The Knowledge Base provides access to documents and information about the environmental effects of wind energy, supporting the WREN 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 Sort descending |
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Guidelines for Consideration of Bats in Environmental Impact Assessment of Wind Farms in Brazil: A Collaborative Governance Experience from Rio Grande Do Sul State | Bernard, E.; Pereira, M.; Barros, M.; et al. | Journal Article | Wind Energy, Land-Based Wind | Bats, Human Dimensions | ||
Assessing the effect of wind farms in fauna with a mathematical model | Roman, P.; Salinas, C.; Araujo, B. | Journal Article | Wind Energy, Land-Based Wind | Habitat Change | Bats, Birds, Ecosystem Processes, Human Dimensions, Environmental Impact Assessment | |
Environmental assessment of proposed areas for offshore wind farms off southern Brazil based on ecological niche modeling and a species richness index for albatrosses and petrels | Lemos, C.; Hernandez, M.; Vilardo, C.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Displacement, Habitat Change | Birds, Human Dimensions, Marine Spatial Planning | |
Environmental Impact Assessment and Life Cycle Assessment for a Deep Water Floating Offshore Wind Turbine on the Brazilian Continental Shelf | de Paula, L.; Carmo, B. | Journal Article | Wind Energy, Floating Offshore Wind | Collision, EMF, Habitat Change, Noise | Birds, Seabirds, Fish, Invertebrates, Marine Mammals, Human Dimensions, Environmental Impact Assessment, Life Cycle Assessment | |
Application of Monte Carlo and Fuzzy Analytic Hierarchy Processes for ranking floating wind farm locations | Díaz, H.; Teixeira, A.; Soares, C. | Journal Article | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Changes in Flow, Habitat Change | Birds, Marine Mammals, Human Dimensions, Fisheries, Recreation & Tourism | |
Changes in bird species composition after a wind farm installation: A case study in South America | Justo Falavigna, T.; Pereira, D.; Lara Rippel, M.; et al. | Journal Article | Wind Energy, Land-Based Wind | Birds, Human Dimensions | ||
Land-use impacts of Brazilian wind power expansion | Turkovska, O.; Castro, G.; Klingler, M.; et al. | Journal Article | Wind Energy, Land-Based Wind | Physical Environment, Human Dimensions | ||
PivotBuoy An Advanced System for Cost-effective and Reliable Mooring, Connection, Installation & Operation of Floating Wind D6.2: Update of Reliability, Health & Safety and Environmental Assessment of the PivotBuoy system | Intecsea | Report | Wind Energy, Floating Offshore Wind | Chemicals | Physical Environment, Water Quality, Human Dimensions | |
Environmental Compatibility of the Parc Tramuntana Offshore Wind Project in Relation to Marine Ecosystems | Diez-Caballero, K.; Troiteiro, S.; Garcia-Alba, J.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Changes in Flow, EMF, Habitat Change, Noise | Fish, Invertebrates, Physical Environment, Sediment Transport, Water Quality, Human Dimensions, Fisheries | |
Perception of Environmental Impacts of Wind Farms in Agricultural Areas of Northeast Brazil | Sobrinho Junior, M.; Hernandez, M.; Amora, S.; et al. | Journal Article | Wind Energy, Land-Based Wind | Habitat Change | Human Dimensions, Climate Change, Environmental Impact Assessment | |
Participatory Methodologies and the Production of Data on Artisanal Fishing in Areas with Offshore Wind Farm Projects in Ceará, Brazil | de Figueiredo Xavier, T.; Gorayeb, A.; Brannstrom, C. | Journal Article | Wind Energy, Fixed Offshore Wind, Floating Offshore Wind | Human Dimensions, Fisheries | ||
Wind-energy Development Causes Social Impacts in Coastal Ceará state, Brazil: The Case of the Xavier Community | Gorayeb, A.; Mendes, J.; Meireles, A.; et al. | Journal Article | Wind Energy, Land-Based Wind | Human Dimensions, Social & Economic Data | ||
Analysing citizens’ perceptions of renewable energies in rural areas: A case study on wind farms in Spain | Duarte, R.; García-Riazuelo, A.; Saez, L.; et al. | Journal Article | Wind Energy, Land-Based Wind | Human Dimensions, Social & Economic Data | ||
A Multi-Criteria Approach to Evaluate Floating Offshore Wind Farms Siting in the Canary Islands (Spain) | Díaz, H.; Soares, C. | Journal Article | Wind Energy, Floating Offshore Wind | Habitat Change | Human Dimensions, Marine Spatial Planning | |
Developing and Applying a GIS-Assisted Approach to Evaluate Visual Impact in Wind Farms | Molina-Ruiz, J.; Martínez-Sánchez, M.; Pérez-Sirvent, C.; et al. | Journal Article | Wind Energy, Land-Based Wind | Human Dimensions, Visual Impacts | ||
Life Cycle Assessment of a multi-use offshore platform: Combining wind and wave energy production | Elginoz, N.; Bas, B. | Journal Article | Marine Energy, Wave, Wind Energy, Floating Offshore Wind | Human Dimensions, Life Cycle Assessment | ||
Procedural and distributive justice inform subjectivity regarding wind power: A case from Rio Grande do Norte, Brazil | Frate, C.; Brannstrom, C.; de Morais, M.; et al. | Journal Article | Wind Energy, Land-Based Wind | Human Dimensions, Environmental Justice, Social & Economic Data | ||
Wind turbines in Brazil and Germany: an example of geographical variability in life-cycle assessment | Lenzen, M.; Wachsmann, U. | Journal Article | Wind Energy, Land-Based Wind | Human Dimensions, Life Cycle Assessment | ||
Overcoming barriers to onshore wind farm implementation in Brazil | Farkat Diógenes, J.; Rodrigues, J.; Farkat Diógenes, M.; et al. | Journal Article | Wind Energy, Land-Based Wind | Human Dimensions, Legal & Policy, Social & Economic Data, Stakeholder Engagement | ||
Lost (and found) in Transition: Expert stakeholder insights on low-carbon energy transitions in Spain | Sorman, A.; Garcia-Muros, X.; Pizarro-Irizar, C.; et al. | Journal Article | Marine Energy, Tidal, Wave, Wind Energy, Land-Based Wind, Fixed Offshore Wind | Human Dimensions, Climate Change, Legal & Policy, Stakeholder Engagement | ||
Impacts of climate change on wind energy power – Four wind farms in Spain | Solaun, K.; Emilio, C. | Journal Article | Wind Energy, Land-Based Wind | Human Dimensions, Climate Change | ||
Socio-economic impact of a 200 MW floating wind farm in Gran Canaria | Schallenberg-Rodriguez, J.; Inchausti-Sintes, F. | Journal Article | Wind Energy, Floating Offshore Wind | Human Dimensions, Social & Economic Data | ||
Wind farm repowering guided by visual impact criteria | Manchado, C.; Gomez-Jauregui, V.; Lizcano, P.; et al. | Journal Article | Wind Energy, Land-Based Wind | Visual Impacts, Human Dimensions | ||
Wind power gone bad: Critiquing wind power planning processes in northeastern Brazil | Gorayeb, A.; Brannstrom, C.; Meireles, A.; et al. | Journal Article | Wind Energy, Land-Based Wind | Legal & Policy, Human Dimensions | ||
Environmental Reporting in the Spanish Wind Energy Sector: An Institutional View | Mosene, J.; Burritt, R.; Sanagustin, M.; et al. | Journal Article | Wind Energy, Land-Based Wind | Legal & Policy, Human Dimensions | ||
Life cycle assessment of an onshore wind farm located at the northeastern coast of Brazil | Oebels, K.; Pacca, S. | Journal Article | Wind Energy, Land-Based Wind | Life Cycle Assessment, Human Dimensions | ||
Life Cycle Assessment of a Multi-Megawatt Wind Turbine | Martínez, E.; Sanz, F.; Pellegrin, S.; et al. | Journal Article | Wind Energy, Land-Based Wind | Life Cycle Assessment, Human Dimensions |
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