Energy and Wildlife
Energy and Wildlife
Energy development is booming across the United States, helping to secure plentiful energy to meet our nation’s needs. Yet energy generation can sometimes have adverse effects on ecosystems and wildlife. USGS scientists are studying the effects of energy infrastructure on wildlife, and are working to develop the technical and management options that can reduce risks to wildlife and industry.
News
News
Read our latest news on science to inform energy development and fish and wildlife management and conservation.
Publications
Publications
Stay up to date on the latest research involving energy development and its interactions with wildlife.
Featured Science
Featured Science
Explore quick links to research efforts and science tools available for use in energy development and wildlife management decisions.
- Renewables-Wildlife Solutions Initiative
- North American Bat Monitoring Program (NABat)
- Tools for the Mitigation of Habitat-Based Impacts to Birds
- U.S. Wind Turbine Database (USWTDB) Viewer
- USGS Energy and Wildlife Research Report - 2019
- A Generalized Estimator for Estimating Bird and Bat Mortality at Renewable Ener…
- Smart Energy Development Web Tool
Filter Total Items: 115
Translational science for renewable energy and its wildlife concerns: a synthesis of wind energy buildout, bat population ecology, and habitat constraints
Wind energy is poised for rapid growth over the next 2-3 decades yet fatalities to birds and bats is a leading concern that may constrain wind energy development in the US. This working group will integrate wind energy forecasting models with bat ecological models and management policy considerations to transform our ability to understand and manage renewable energy development while...
Uncovering the Base of the Food Web: Primary Production Dynamics in the Colorado River
Algae, phytoplankton, and rooted macrophytes represent the base of many aquatic food webs and are known as primary producers. Through photosynthesis, these organisms convert sunlight energy into chemical energy (i.e., carbon) that in turn fuels the growth of animals such as macroinvertebrates and fish. This project uses high frequency measurements of dissolved oxygen, which is a by-product of...
Use and History of the North Pacific Pelagic Seabird Database (NPPSD)
Data on the distribution and abundance of seabirds at sea have been used for many decades to assist in understanding the marine ecology of seabirds away from their breeding colonies, measure population status and trends, assess the impact of human activities on ocean habitats and fish stocks, and to identify critical marine habitats for seabirds.
Is timing really everything? Evaluating Resource Response to Spring Disturbance Flows
Glen Canyon Dam has altered ecological processes of the Colorado River in Grand Canyon. Before the dam was built, the Colorado River experienced seasonable variable flow rates, including springtime flooding events. These spring floods scoured the river bottom and enhanced natural processes that sustained the Colorado River ecosystem. Since the dam’s construction in 1963, springtime floods have...
Tools for the Mitigation of Habitat-Based Impacts to Birds
Compensatory mitigation is applied in grassland and wetland ecosystems to offset environmental damage from disturbances such as energy development. Energy facilities continue to proliferate across the United States, yet implementation of mitigation tools to ameliorate habitat loss or behavioural effects on wildlife is rare. NPWRC scientists conducted a 10-year Before-After, Control-Impact (BACI)...
Desert Tortoise Ecology and Renewable Energy Development
The desert Southwest is experiencing rapid development of utility-scale solar and wind energy facilities. Although clean renewable energy has environmental benefits, it can also have negative impacts on wildlife and their habitats. Understanding those impacts and effectively mitigating them is a major goal of industry and resource managers. One species of particular concern is Agassiz’s desert...
Well Pad Reclamation and Research
Reclamation on lands impacted by energy development is complicated and extremely challenging in arid environments due to unstable soils, exotic species, and low and variable precipitation. The reclamation tactics employed by energy operators vary widely and outcomes can differ across plant communities and soil types. In order to address the knowledge gaps regarding how to successfully and...
Seabird Vulnerability Assessment for Renewable Energy Projects
In 2017, the Western Ecological Research Center's seabird studies team developed a framework for quantifying seabird species vulnerability to offshore wind energy infrastructure in the Pacific Outer Continental Shelf portion of the California Current region. This tool supports marine resource-use planning by identifying sites where seabirds are most vulnerable and predicts how different species...
Estimating offsets for avian displacement effects of anthropogenic impacts
The avian-impact offset method (AIOM) quantifies the amount of habitat needed to provide equivalent biological value for birds displaced by energy and transportation infrastructure. The AIOM can be applied in situations where avian displacement (i.e., behavioral avoidance) requires compensatory mitigation. The AIOM is based on the ability to define five metrics: impact distance, impact area, pre...
Aerial Seabird and Marine Mammal Surveys
The Seabird Studies Team at the USGS Western Ecological Research Center is conducting aerial photographic surveys of the ocean off central and southern California to create comprehensive maps of seabird and marine mammal distributions. The project is supported by the Bureau of Ocean Energy Management and will inform planning in advance of potential offshore wind energy development along the...
Mapping riverine habitats of the Delaware River using bathymetric LiDAR
Ecosystem management and assessment of rivers requires detailed data on bathymetry before estimates of aquatic habitats can be determined. However, mapping bathymetry in shallow rivers is challenging due to river depth limitations for watercraft.
Exploring the potential effects of shale oil and gas development on freshwaters
Widespread shale oil and gas (unconventional oil and gas, UOG) has only recently begun and many gaps in our knowledge of its potential effects to freshwaters exist.