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Waterfowl Research

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By Alaska Science Center September 29, 2025

Scientists at the USGS Alaska Science Center have conducted research on waterfowl species (ducks, geese, and swans) in Alaska since the 1970s. Because Alaska is an international crossroads of migratory bird flyways, with millions of birds from Asia and North America breeding in Alaska each summer, USGS research has also taken place in adjacent countries (Russia, Japan, Canada, Mexico) and in the lower 48-states and Hawaii.

Return to Ecosystems >> Terrestrial Ecosystems

The main objectives of the USGS Alaska Science Center waterfowl research program are to:

  • Identify and fill gaps in our knowledge about the ecology of waterfowl species in Alaska
  • Quantify the drivers of population trends of waterfowl populations in Alaska and throughout their annual cycle
  • Provide science information to Department of Interior management agencies and others for decision making regarding waterfowl disease, population delineation, and species of conservation concern

Waterfowl Research by Species

Media
Snow Goose near the Colville River, northern Alaska
Sources/Usage: Public Domain. View Media Details
Snow Goose near the Colville River, northern Alaska​​​​​​.​(Credit: Ryan Askren, USGS. Public domain.)

 

 

Below are other science projects associated with this project.

Below are data or web applications associated with this project.

Filter Total Items: 53
No Result Found

Below are multimedia items associated with this project.

No results found.

Below are publications associated with this project.

Filter Total Items: 184

Antibodies to H5 subtype avian influenza virus and Japanese encephalitis virus in northern pintails (Anas acuta) sampled in Japan Antibodies to H5 subtype avian influenza virus and Japanese encephalitis virus in northern pintails (Anas acuta) sampled in Japan

Blood samples from 105 northern pintails (Anas acuta) captured on Hokkaido, Japan were tested for antibodies to avian influenza virus (AIV), Japanese encephalitis virus (JEV), and West Nile virus (WNV) to assess possible involvement of this species in the spread of economically important and potentially zoonotic pathogens. Antibodies to AIV were detected in 64 of 105 samples (61%). Of...
Authors
Andrew M. Ramey, Erica Spackman, Jung-Yong Yeh, Go Fujita, Kan Konishi, Kiyoshi Uchida, John A. Reed, Benjamin R. Wilcox, Justin D. Brown, David E. Stallknecht
By
Ecosystems Mission Area, Alaska Science Center

Genomic analysis of avian influenza viruses from waterfowl in Western Alaska, USA Genomic analysis of avian influenza viruses from waterfowl in Western Alaska, USA

The Yukon-Kuskokwim Delta (Y-K Delta) in western Alaska is an immense and important breeding ground for waterfowl. Migratory birds from the Pacific Americas, Central Pacific, and East Asian-Australasian flyways converge in this region, providing opportunities for intermixing of North American- and Eurasian-origin hosts and infectious agents, such as avian influenza virus (AIV). We...
Authors
Andrew B. Reeves, John M. Pearce, Andrew M. Ramey, Craig R. Ely, Joel A. Schmutz, Paul L. Flint, Dirk V. Derksen, S. Ip, Kimberly A. Trust
By
Ecosystems Mission Area, Alaska Science Center, National Wildlife Health Center

Age-specific survival of tundra swans on the lower Alaska Peninsula Age-specific survival of tundra swans on the lower Alaska Peninsula

The population of Tundra Swans (Cygnus columbianus columbianus) breeding on the lower Alaska Peninsula represents the southern extremity of the species' range and is uniquely nonmigratory. We used data on recaptures, resightings, and recoveries of neck-collared Tundra Swans on the lower Alaska Peninsula to estimate collar loss, annual apparent survival, and other demographic parameters...
Authors
Brandt W. Meixell, Mark S. Lindberg, Paul B. Conn, Christian P. Dau, John E. Sarvis, Kristine M. Sowl
By
Ecosystems Mission Area, Alaska Science Center

Variation in body mass dynamics among sites in Black Brant Branta bernicla nigricans supports adaptivity of mass loss during moult Variation in body mass dynamics among sites in Black Brant Branta bernicla nigricans supports adaptivity of mass loss during moult

Birds employ varying strategies to accommodate the energetic demands of moult, one important example being changes in body mass. To understand better their physiological and ecological significance, we tested three hypotheses concerning body mass dynamics during moult. We studied Black Brant in 2006 and 2007 moulting at three sites in Alaska which varied in food availability, breeding...
Authors
Thomas F. Fondell, Paul L. Flint, Joel A. Schmutz, Jason L. Schamber, Christopher A. Nicolai
By
Ecosystems Mission Area, Alaska Science Center

Wildlife disease and environmental health in Alaska Wildlife disease and environmental health in Alaska

Environmental health is defined by connections between the physical environment, ecological health, and human health. Current research within the U.S. Geological Survey (USGS) recognizes the importance of this integrated research philosophy, which includes study of disease and pollutants as they pertain to wildlife and humans. Due to its key geographic location and significant wildlife...
Authors
Caroline R. Van Hemert, John M. Pearce, Karen Oakley, Mary E. Whalen
By
Ecosystems Mission Area, Alaska Science Center

Evidence that life history characteristics of wild birds influence infection rates and exposure to influenza A viruses Evidence that life history characteristics of wild birds influence infection rates and exposure to influenza A viruses

We report on life history characteristics, temporal, and age-related effects influencing the frequency of occurrence of avian influenza (AI) viruses in four species of migratory geese breeding on the Yukon-Kuskokwim Delta, Alaska. Emperor geese (Chen canagica), cackling geese (Branta hutchinsii), greater white-fronted geese (Anser albifrons), and black brant (Branta bernicla), were all...
Authors
Craig R. Ely, Jeffrey S. Hall, Joel A. Schmutz, John M. Pearce, John Terenzi, James S. Sedinger, S. Ip
By
Ecosystems Mission Area, Alaska Science Center, National Wildlife Health Center

Below are news stories associated with this project.

Scientists at the USGS Alaska Science Center have conducted research on waterfowl species (ducks, geese, and swans) in Alaska since the 1970s. Because Alaska is an international crossroads of migratory bird flyways, with millions of birds from Asia and North America breeding in Alaska each summer, USGS research has also taken place in adjacent countries (Russia, Japan, Canada, Mexico) and in the lower 48-states and Hawaii.

Return to Ecosystems >> Terrestrial Ecosystems

The main objectives of the USGS Alaska Science Center waterfowl research program are to:

  • Identify and fill gaps in our knowledge about the ecology of waterfowl species in Alaska
  • Quantify the drivers of population trends of waterfowl populations in Alaska and throughout their annual cycle
  • Provide science information to Department of Interior management agencies and others for decision making regarding waterfowl disease, population delineation, and species of conservation concern

Waterfowl Research by Species

Media
Snow Goose near the Colville River, northern Alaska
Sources/Usage: Public Domain. View Media Details
Snow Goose near the Colville River, northern Alaska​​​​​​.​(Credit: Ryan Askren, USGS. Public domain.)

 

 

Below are other science projects associated with this project.

Below are data or web applications associated with this project.

Filter Total Items: 53
No Result Found

Below are multimedia items associated with this project.

No results found.

Below are publications associated with this project.

Filter Total Items: 184

Antibodies to H5 subtype avian influenza virus and Japanese encephalitis virus in northern pintails (Anas acuta) sampled in Japan Antibodies to H5 subtype avian influenza virus and Japanese encephalitis virus in northern pintails (Anas acuta) sampled in Japan

Blood samples from 105 northern pintails (Anas acuta) captured on Hokkaido, Japan were tested for antibodies to avian influenza virus (AIV), Japanese encephalitis virus (JEV), and West Nile virus (WNV) to assess possible involvement of this species in the spread of economically important and potentially zoonotic pathogens. Antibodies to AIV were detected in 64 of 105 samples (61%). Of...
Authors
Andrew M. Ramey, Erica Spackman, Jung-Yong Yeh, Go Fujita, Kan Konishi, Kiyoshi Uchida, John A. Reed, Benjamin R. Wilcox, Justin D. Brown, David E. Stallknecht
By
Ecosystems Mission Area, Alaska Science Center

Genomic analysis of avian influenza viruses from waterfowl in Western Alaska, USA Genomic analysis of avian influenza viruses from waterfowl in Western Alaska, USA

The Yukon-Kuskokwim Delta (Y-K Delta) in western Alaska is an immense and important breeding ground for waterfowl. Migratory birds from the Pacific Americas, Central Pacific, and East Asian-Australasian flyways converge in this region, providing opportunities for intermixing of North American- and Eurasian-origin hosts and infectious agents, such as avian influenza virus (AIV). We...
Authors
Andrew B. Reeves, John M. Pearce, Andrew M. Ramey, Craig R. Ely, Joel A. Schmutz, Paul L. Flint, Dirk V. Derksen, S. Ip, Kimberly A. Trust
By
Ecosystems Mission Area, Alaska Science Center, National Wildlife Health Center

Age-specific survival of tundra swans on the lower Alaska Peninsula Age-specific survival of tundra swans on the lower Alaska Peninsula

The population of Tundra Swans (Cygnus columbianus columbianus) breeding on the lower Alaska Peninsula represents the southern extremity of the species' range and is uniquely nonmigratory. We used data on recaptures, resightings, and recoveries of neck-collared Tundra Swans on the lower Alaska Peninsula to estimate collar loss, annual apparent survival, and other demographic parameters...
Authors
Brandt W. Meixell, Mark S. Lindberg, Paul B. Conn, Christian P. Dau, John E. Sarvis, Kristine M. Sowl
By
Ecosystems Mission Area, Alaska Science Center

Variation in body mass dynamics among sites in Black Brant Branta bernicla nigricans supports adaptivity of mass loss during moult Variation in body mass dynamics among sites in Black Brant Branta bernicla nigricans supports adaptivity of mass loss during moult

Birds employ varying strategies to accommodate the energetic demands of moult, one important example being changes in body mass. To understand better their physiological and ecological significance, we tested three hypotheses concerning body mass dynamics during moult. We studied Black Brant in 2006 and 2007 moulting at three sites in Alaska which varied in food availability, breeding...
Authors
Thomas F. Fondell, Paul L. Flint, Joel A. Schmutz, Jason L. Schamber, Christopher A. Nicolai
By
Ecosystems Mission Area, Alaska Science Center

Wildlife disease and environmental health in Alaska Wildlife disease and environmental health in Alaska

Environmental health is defined by connections between the physical environment, ecological health, and human health. Current research within the U.S. Geological Survey (USGS) recognizes the importance of this integrated research philosophy, which includes study of disease and pollutants as they pertain to wildlife and humans. Due to its key geographic location and significant wildlife...
Authors
Caroline R. Van Hemert, John M. Pearce, Karen Oakley, Mary E. Whalen
By
Ecosystems Mission Area, Alaska Science Center

Evidence that life history characteristics of wild birds influence infection rates and exposure to influenza A viruses Evidence that life history characteristics of wild birds influence infection rates and exposure to influenza A viruses

We report on life history characteristics, temporal, and age-related effects influencing the frequency of occurrence of avian influenza (AI) viruses in four species of migratory geese breeding on the Yukon-Kuskokwim Delta, Alaska. Emperor geese (Chen canagica), cackling geese (Branta hutchinsii), greater white-fronted geese (Anser albifrons), and black brant (Branta bernicla), were all...
Authors
Craig R. Ely, Jeffrey S. Hall, Joel A. Schmutz, John M. Pearce, John Terenzi, James S. Sedinger, S. Ip
By
Ecosystems Mission Area, Alaska Science Center, National Wildlife Health Center

Below are news stories associated with this project.

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