | Invertebrates | |
Modeling the Probability of Overlap Between Marine Fish Distributions and Marine Renewable Energy Infrastructure Using Acoustic Telemetry Data | Bangley, C.; Hasselman, D.; Flemming, J.; et al. | Journal Article | Marine Energy, Tidal | Fish, Pelagic Fish, Human Dimensions, Marine Spatial Planning | ||
ORJIP Ocean Energy Information Note: Electromagnetic Field Emissions | Offshore Renewables Joint Industry Programme (ORJIP) | Report | Marine Energy | EMF | Fish, Invertebrates, Marine Mammals, Reptiles, Sea Turtles | |
Conceptualisation of multiple impacts interacting in the marine environment using marine infrastructure as an example | Komyakova, V.; Jaffrés, J.; Strain, E.; et al. | Journal Article | Marine Energy, Wind Energy | Attraction | Invertebrates | |
Electrical power generation from ocean currents in the Straits of Florida: Some environmental considerations | Finkl, C.; Charlier, R. | Journal Article | Marine Energy, Ocean Current | EMF, Habitat Change | Fish, Invertebrates, Marine Mammals, Cetaceans, Physical Environment | |
Environmental impacts of utilization of ageing fixed offshore platform for ocean thermal energy conversion | Zulkifli, M.; Husain, M.; Zaki, N.; et al. | Conference Paper | Marine Energy, OTEC | Attraction, Changes in Flow | Fish, Human Dimensions, Environmental Impact Assessment, Fisheries, Marine Spatial Planning | |
State of the Washington Coast: Ecology, Management, and Research Priorities | Skewgar, E.; Dethier, M.; Pearson, S.; et al. | Report | Marine Energy | Chemicals | Birds, Ecosystem Processes, Fish, Invertebrates, Marine Mammals, Physical Environment, Water Quality, Reptiles, Human Dimensions | |
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 | |
Spatial Modeling to Support Sustainable Offshore Wind Energy Development for California | Degagne, R.; Gough, M.; Joseph, G.; et al. | Report | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Human Dimensions, Marine Spatial Planning | ||
Robust ocean zoning for conservation, fishery and marine renewable energy with co-location strategy | Jia, R.; Gao, J.; Gao, F. | Journal Article | Marine Energy | Human Dimensions, Fisheries, Marine Spatial Planning | ||
Operation of a tidal turbine from a moored vessel in Agate Pass, WA | Bassett, C. | Presentation | Marine Energy, Tidal | Collision, Noise | Fish, Invertebrates, Human Dimensions | |
Eukaryotic diversity of marine biofouling from coastal to offshore areas | Portas, A.; Quillienn, N.; Culioli, J.; et al. | Journal Article | Marine Energy | Chemicals | Invertebrates | |
Multi-use platforms at sea: A sustainable solution for aquaculture and biodiversity | Demmer, J.; Lewis, M.; Neill, S. | Book Chapter | Marine Energy, Tidal, Wave | Invertebrates, Human Dimensions, Fisheries | ||
Development of a model for the identification of suitable areas for the development of wave energy projects in the European Atlantic region in the context of maritime spatial planning and its implementation into a Decision Support Tool | Galparsoro, I.; Mandiola, G.; Gariner, R.; et al. | Report | Marine Energy, Wave | Human Dimensions, Marine Spatial Planning | ||
Conceptualization of NEXUS elements in the marine environment (Marine NEXUS) | Papadopoulou, M.; Vlachou, A. | Journal Article | Marine Energy | Chemicals, Habitat Change | Fish, Human Dimensions, Fisheries, Marine Spatial Planning, Recreation & Tourism | |
A comprehensive overview of environmental footprints of water desalination and alleviation strategies | Shokri, A.; Fard, M. | Journal Article | Marine Energy | Chemicals, Entanglement | Fish, Invertebrates, Human Dimensions | |
Mapping potential environmental impacts of offshore renewable energy | Galparsoro, I.; Menchaca, I.; Seeger, I.; et al. | Report | Marine Energy, Tidal, Wave, Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Ecosystem Processes, Human Dimensions, Marine Spatial Planning | ||
Clean Energy from the Ocean: Measuring the Environmental Footprint of Devices | Rose, D.; Gunn, C.; Hemery, L. | Magazine Article | Marine Energy | Changes in Flow, Collision, EMF, Entanglement, Habitat Change, Noise | Birds, Fish, Invertebrates, Marine Mammals, Physical Environment, Human Dimensions | |
Seabed morphology and bed shear stress predict temperate reef habitats in a high energy marine region | Jackson-Bué, T.; Williams, G.; Whitton, T.; et al. | Journal Article | Marine Energy, Tidal | Invertebrates, Physical Environment | ||
Influence of coating type, colour, and deployment timing on biofouling by native and non-native species in a marine renewable energy context | Nall, C.; Schläppy, M.; Cottier-Cook, E.; et al. | Journal Article | Marine Energy | Attraction | Invertebrates | |
Determining dominant scatterers of sound in mixed zooplankton populations | Lavery, A.; Wiebe, P.; Stanton, T.; et al. | Journal Article | Invertebrates | |||
Measurements of acoustic scattering from zooplankton and oceanic microstructure using a broadband echosounder | Lavery, A.; Chu, D.; Moum, J. | Journal Article | Invertebrates | |||
Wideband (15–260 kHz) acoustic volume backscattering spectra of Northern krill (Meganyctiphanes norvegica) and butterfish (Peprilus triacanthus) | Jech, J.; Lawson, G.; Lavery, A. | Journal Article | Fish, Invertebrates | |||
Acoustic approaches to remote species identification: a review | Horne, J. | Journal Article | Fish, Invertebrates, Human Dimensions, Fisheries | |||
Application of pulse compression techniques to broadband acoustic scattering by live individual zooplankton | Chu, D.; Stanton, T. | Journal Article | Invertebrates | |||
Interdisciplinary science to support North Sea marine management: lessons learned and future demands | Degraer, S.; Van Lancker, V.; Van Dijk, T.; et al. | Journal Article | Marine Energy, Wind Energy, Fixed Offshore Wind | Human Dimensions, Marine Spatial Planning | ||
Effective integration and integrative capacity in marine spatial planning | Vince, J.; Day, J. | Journal Article | Marine Energy | Human Dimensions, Marine Spatial Planning | ||
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 | |
Pilot Study of Integration of Wildlife Impact Analysis into Spatial Environmental Assessment Tool for Marine Hydrokinetic Energy | Coates, S.; Lockhart, G.; Courbis, S.; et al. | Conference Paper | Marine Energy, Wave | Human Dimensions, Marine Spatial Planning | ||
Underwater Anthropogenic Sound: Understanding the potential impacts on the marine environment and the influence on crab larval behaviour | Pine, M. | Thesis | Marine Energy, Tidal | Noise | Invertebrates | |
Relational development site appraisal model for the deployment of marine energy convertors in Scotland | Wemyss, M. | Thesis | Marine Energy, Tidal, Wave | Human Dimensions, Marine Spatial Planning | ||
A supporting marine information system for maritime spatial planning: The European Atlas of the Seas | Barale, V. | Journal Article | Marine Energy | Human Dimensions, Marine Spatial Planning | ||
Strategic Environmental Assessment (SEA) of Offshore Wind and Marine Renewable Energy in Northern Ireland | Department of Enterprise, Trade and Investment | Report | Marine Energy, Tidal, Wave, Fixed Offshore Wind | Attraction, Avoidance, Changes in Flow, Chemicals, Collision, Displacement, EMF, Habitat Change, Noise | Bats, Birds, Passerines, Seabirds, Waterfowl, Fish, Demersal Fish, Pelagic Fish, Invertebrates, Marine Mammals, Cetaceans, Physical Environment, Sediment Transport, Water Quality, Reptiles, Human Dimensions, Climate Change, Environmental Impact Assessment, Fisheries, Legal & Policy, Recreation & Tourism, Social & Economic Data, Stakeholder Engagement, Visual Impacts | |
Final License Application for the PacWave South Project | Oregon State University | Report | Marine Energy, Wave | Entanglement, Habitat Change, Noise | Birds, Invertebrates, Marine Mammals, Cetaceans, Physical Environment, Human Dimensions, Environmental Impact Assessment, Legal & Policy, Navigation | |
Assessment of the Values of Victoria’s Marine Environment | Victorian Environmental Assessment Council | Report | Marine Energy, Wind Energy, Fixed Offshore Wind | Human Dimensions, Marine Spatial Planning | ||
Marine Spatial Planning in the Context of the Convention on Biological Diversity | Secretariat of the Convention on Biological Diversity | Report | Marine Energy, Wind Energy, Fixed Offshore Wind | Human Dimensions, Marine Spatial Planning | ||
A Guide to Evaluating Marine Spatial Plans | Ehler, C. | Report | Marine Energy, Wind Energy, Fixed Offshore Wind | Human Dimensions, Marine Spatial Planning | ||
Marine and Coastal Tourism and Recreation in the Pentland Firth and Orkney Waters: A Case Study | Aquatera | Report | Marine Energy, Wind Energy, Fixed Offshore Wind | Human Dimensions, Marine Spatial Planning, Recreation & Tourism | ||
Assessing potential spatial and temporal conflicts in Washington's marine waters | Freeman, M.; Whiting, L.; Kelley, R. | Journal Article | Marine Energy, Wind Energy, Fixed Offshore Wind | Human Dimensions, Marine Spatial Planning | ||
Conclusions: Benefits, lessons learned, and future challenges of marine spatial planning | Ehler, C. | Journal Article | Human Dimensions, Marine Spatial Planning | |||
Marine spatial planning for resource conservation, fisheries management and for ensuring fishermen security-global perspectives and Indian initiatives | Dineshbabu, A.; Thomas, S.; Rohit, P.; et al. | Journal Article | Human Dimensions, Marine Spatial Planning |
Displaying 1 - 50 of 635