Michael Anteau, PhD
Michael J. Anteau serves as a research scientist and the Chief of the Wildlife and Ecosystems Branch at the USGS Northern Prairie Wildlife Research Center in Jamestown, North Dakota.
Dr. Anteau conducts large-scale research studies to provide applied information for the conservation and management of wildlife and wildlife habitat. His research focuses on evaluating implications of climate and land use changes on migratory birds, wetland and riparian dependent wildlife, and wetland ecology. Through this research focus, Anteau has developed expertise in subjects such as: wetland hydrology, habitat use and selection, nutrition and energetics, breeding ecology, migration stopover ecology, and landscape ecology. In addition to research that Dr. Anteau leads at Northern Prairie, he also serves as adjunct faculty at several Universities and advises or mentors M.S. and Ph.D. students, and Post-Doctoral Researchers.
Professional Experience
2015-Present: Wildlife and Ecosystems Branch Chief and Research Wildlife Biologist, US Geological Survey, Northern Prairie Wildlife Research Center, Jamestown, ND
2006-Present: Research Wildlife Biologist, US Geological Survey, Northern Prairie Wildlife Research Center, Jamestown, ND
1999-2005: Graduate Research Assistant, US Geological Survey, Louisiana Cooperative Research Unit, School of Renewable Natural Resources, Louisiana State University, Baton Rouge, LA
Education and Certifications
Ph.D., Wildlife and Fisheries Science, Louisiana State University, Jan. 2006
M.S., Wildlife Biology, Louisiana State University, May 2002
B.S., Wildlife Biology, University of Alaska Fairbanks, Dec. 1997
B.S., Biological Sciences, University of Alaska Fairbanks, Dec. 1997
Affiliations and Memberships*
Adjunct Professor of Biology, North Dakota State University (since 2010)
Adjunct Assistant Professor, South Dakota State University (since 2011)
Adjunct Professor, Western Illinois University (since 2017)
Society of Wetland Scientists (SWS) life member
Associate Editor for Wetlands (2010-2014)
Editorial Board for Frontiers in Ecology and Evolution
Prairie Pothole Joint Venture Technical Team Member
Science and Products
Synchrony of Piping Plover breeding populations in the U.S. Northern Great Plains
Temporal variation in survival and recovery rates of lesser scaup
A Bayesian approach for temporally scaling climate for modeling ecological systems
Consolidation drainage and climate change may reduce Piping Plover habitat in the Great Plains
Is income breeding an appropriate construct for waterfowl?
Habitat selection and movements of Piping Plover broods suggest a tradeoff between breeding stages
Lesser Scaup
Spring migration of waterfowl in the Northern Hemisphere: a management and conservation perspective
Generating nested wetland catchments with readily-available digital elevation data may improve evaluations of land-use change on wetlands
Landscape selection by piping plovers has implications for measuring habitat and population size
Detection probability of least tern and piping plover chicks in a large river system
The role of landscape features and density dependence in growth and fledging rates of Piping Plovers in North Dakota, USA
Science and Products
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Synchrony of Piping Plover breeding populations in the U.S. Northern Great Plains
Local populations that fluctuate synchronously are at a greater risk of extinction than those that do not. The closer the geographic proximity of populations, the more prone they are to synchronizing. Shorebird species select habitat broadly, and many breed across regions with diverse nesting habitat types. Under these conditions, nearby populations may experience conditions sufficiently differentAuthorsErin A. Roche, Terry L. Shaffer, Colin M. Dovichin, Mark H. Sherfy, Michael J. Anteau, Mark T. WiltermuthTemporal variation in survival and recovery rates of lesser scaup
Management of lesser scaup (Aythya affinis) has been hindered by access to reliable data on population trajectories and vital rates. We conducted a Bayesian analysis of historical (1951–2011) band-recovery data throughout North America to estimate annual survival and recovery rates for juvenile and adult male and female lesser scaup to determine if increasing harvest or declining survival rates haAuthorsTodd W. Arnold, Alan D. Afton, Michael J. Anteau, David N. Koons, Chris NicolaiA Bayesian approach for temporally scaling climate for modeling ecological systems
With climate change becoming more of concern, many ecologists are including climate variables in their system and statistical models. The Standardized Precipitation Evapotranspiration Index (SPEI) is a drought index that has potential advantages in modeling ecological response variables, including a flexible computation of the index over different timescales. However, little development has been mAuthorsMax Post van der Burg, Michael J. Anteau, Lisa A. McCauley, Mark T. WiltermuthConsolidation drainage and climate change may reduce Piping Plover habitat in the Great Plains
Many waterbird species utilize a diversity of aquatic habitats; however, with increasing anthropogenic needs to manage water regimes there is global concern over impacts to waterbird populations. The federally threatened Piping Plover (Charadrius melodus; hereafter plovers) is a shorebird that breeds in three habitat types in the Prairie Pothole Region of North Dakota, South Dakota, and Canada: riAuthorsLisa A. McCauley, Michael J. Anteau, Max Post van der BurgIs income breeding an appropriate construct for waterfowl?
Breeding birds use a range of nutrient accumulation and allocation strategies to meet the nutritional demands of clutch formation and incubation. On one end of the spectrum, capital breeders use stored nutrients acquired prior to clutch formation and incubation to sustain metabolism during reproduction, while on the opposite end, income breeders derive nutrients solely from exogenous sources on thAuthorsAdam K. Janke, Michael J. Anteau, Nicholas Markl, Joshua D. StaffordHabitat selection and movements of Piping Plover broods suggest a tradeoff between breeding stages
In precocial birds, adults select breeding areas using cues associated with habitat characteristics that are favorable for nesting success and chick survival, but there may be tradeoffs in habitat selection between these breeding stages. Here we describe habitat selection and intra-territory movements of 53 Piping Plover (Charadrius melodus) broods (320 observations) during the 2007–2008 breedingAuthorsMark T. Wiltermuth, Michael J. Anteau, Mark H. Sherfy, Aaron T. PearseLesser Scaup
No abstract available.AuthorsMichael J. Anteau, Jean-Michel DeVink, David N. Koons, Jane E. Austin, Christine M. Custer, Alan D. AftonSpring migration of waterfowl in the Northern Hemisphere: a management and conservation perspective
Spring migration is a key part of the annual cycle for waterfowl populations in the northern hemisphere, due to its temporal proximity to the breeding season and because resources may be limited at one or more staging sites. Research based on field observations during spring lags behind other periods of the year, despite the potential for fitness consequences through diminished survival or cross-sAuthorsJoshua D. Stafford, Adam K. Janke, Michael J. Anteau, Aaron T. Pearse, Anthony D. Fox, Johan Elmberg, Jacob N. Straub, Michael W. Eichholz, Céline ArzelGenerating nested wetland catchments with readily-available digital elevation data may improve evaluations of land-use change on wetlands
The important ecosystem functions wetlands perform are influenced by land-use changes in their surrounding uplands and thus, identifying the upland area that flows into a wetland is important. We provide a method to define wetland catchments as the portion of the landscape that flows into a wetland; we allowed catchments to be nested and include other wetlands and their catchments, forming a hydroAuthorsLisa A. McCauley, Michael J. AnteauLandscape selection by piping plovers has implications for measuring habitat and population size
How breeding birds distribute in relation to landscape-scale habitat features has important implications for conservation because those features may constrain habitat suitability. Furthermore, knowledge of these associations can help build models to improve area-wide demographic estimates or to develop a sampling stratification for research and monitoring. This is particularly important for rare sAuthorsMichael J. Anteau, Terry L. Shaffer, Mark T. Wiltermuth, Mark H. SherfyDetection probability of least tern and piping plover chicks in a large river system
Monitoring the abundance and stability of populations of conservation concern is often complicated by an inability to perfectly detect all members of the population. Mark-recapture offers a flexible framework in which one may identify factors contributing to imperfect detection, while at the same time estimating demographic parameters such as abundance or survival. We individually color-marked, reAuthorsErin A. Roche, Terry L. Shaffer, Michael J. Anteau, Mark H. Sherfy, Jennifer H. Stucker, Mark T. Wiltermuth, Colin M. DovichinThe role of landscape features and density dependence in growth and fledging rates of Piping Plovers in North Dakota, USA
For species with precocial young, survival from hatching to fledging is a key factor influencing recruitment. Furthermore, growth rates of precocial chicks are an indicator of forage quality and habitat suitability of brood-rearing areas. We examined how growth and fledging rates of Piping Plover (Charadrius melodus) chicks were influenced by landscape features, such as hatchling density (hatchliAuthorsMichael J. Anteau, Mark T. Wiltermuth, Mark H. Sherfy, Terry L. Shaffer, Aaron T. Pearse - News
*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