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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

Blood lead concentrations in Alaskan tundra swans: linking breeding and wintering areas with satellite telemetry Blood lead concentrations in Alaskan tundra swans: linking breeding and wintering areas with satellite telemetry

Tundra swans (Cygnus columbianus) like many waterfowl species are susceptible to lead (Pb) poisoning, and Pb-induced mortality has been reported from many areas of their wintering range. Little is known however about Pb levels throughout the annual cycle of tundra swans, especially during summer when birds are on remote northern breeding areas where they are less likely to be exposed to
Authors
Craig R. Ely, Christian Franson
By
Ecosystems Mission Area, Contaminant Biology, Environmental Health Program, Alaska Science Center, National Wildlife Health Center, Bird Banding Laboratory

Comparative population structure of cavity-nesting sea ducks Comparative population structure of cavity-nesting sea ducks

A growing collection of mtDNA genetic information from waterfowl species across North America suggests that larger-bodied cavity-nesting species exhibit greater levels of population differentiation than smaller-bodied congeners. Although little is known about nest-cavity availability for these species, one hypothesis to explain differences in population structure is reduced dispersal...
Authors
John M. Pearce, John M. Eadie, Jean-Pierre L. Savard, Thomas K. Christensen, James Berdeen, Eric J. Taylor, Sean Boyd, Arni Einarsson
By
Ecosystems Mission Area, Alaska Science Center

Reconstruction of historic sea ice conditions in a sub-Arctic lagoon Reconstruction of historic sea ice conditions in a sub-Arctic lagoon

Historical sea ice conditions were reconstructed for Izembek Lagoon, Bering Sea, Alaska. This lagoon is a crucial staging area during migration for numerous species of avian migrants and a major eelgrass (Zostera marina) area important to a variety of marine and terrestrial organisms, especially Pacific Flyway black brant geese (Branta bernicla nigricans). Ice cover is a common feature...
Authors
Chris Petrich, Adrienne C. Tivy, David H. Ward
By
Ecosystems Mission Area, Alaska Science Center

Interspecific hybridization contributes to high genetic diversity and apparent effective population size in an endemic population of mottled ducks (Anas fulvigula maculosa) Interspecific hybridization contributes to high genetic diversity and apparent effective population size in an endemic population of mottled ducks (Anas fulvigula maculosa)

Under drift-mutation equilibrium, genetic diversity is expected to be correlated with effective population size (Ne). Changes in population size and gene flow are two important processes that can cause populations to deviate from this expected relationship. In this study, we used DNA sequences from six independent loci to examine the influence of these processes on standing genetic...
Authors
Jeffrey L. Peters, Sarah A. Sonsthagen, Philip Lavretsky, Michael Rezsutek, William P. Johnson, Kevin G. McCracken
By
Ecosystems Mission Area, Alaska Science Center

Satellite tracking of the migration of Whooper Swans Cygnus cygnus wintering in Japan Satellite tracking of the migration of Whooper Swans Cygnus cygnus wintering in Japan

We satellite-tracked Whooper Swans Cygnus cygnus wintering in northern Japan to document their migration routes and timing, and to identify breeding areas. From 47 swans that we marked at Lake Izunuma-Uchinuma, Miyagi Prefecture, northeast Honshu, and at Lake Kussharo, east Hokkaido, we observed 57 spring and 33 autumn migrations from 2009-2012. In spring, swans migrated north along...
Authors
Tetsuo Shimada, Noriyuki M. Yamaguchi, N. Hijikata, Emiko N. Hiraoka, Jerry W. Hupp, Paul L. Flint, Ken-ichi Tokita, Go Fujita, Kiyoshi Uchida, F. Sato, Masayuki Kurechi, John M. Pearce, Andrew M. Ramey, Hiroyoshi Higuchi
By
Ecosystems Mission Area, Alaska Science Center

Delineation of Tundra Swan Cygnus c. columbianus populations in North America: geographic boundaries and interchange Delineation of Tundra Swan Cygnus c. columbianus populations in North America: geographic boundaries and interchange

North American Tundra Swans Cygnus c. columbianus are composed of two wellrecognised populations: an Eastern Population (EP) that breeds across northern Canada and north of the Brooks Range in Alaska, which migrates to the eastern seaboard of the United States, and a Western Population (WP) that breeds in coastal regions of Alaska south of the Brooks Range and migrates to western North...
Authors
Craig R. Ely, William J.L. Sladen, Heather M. Wilson, Susan E. Savage, Kristine M. Sowl, Bill Henry, Mike Schwitters, James Snowden
By
Ecosystems Mission Area, Alaska Science Center, Bird Banding Laboratory

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

Blood lead concentrations in Alaskan tundra swans: linking breeding and wintering areas with satellite telemetry Blood lead concentrations in Alaskan tundra swans: linking breeding and wintering areas with satellite telemetry

Tundra swans (Cygnus columbianus) like many waterfowl species are susceptible to lead (Pb) poisoning, and Pb-induced mortality has been reported from many areas of their wintering range. Little is known however about Pb levels throughout the annual cycle of tundra swans, especially during summer when birds are on remote northern breeding areas where they are less likely to be exposed to
Authors
Craig R. Ely, Christian Franson
By
Ecosystems Mission Area, Contaminant Biology, Environmental Health Program, Alaska Science Center, National Wildlife Health Center, Bird Banding Laboratory

Comparative population structure of cavity-nesting sea ducks Comparative population structure of cavity-nesting sea ducks

A growing collection of mtDNA genetic information from waterfowl species across North America suggests that larger-bodied cavity-nesting species exhibit greater levels of population differentiation than smaller-bodied congeners. Although little is known about nest-cavity availability for these species, one hypothesis to explain differences in population structure is reduced dispersal...
Authors
John M. Pearce, John M. Eadie, Jean-Pierre L. Savard, Thomas K. Christensen, James Berdeen, Eric J. Taylor, Sean Boyd, Arni Einarsson
By
Ecosystems Mission Area, Alaska Science Center

Reconstruction of historic sea ice conditions in a sub-Arctic lagoon Reconstruction of historic sea ice conditions in a sub-Arctic lagoon

Historical sea ice conditions were reconstructed for Izembek Lagoon, Bering Sea, Alaska. This lagoon is a crucial staging area during migration for numerous species of avian migrants and a major eelgrass (Zostera marina) area important to a variety of marine and terrestrial organisms, especially Pacific Flyway black brant geese (Branta bernicla nigricans). Ice cover is a common feature...
Authors
Chris Petrich, Adrienne C. Tivy, David H. Ward
By
Ecosystems Mission Area, Alaska Science Center

Interspecific hybridization contributes to high genetic diversity and apparent effective population size in an endemic population of mottled ducks (Anas fulvigula maculosa) Interspecific hybridization contributes to high genetic diversity and apparent effective population size in an endemic population of mottled ducks (Anas fulvigula maculosa)

Under drift-mutation equilibrium, genetic diversity is expected to be correlated with effective population size (Ne). Changes in population size and gene flow are two important processes that can cause populations to deviate from this expected relationship. In this study, we used DNA sequences from six independent loci to examine the influence of these processes on standing genetic...
Authors
Jeffrey L. Peters, Sarah A. Sonsthagen, Philip Lavretsky, Michael Rezsutek, William P. Johnson, Kevin G. McCracken
By
Ecosystems Mission Area, Alaska Science Center

Satellite tracking of the migration of Whooper Swans Cygnus cygnus wintering in Japan Satellite tracking of the migration of Whooper Swans Cygnus cygnus wintering in Japan

We satellite-tracked Whooper Swans Cygnus cygnus wintering in northern Japan to document their migration routes and timing, and to identify breeding areas. From 47 swans that we marked at Lake Izunuma-Uchinuma, Miyagi Prefecture, northeast Honshu, and at Lake Kussharo, east Hokkaido, we observed 57 spring and 33 autumn migrations from 2009-2012. In spring, swans migrated north along...
Authors
Tetsuo Shimada, Noriyuki M. Yamaguchi, N. Hijikata, Emiko N. Hiraoka, Jerry W. Hupp, Paul L. Flint, Ken-ichi Tokita, Go Fujita, Kiyoshi Uchida, F. Sato, Masayuki Kurechi, John M. Pearce, Andrew M. Ramey, Hiroyoshi Higuchi
By
Ecosystems Mission Area, Alaska Science Center

Delineation of Tundra Swan Cygnus c. columbianus populations in North America: geographic boundaries and interchange Delineation of Tundra Swan Cygnus c. columbianus populations in North America: geographic boundaries and interchange

North American Tundra Swans Cygnus c. columbianus are composed of two wellrecognised populations: an Eastern Population (EP) that breeds across northern Canada and north of the Brooks Range in Alaska, which migrates to the eastern seaboard of the United States, and a Western Population (WP) that breeds in coastal regions of Alaska south of the Brooks Range and migrates to western North...
Authors
Craig R. Ely, William J.L. Sladen, Heather M. Wilson, Susan E. Savage, Kristine M. Sowl, Bill Henry, Mike Schwitters, James Snowden
By
Ecosystems Mission Area, Alaska Science Center, Bird Banding Laboratory

Below are news stories associated with this project.

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