Wind-Wildlife Research
Review of bat fatality studies at wind farms shows curtailment is an effective approach to reducing mortality
Meta-analysis across eight wind faciltiies shows curtailment to be an effective approach for reducing bat collisions
Wind-Wildlife Research
A review of studies examining the impacts of wind energy development on wildlife. Includes both onshore and offshore wind energy development.
Wind-Wildlife Research
How to study the effects of offshore wind energy on birds and bats in the Eastern United States
Research identifies the most important topics to improve understanding of offshore wind's impacts on birds and bats
Wind-Wildlife Research
Do painted wind turbine blades reduce bird fatalities?
Painting wind turbine blades in a different color has shown promising results for reducing bird fatalities.
My Research
Post-construction Offshore Wind Bird and Bat Research Using Acoustic and Thermographic Offshore Monitoring (ATOM)
Offshore wind bird and bat post-construction monitoring with Acoustic and Thermographic Offshore Monitoring (ATOM)
Wind-Wildlife Research
ThermalTracker-3D: offshore bird and bat monitoring
ThermalTracker-3D uses thermal and visible-light cameras and image recognition software for bird and bat activity monitoring offshore.
My Research
Reducing Bat Mortality at Wind Farms with the Turbine Integrated Mortality Reduction (TIMR) Smart Curtailment Technology
Smart curtailment technology reduces bat mortality by shutting down turbines when bats are present and wind speeds are moderate
Wind-Wildlife Research
Floating offshore wind: challenges for marine wildlife
Floating offshore wind turbines promise the ability to develop wind capacity in deep water, but what challenges will wildlife face?
Wind-Wildlife Research
Modeling Bird and Bat Collision Mortality at Wind Turbines in the Central United States
Landscape spatial models inform collision risks for birds and bats in the central United States
