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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

Benthos Sample Data from Izembek and Nelson Lagoons, Alaska, 1998 Benthos Sample Data from Izembek and Nelson Lagoons, Alaska, 1998

This data set contains a single table of descriptions of benthic samples collected in 1998 at Nelson and Izembek lagoons, Alaska. This includes: the weight of the sample, the species or species group of benthic animals (also vegetation) and their number, size and weight, and the amount of sand and gravel. These data provide a basis for additional studies that includes sampling of the...
By
Alaska Science Center

Counts and Abdominal Profile Indices of Wintering Emperor Geese (Anser canagicus) at Three Islands in Alaska, 2003 and 2015-2017 Counts and Abdominal Profile Indices of Wintering Emperor Geese (Anser canagicus) at Three Islands in Alaska, 2003 and 2015-2017

These data are in two tables related to surveys conducted on wintering Emperor Geese in Alaska. Surveys counting the number of wintering Emperor Geese were conducted on Shemya Island in 2003 and 2016, and on Adak Island in 2016-2017. Data on abdominal profile indices (body condition) of Emperor Geese were collected on Shemya Island in 2016, on Adak Island in 2016-2017, and on Kodiak...
By
Ecosystems Mission Area, Alaska Science Center

Data and Model-based Estimates from Black Brant (Branta bernicla nigricans) Fall Age Ratio Surveys at Izembek Lagoon, Alaska Data and Model-based Estimates from Black Brant (Branta bernicla nigricans) Fall Age Ratio Surveys at Izembek Lagoon, Alaska

These data are in three tables relating to fall age ratios (number of juvenile birds : total birds aged) of Black Brant (Branta bernicla nigricans) staging in Izembek Lagoon, Alaska, since 1963. The first table is observation data for the age classes of Black Brant during surveys, and associated survey characteristics. Two tables provide model-based estimates of age ratios by year along...
By
Alaska Science Center

Stable Isotope Data from Tundra Swan (Cygnus columbianus) Feathers, Alaska, 2008 and 2010 Stable Isotope Data from Tundra Swan (Cygnus columbianus) Feathers, Alaska, 2008 and 2010

These data are in a single table that provides date and location information of Tundra Swans (Cygnus columbianus) that were sampled in Alaska for feathers that were subsequently used in a stable isotope analysis. Results of deuterium, nitrogen, and carbon stable isotope analysis of feathers are provided.
By
Alaska Science Center

Influenza A Virus Persistence Data from an Urban Wetland in Anchorage, Alaska, 2018-2019 Influenza A Virus Persistence Data from an Urban Wetland in Anchorage, Alaska, 2018-2019

This dataset is three tables with details of samples and aliquots of waterfowl feces deposited in filtered surface water collected from an urban waterbody in Anchorage, Alaska in 2018-2019. Sample vials were submerged underwater in the same waterbody from which the samples were collected and the samples were tested for the presence and viability of influenza A virus. Temperature data and...
By
Alaska Science Center

Spectacled Eider (Somateria fischeri) Microsatellite and Mitochondrial DNA Data, 2014-2018, Alaska and Russia Spectacled Eider (Somateria fischeri) Microsatellite and Mitochondrial DNA Data, 2014-2018, Alaska and Russia

This data set describes nuclear microsatellite genotypes derived from ten autosomal loci (Aph8, Aph16, Cmo7, Cmo9, Hhi5, Sfi10, Smo4, Smo6, Smo8, Smo12) and nucleotide sequence data derived from one mitochondrial DNA locus (control region). A total of 262 Spectacled Eiders were examined for this study. Samples were collected at Indigirka and Chaun River Deltas, Russia, and Yukon...
By
Ecosystems Mission Area, Alaska Science Center, Molecular Ecology Laboratory

Below are multimedia items associated with this project.

No results found.

Below are publications associated with this project.

Filter Total Items: 184

Emperor geese (Anser canagicus) are exposed to a diversity of influenza A viruses, are infected during the non-breeding period and contribute to intercontinental viral dispersal Emperor geese (Anser canagicus) are exposed to a diversity of influenza A viruses, are infected during the non-breeding period and contribute to intercontinental viral dispersal

Emperor geese (Anser canagicus) are endemic to coastal areas within Beringia and have previously been found to have antibodies to or to be infected with influenza A viruses (IAVs) in Alaska. In this study, we use virological, serological and tracking data to further elucidate the role of emperor geese in the ecology of IAVs in Beringia during the non‐breeding period. Specifically, we...
Authors
Andrew M. Ramey, Brian D. Uher-Koch, Andrew B. Reeves, Joel A. Schmutz, Rebecca L. Poulson, David E. Stallknecht
By
Ecosystems Mission Area, Alaska Science Center

The black brant population is declining based on mark recapture The black brant population is declining based on mark recapture

Annual survival and recruitment in black brant (Branta bernicla nigricans) have declined since the 1990s, yet aerial surveys of the global population have been stable or even increasing over the past decade. We used a combination of a Lincoln estimator based on harvest information and band recoveries, and marked‐unmarked ratios in bag checks in 1 harvest area in Mexico to estimate the...
Authors
James S. Sedinger, Thomas V. Riecke, Alan G. Leach, David H. Ward
By
Ecosystems Mission Area, Alaska Science Center

Spatial distribution of band recoveries of black brant Spatial distribution of band recoveries of black brant

On average, band recovery rates of adult black brant (Branta bernicla nigricans) more than doubled between the 2000s and 2010s. However, the spatial distribution of band recoveries of black brant has not been reported. Our objective was to describe the spatial distribution of band recoveries of black brant since 1990. We found that Alaska, California, and Mexico accounted for ≥89% of...
Authors
Alan G. Leach, David H. Ward, James S. Sedinger, Thomas V. Riecke, Jerry W. Hupp, Robert J. Ritchie
By
Ecosystems Mission Area, Alaska Science Center

Non‐linear effect of sea ice: Spectacled Eider survival declines at both extremes of the ice spectrum Non‐linear effect of sea ice: Spectacled Eider survival declines at both extremes of the ice spectrum

Understanding the relationship between environmental factors and vital rates is an important step in predicting a species’ response to environmental change. Species associated with sea ice are of particular concern because sea ice is projected to decrease rapidly in polar environments with continued levels of greenhouse gas emissions. The relationship between sea ice and the vital rates...
Authors
Katherine S. Christie, Tuula E. Hollmen, Paul L. Flint, David C. Douglas
By
Ecosystems Mission Area, Alaska Science Center

Introduction of Eurasian-origin H8N4 influenza A virus into North America via migratory birds Introduction of Eurasian-origin H8N4 influenza A virus into North America via migratory birds

We identified a Eurasian-origin influenza A(H8N4) virus in North America by sampling wild birds in western Alaska, USA. Evidence for repeated introductions of influenza A viruses into North America by migratory birds suggests that intercontinental dispersal might not be exceedingly rare and that our understanding of viral establishment is incomplete.
Authors
Andrew M. Ramey, Andrew B. Reeves, Tyrone F. Donnelly, Rebecca L. Poulson, David E. Stallknecht
By
Ecosystems Mission Area, Alaska Science Center

Genetic evidence supports sporadic and independent introductions of subtype H5 low pathogenic avian influenza A viruses from wild birds to domestic poultry in North America Genetic evidence supports sporadic and independent introductions of subtype H5 low pathogenic avian influenza A viruses from wild birds to domestic poultry in North America

Wild bird–origin influenza A viruses (IAVs or avian influenza) have led to sporadic outbreaks among domestic poultry in the United States (US) and Canada, resulting in economic losses through the implementation of costly containment practices and destruction of birds. We used evolutionary analyses of virus sequence data to determine that 78 H5 low pathogenic avian influenza viruses...
Authors
Lei Li, Andrew S. Bowman, Thomas J. DeLiberto, Mary L. Killian, Scott Krauss, Jacqueline M. Nolting, Mia Kim Torchetti, Andrew M. Ramey, Andrew B. Reeves, David E. Stallknecht, Richard J. Webby, Xiu-Feng Wan
By
Ecosystems Mission Area, Alaska Science 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

Benthos Sample Data from Izembek and Nelson Lagoons, Alaska, 1998 Benthos Sample Data from Izembek and Nelson Lagoons, Alaska, 1998

This data set contains a single table of descriptions of benthic samples collected in 1998 at Nelson and Izembek lagoons, Alaska. This includes: the weight of the sample, the species or species group of benthic animals (also vegetation) and their number, size and weight, and the amount of sand and gravel. These data provide a basis for additional studies that includes sampling of the...
By
Alaska Science Center

Counts and Abdominal Profile Indices of Wintering Emperor Geese (Anser canagicus) at Three Islands in Alaska, 2003 and 2015-2017 Counts and Abdominal Profile Indices of Wintering Emperor Geese (Anser canagicus) at Three Islands in Alaska, 2003 and 2015-2017

These data are in two tables related to surveys conducted on wintering Emperor Geese in Alaska. Surveys counting the number of wintering Emperor Geese were conducted on Shemya Island in 2003 and 2016, and on Adak Island in 2016-2017. Data on abdominal profile indices (body condition) of Emperor Geese were collected on Shemya Island in 2016, on Adak Island in 2016-2017, and on Kodiak...
By
Ecosystems Mission Area, Alaska Science Center

Data and Model-based Estimates from Black Brant (Branta bernicla nigricans) Fall Age Ratio Surveys at Izembek Lagoon, Alaska Data and Model-based Estimates from Black Brant (Branta bernicla nigricans) Fall Age Ratio Surveys at Izembek Lagoon, Alaska

These data are in three tables relating to fall age ratios (number of juvenile birds : total birds aged) of Black Brant (Branta bernicla nigricans) staging in Izembek Lagoon, Alaska, since 1963. The first table is observation data for the age classes of Black Brant during surveys, and associated survey characteristics. Two tables provide model-based estimates of age ratios by year along...
By
Alaska Science Center

Stable Isotope Data from Tundra Swan (Cygnus columbianus) Feathers, Alaska, 2008 and 2010 Stable Isotope Data from Tundra Swan (Cygnus columbianus) Feathers, Alaska, 2008 and 2010

These data are in a single table that provides date and location information of Tundra Swans (Cygnus columbianus) that were sampled in Alaska for feathers that were subsequently used in a stable isotope analysis. Results of deuterium, nitrogen, and carbon stable isotope analysis of feathers are provided.
By
Alaska Science Center

Influenza A Virus Persistence Data from an Urban Wetland in Anchorage, Alaska, 2018-2019 Influenza A Virus Persistence Data from an Urban Wetland in Anchorage, Alaska, 2018-2019

This dataset is three tables with details of samples and aliquots of waterfowl feces deposited in filtered surface water collected from an urban waterbody in Anchorage, Alaska in 2018-2019. Sample vials were submerged underwater in the same waterbody from which the samples were collected and the samples were tested for the presence and viability of influenza A virus. Temperature data and...
By
Alaska Science Center

Spectacled Eider (Somateria fischeri) Microsatellite and Mitochondrial DNA Data, 2014-2018, Alaska and Russia Spectacled Eider (Somateria fischeri) Microsatellite and Mitochondrial DNA Data, 2014-2018, Alaska and Russia

This data set describes nuclear microsatellite genotypes derived from ten autosomal loci (Aph8, Aph16, Cmo7, Cmo9, Hhi5, Sfi10, Smo4, Smo6, Smo8, Smo12) and nucleotide sequence data derived from one mitochondrial DNA locus (control region). A total of 262 Spectacled Eiders were examined for this study. Samples were collected at Indigirka and Chaun River Deltas, Russia, and Yukon...
By
Ecosystems Mission Area, Alaska Science Center, Molecular Ecology Laboratory

Below are multimedia items associated with this project.

No results found.

Below are publications associated with this project.

Filter Total Items: 184

Emperor geese (Anser canagicus) are exposed to a diversity of influenza A viruses, are infected during the non-breeding period and contribute to intercontinental viral dispersal Emperor geese (Anser canagicus) are exposed to a diversity of influenza A viruses, are infected during the non-breeding period and contribute to intercontinental viral dispersal

Emperor geese (Anser canagicus) are endemic to coastal areas within Beringia and have previously been found to have antibodies to or to be infected with influenza A viruses (IAVs) in Alaska. In this study, we use virological, serological and tracking data to further elucidate the role of emperor geese in the ecology of IAVs in Beringia during the non‐breeding period. Specifically, we...
Authors
Andrew M. Ramey, Brian D. Uher-Koch, Andrew B. Reeves, Joel A. Schmutz, Rebecca L. Poulson, David E. Stallknecht
By
Ecosystems Mission Area, Alaska Science Center

The black brant population is declining based on mark recapture The black brant population is declining based on mark recapture

Annual survival and recruitment in black brant (Branta bernicla nigricans) have declined since the 1990s, yet aerial surveys of the global population have been stable or even increasing over the past decade. We used a combination of a Lincoln estimator based on harvest information and band recoveries, and marked‐unmarked ratios in bag checks in 1 harvest area in Mexico to estimate the...
Authors
James S. Sedinger, Thomas V. Riecke, Alan G. Leach, David H. Ward
By
Ecosystems Mission Area, Alaska Science Center

Spatial distribution of band recoveries of black brant Spatial distribution of band recoveries of black brant

On average, band recovery rates of adult black brant (Branta bernicla nigricans) more than doubled between the 2000s and 2010s. However, the spatial distribution of band recoveries of black brant has not been reported. Our objective was to describe the spatial distribution of band recoveries of black brant since 1990. We found that Alaska, California, and Mexico accounted for ≥89% of...
Authors
Alan G. Leach, David H. Ward, James S. Sedinger, Thomas V. Riecke, Jerry W. Hupp, Robert J. Ritchie
By
Ecosystems Mission Area, Alaska Science Center

Non‐linear effect of sea ice: Spectacled Eider survival declines at both extremes of the ice spectrum Non‐linear effect of sea ice: Spectacled Eider survival declines at both extremes of the ice spectrum

Understanding the relationship between environmental factors and vital rates is an important step in predicting a species’ response to environmental change. Species associated with sea ice are of particular concern because sea ice is projected to decrease rapidly in polar environments with continued levels of greenhouse gas emissions. The relationship between sea ice and the vital rates...
Authors
Katherine S. Christie, Tuula E. Hollmen, Paul L. Flint, David C. Douglas
By
Ecosystems Mission Area, Alaska Science Center

Introduction of Eurasian-origin H8N4 influenza A virus into North America via migratory birds Introduction of Eurasian-origin H8N4 influenza A virus into North America via migratory birds

We identified a Eurasian-origin influenza A(H8N4) virus in North America by sampling wild birds in western Alaska, USA. Evidence for repeated introductions of influenza A viruses into North America by migratory birds suggests that intercontinental dispersal might not be exceedingly rare and that our understanding of viral establishment is incomplete.
Authors
Andrew M. Ramey, Andrew B. Reeves, Tyrone F. Donnelly, Rebecca L. Poulson, David E. Stallknecht
By
Ecosystems Mission Area, Alaska Science Center

Genetic evidence supports sporadic and independent introductions of subtype H5 low pathogenic avian influenza A viruses from wild birds to domestic poultry in North America Genetic evidence supports sporadic and independent introductions of subtype H5 low pathogenic avian influenza A viruses from wild birds to domestic poultry in North America

Wild bird–origin influenza A viruses (IAVs or avian influenza) have led to sporadic outbreaks among domestic poultry in the United States (US) and Canada, resulting in economic losses through the implementation of costly containment practices and destruction of birds. We used evolutionary analyses of virus sequence data to determine that 78 H5 low pathogenic avian influenza viruses...
Authors
Lei Li, Andrew S. Bowman, Thomas J. DeLiberto, Mary L. Killian, Scott Krauss, Jacqueline M. Nolting, Mia Kim Torchetti, Andrew M. Ramey, Andrew B. Reeves, David E. Stallknecht, Richard J. Webby, Xiu-Feng Wan
By
Ecosystems Mission Area, Alaska Science Center

Below are news stories associated with this project.

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