Aaron Pearse, PhD
Dr. Aaron Pearse is a Research Wildlife Biologist at the USGS Northern Prairie Wildlife Research Center in Jamestown, North Dakota.
I have worked primarily with migratory birds and have addressed needs of natural resource managers by providing answers that lead to science-based management of wildlife species and ecosystems in which they depend. I am responsible for identifying and conducting research relevant to agencies within the Department of the Interior and other partners including the federal government, state governments, and non-governmental organizations. I function as a team leader and primary investigator on projects primarily in three general areas: ecology and management of North American waterfowl and cranes, natural resource survey design and application, and landscape scale studies of upland and wetland habitats in the Prairie Pothole Region.
Professional Experience
Research Wildlife Biologist, USGS Northern Prairie Wildlife Research Center, Jamestown, ND , 2007-present
Education and Certifications
Ph.D. Mississippi State University, 2007
M.S. University of Idaho, 2002
B.S. Kansas State University, 1998
Affiliations and Memberships*
Adjunct Research Professor, South Dakota State University, 2017-present
Science and Products
Post-fledging movement and habitat selection by mallards in the fall and their effect on spring recruitment
Migration and winter ecology of the Aransas-Wood Buffalo Population of whooping cranes
Ecology and management of midcontinent sandhill cranes
Development of survey methods for spring-migrating waterfowl in the Rainwater Basin
An evaluation of waterfowl breeding ecology in the context of their predator community in eastern South Dakota
Whooping crane use around Air Force Bases in Oklahoma, 2017-2022
Whooping crane stopover habitat use and migration movement data in relation to drought severity, 2010-2022
Mallard migration and regional movement timing, distance, and direction data, 2018–2020
Whooping crane migration habitat selection disturbance data and maps
Whooping crane migration habitat selection data and distance to wind-energy infrastructure, 2010-2016
Location data for whooping cranes of the Aransas-Wood Buffalo Population, 2009-2018
Fecundity data for midcontinent sandhill cranes, 2003-2006
Characterization of whooping crane migrations and stopover sites used in the Central Flyway, 2010-2016
Morphological measurements and subspecies of midcontinent sandhill cranes
Map of whooping crane migration corridor
Spatial data for estimating whooping crane migration corridor
Sandhill crane locations, autumn 2013 migration
Flexible migration and habitat use strategies of an endangered waterbird during hydrological drought
Management implications of habitat selection by whooping cranes (Grus americana) on the Texas coast
Developing a photography-based harvest survey to estimate age and subspecies composition of midcontinent sandhill cranes
Factors influencing autumn–winter movements of midcontinent Mallards and consequences for harvest and habitat management
Differential shortstopping behaviour in Whooping Cranes: Habitat or social learning?
Balancing future renewable energy infrastructure siting and associated habitat loss for migrating whooping cranes
Reassessing perennial cover as a driver of duck nest survival in the Prairie Pothole Region
Space use and site fidelity of wintering whooping cranes on the Texas Gulf Coast
Limited land base and competing land uses force societal tradeoffs when siting energy development
Whooping crane stay length in relation to stopover site characteristics
U.S. Geological Survey migratory bird science, 2020–21
Migrating whooping cranes avoid wind-energy infrastructure when selecting stopover habitat
Science and Products
Post-fledging movement and habitat selection by mallards in the fall and their effect on spring recruitment
Migration and winter ecology of the Aransas-Wood Buffalo Population of whooping cranes
Ecology and management of midcontinent sandhill cranes
Development of survey methods for spring-migrating waterfowl in the Rainwater Basin
An evaluation of waterfowl breeding ecology in the context of their predator community in eastern South Dakota
Whooping crane use around Air Force Bases in Oklahoma, 2017-2022
Whooping crane stopover habitat use and migration movement data in relation to drought severity, 2010-2022
Mallard migration and regional movement timing, distance, and direction data, 2018–2020
Whooping crane migration habitat selection disturbance data and maps
Whooping crane migration habitat selection data and distance to wind-energy infrastructure, 2010-2016
Location data for whooping cranes of the Aransas-Wood Buffalo Population, 2009-2018
Fecundity data for midcontinent sandhill cranes, 2003-2006
Characterization of whooping crane migrations and stopover sites used in the Central Flyway, 2010-2016
Morphological measurements and subspecies of midcontinent sandhill cranes
Map of whooping crane migration corridor
Spatial data for estimating whooping crane migration corridor
Sandhill crane locations, autumn 2013 migration
Flexible migration and habitat use strategies of an endangered waterbird during hydrological drought
Management implications of habitat selection by whooping cranes (Grus americana) on the Texas coast
Developing a photography-based harvest survey to estimate age and subspecies composition of midcontinent sandhill cranes
Factors influencing autumn–winter movements of midcontinent Mallards and consequences for harvest and habitat management
Differential shortstopping behaviour in Whooping Cranes: Habitat or social learning?
Balancing future renewable energy infrastructure siting and associated habitat loss for migrating whooping cranes
Reassessing perennial cover as a driver of duck nest survival in the Prairie Pothole Region
Space use and site fidelity of wintering whooping cranes on the Texas Gulf Coast
Limited land base and competing land uses force societal tradeoffs when siting energy development
Whooping crane stay length in relation to stopover site characteristics
U.S. Geological Survey migratory bird science, 2020–21
Migrating whooping cranes avoid wind-energy infrastructure when selecting stopover habitat
*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government