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 Sort ascending | Content Type | Technology | Stressor | Receptor |
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A modelling framework to predict bat activity patterns on wind farms: An outline of possible applications on mountain ridges of North Portugal | Silva, C.; Cabral, J.; Hughes, S.; et al. | Journal Article | Wind Energy | Bats | ||
The Effects of Sex, Energy, and Environmental Conditions on the Movement Ecology of Migratory Bats | Jonassan, K. | Thesis | Wind Energy, Land-Based Wind | Bats | ||
Current and Wave Effects around Windfarm Monopile Foundations | Miles, J.; Martin, T.; Goddard, L. | Journal Article | Wind Energy, Fixed Offshore Wind | Changes in Flow | Physical Environment | |
A New Model for Environmental and Economic Evaluation of Renewable Energy Systems: The Case of Wind Turbines | Savino, M.; Manzini, R.; Selva, V.; et al. | Journal Article | Wind Energy | Physical Environment, Life Cycle Assessment, Human Dimensions | ||
A Spatial Explicit Agent Based Model Approach to Evaluate the Performance of Different Monitoring Options for Mortality Estimates in the Scope of Onshore Windfarm Impact Assessments | Santos, M.; Bastos, R.; Ferreira, D.; et al. | Journal Article | Wind Energy, Land-Based Wind | Collision | Birds, Bats | |
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 | ||
From Social 'Acceptance' to Social 'Acceptability' of Wind Energy Projects: Towards a Territorial Perspective | Fournis, Y.; Fotrin, M. | Journal Article | Wind Energy | Human Dimensions, Stakeholder Engagement | ||
Stakeholder empowerment through participatory planning practices: The case of electricity transmission lines in France and Norway | Späth, L.; Scolobig, A. | Journal Article | Wind Energy, Land-Based Wind | Stakeholder Engagement, Human Dimensions | ||
Procedural justice and the implementation of community wind energy projects: A case study from South Yorkshire, UK | Simcock, N. | Journal Article | Wind Energy, Land-Based Wind | Human Dimensions, Environmental Justice, Social & Economic Data, Stakeholder Engagement | ||
Sonar for environmental monitoring of marine renewable energy technologies | Francisco, F. | Thesis | Marine Energy, Tidal, Wave, Wind Energy, Fixed Offshore Wind | Noise | Fish, Physical Environment, Human Dimensions | |
Bat activity during autumn relates to atmospheric conditions: implications for coastal wind energy development | Smith, A.; McWilliams, S. | Journal Article | Wind Energy, Land-Based Wind, Fixed Offshore Wind | Habitat Change | Bats | |
Effects of wind energy generation and white-nose syndrome on the viability of the Indiana bat | Erickson, R.; Thogmartin, W.; Diffendorfer, J.; et al. | Journal Article | Wind Energy, Land-Based Wind | Habitat Change | Bats | |
Migration Phenology and Behaviour of Bats at a Research Platform in the South-Eastern North Sea | Hüppop, O.; Hill, R. | Journal Article | Bats | |||
Kármán vortex and turbulent wake generation by wind park piles | Grashorn, S.; Stanev, E. | Journal Article | Wind Energy, Fixed Offshore Wind | Changes in Flow | Sediment Transport, Physical Environment | |
Winter Activity of Coastal Plain Populations of Bat Species Affected by White-Nose Syndrome and Wind Energy Facilities | Grider, J.; Larsen, A.; Homyack, J.; et al. | Journal Article | Wind Energy, Land-Based Wind | Noise | Bats | |
Constraints on Development of Wind Energy in Poland due to Environmental Objectives. Is There Space in Poland for Wind Farm Siting? | Hajto, M.; Cichocki, Z.; Bidlasik, M.; et al. | Journal Article | Wind Energy, Land-Based Wind | Habitat Change | Bats, Birds, Human Dimensions | |
Participation in Environmental Decision-making: Reflecting on Planning and Community Benefits for Major Wind Farms | Armeni, C. | Journal Article | Wind Energy, Land-Based Wind, Fixed Offshore Wind | Human Dimensions, Stakeholder Engagement | ||
Integrating acceptance-relevant factors into wind power planning: A discussion | Zaunbrecher, B.; Ziefle, M. | Journal Article | Wind Energy | Human Dimensions, Stakeholder Engagement | ||
Bat Mortality Due to Wind Turbines in Canada | Zimmerling, J.; Francis, C. | Journal Article | Wind Energy, Land-Based Wind | Collision | Bats | |
Can local government play a greater role for community renewable energy? A case study from Australia | Mey, F.; Diesendorf, M.; MacGill, I. | Journal Article | Wind Energy | Human Dimensions, Stakeholder Engagement | ||
Seasonal activity patterns of European bats above intensively used farmland | Heim, O.; Schröder, A.; Eccard, J.; et al. | Journal Article | Wind Energy, Land-Based Wind | Bats | ||
Estimating the Political, Economic and Environmental Factors' Impact on the Installed Wind Capacity Development: A System GMM Approach | Biresselioglu, M.; Kilinc, D.; Onater-Isberk, E.; et al. | Journal Article | Wind Energy | Physical Environment, Human Dimensions | ||
Long-term implications of sustained wind power growth in the United States: Potential benefits and secondary impacts | Wiser, R.; Bolinger, M.; Heath, G.; et al. | Journal Article | Wind Energy, Land-Based Wind | Physical Environment, Human Dimensions, Climate Change | ||
Historical Data Reveal 30-Year Persistence of Benthic Fauna Associations in Heavily Modified Waterbody | Callaway, R. | Journal Article | Habitat Change | Physical Environment, Fish, Invertebrates | ||
Coping with Uncertainty in Environmental Impact Assessments: Open Techniques | Cardenas, I.; Halman, J. | Journal Article | Physical Environment, Human Dimensions, Environmental Impact Assessment | |||
Potential Impacts of Offshore Wind Farms on North Sea Stratification | Carpenter, J.; Merckelbach, L.; Callies, U.; et al. | Journal Article | Wind Energy, Fixed Offshore Wind | Changes in Flow | Physical Environment, Water Quality | |
Bats in a tropical wind farm: species composition and importance of the spatial attributes of vegetation cover on bat fatalities | Bolivar-Cime, B.; Bolivar-Cime, A.; Cabrera-Cruz, S.; et al. | Journal Article | Wind Energy, Land-Based Wind | Collision | Bats | |
Geographic Origins and Population Genetics of Bats Killed at Wind-Energy Facilities | Pylant, C.; Nelson, D.; Fitzpatrick, M.; et al. | Journal Article | Wind Energy | Bats | ||
Habitat use of bats in relation to wind turbines revealed by GPS tracking | Roeleke, M.; Blohm, T.; Kramer-Schadt, S.; et al. | Journal Article | Wind Energy | Bats | ||
Multiple Mortality Events in Bats: A Global Review | O'Shea, T.; Cryan, P.; Hayman, D.; et al. | Journal Article | Wind Energy, Land-Based Wind | Collision | Bats | |
The Impacts of Small and Medium Wind Turbines on Bats | Moyle, A. | Thesis | Wind Energy, Land-Based Wind | Habitat Change, Displacement, Collision, Avoidance, Attraction | Bats | |
Scavenging of small bird carrion in southwestern Germany by beetles, birds and mammals | Henrich, M.; Tietze, D.; Wink, M. | Journal Article | Wind Energy, Land-Based Wind | Collision | Bats, Birds | |
Mitigation Measures for Wildlife in Wind Energy Development, Consolidating the State of Knowledge — Part 2: Operation, Decommissioning | Gartman, V.; Bulling, L.; Dahmen, M.; et al. | Journal Article | Wind Energy | Avoidance, Collision, Habitat Change, Noise | Bats, Birds | |
Bats in a Mediterranean Mountainous Landscape: Does Wind Farm Repowering Induce Changes at Assemblage and Species Level? | Ferri, V.; Battisti, C.; Soccini, C. | Journal Article | Wind Energy, Land-Based Wind | Bats | ||
Unstructured Grid Modelling of Offshore Wind Farm Impacts on Seasonally Stratified Shelf Seas | Cazenave, P.; Torres, R.; Allen, J. | Journal Article | Wind Energy, Fixed Offshore Wind | Habitat Change, Changes in Flow | Physical Environment | |
Bats May Eat Diurnal Flies that Rest on Wind Turbines | Rydell, J.; Bogdanowicz, W.; Boonman, A.; et al. | Journal Article | Wind Energy | Bats | ||
Surface Texture Discrimination by Bats: Implications for Reducing Bat Mortality at Wind Turbines | Bienz, C. | Thesis | Wind Energy, Land-Based Wind | Habitat Change, Attraction | Bats | |
Aerial-Hawking Bats Can Glean Prey Items From Surfaces Similar to Wind Turbine Towers: Implications for Reducing Bat Fatalities at Wind Facilities | Jarzombek, L. | Thesis | Wind Energy, Land-Based Wind | Habitat Change, Attraction | Bats | |
The habitat association of bats in the South Okanagan Valley, British Columbia, Canada: Radar-acoustic surveys to assess the use of vineyards by insectivorous bats (Vespertilionidae) | Dagenais, M. | Thesis | Wind Energy, Land-Based Wind | Collision | Bats | |
Habitat use of migratory bats killed during autumn at wind turbines | Voigt, C.; Lindecke, O.; Schonborn, S.; et al. | Journal Article | Wind Energy, Land-Based Wind | Habitat Change | Bats | |
Practices and rationales of community engagement with wind farms: awareness raising, consultation, empowerm | Aitken, M.; Haggett, C.; Rudolph, D. | Journal Article | Wind Energy, Land-Based Wind | Stakeholder Engagement | ||
What Drives Attitudes towards Marine Renewable Energy Development in Island Communities in the UK? | de Groot, J.; Bailey, I. | Journal Article | Wind Energy, Fixed Offshore Wind, Marine Energy | Stakeholder Engagement, Social & Economic Data, Human Dimensions | ||
Wind Energy Development: Methods to Assess Bird and Bat Fatality Rates Post-Construction | Huso, M.; Dalthorp, D.; Miller, T.; et al. | Journal Article | Wind Energy, Land-Based Wind | Bats, Birds | ||
Mitigating Wind Energy Impacts on Wildlife: Approaches for Multiple Taxa | Arnett, E.; May, R. | Journal Article | Wind Energy, Land-Based Wind | Bats, Birds | ||
Local acceptance by people with unvoiced opinions living close to a wind farm: A case study from Japan | Motosu, M.; Maruyama, Y. | Journal Article | Wind Energy, Land-Based Wind | Human Dimensions, Stakeholder Engagement | ||
Impact of Wind Energy on Bats: A Summary of Our Current Knowledge | Hein, C.; Schirmacher, M. | Journal Article | Wind Energy, Land-Based Wind | Attraction, Collision | Bats | |
Wind Energy Development: Methods for Assessing Risks to Birds and Bats Pre-Construction | Katzner, T.; Bennett, V.; Miller, T.; et al. | Journal Article | Wind Energy, Land-Based Wind | Collision, Habitat Change | Bats, Birds | |
ABC’s Bird-Smart Wind Energy Campaign: Protecting Birds from Poorly Sited Wind Energy Development | Hutchins, M.; Parr, M.; Schroeder, D. | Journal Article | Wind Energy | Bats, Birds | ||
Impact of Wind Energy on Wildlife: Synthesis | Leopold, B.; Hutchins, M. | Journal Article | Wind Energy | Bats, Birds | ||
Assessing spring direct mortality to avifauna from wind energy facilities in the Dakotas | Graff, B.; Jenks, J.; Stafford, J.; et al. | Journal Article | Wind Energy, Land-Based Wind | Collision | Birds, Bats |
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