Using remote sensing through the ice to determine how much water was in the Nome River in the winter.
Fish and aquatic habitats in Alaska support important commercial, sport, and subsistence fisheries and provide forage fish that support wildlife populations. The USGS Alaska Science Center conducts interdisciplinary research to inform local, state, federal, and international policy makers regarding conservation of fish, aquatic species, and their habitats. We work collaboratively with hydrologists, geologists and other biologists to study fish and aquatic systems in an ecosystem based framework. The goal of our current research effort is to improve our understanding of the biocomplexity, resilience, and function of aquatic ecosystems to better inform future predictions of fish and aquatic ecosystems as they respond to a changing environment.
Return to Ecosystems
- Assessing Heat Stress in Migrating Yukon River Chinook Salmon
- Nearshore Fish Surveys in the Beaufort Sea
- Sockeye Salmon Migrating at the Northern Edge of Their Distribution
- Effect of Elodea spp. on Fish Performance Mediated Through Food Web Interactions
- Hydro-Ecology of Arctic Thawing (HEAT): Ecology or Hydrology
- Primary production sources and bottom-up limitations in nearshore ecosystems
- Lake Trout Biochronologies as Long-term Climate and Productivity Indicators in Alaska Lake Ecosystems
- Ecosystem Shifts in Arctic Seas
- Condition of Forage Fish in Prince William Sound during the marine heatwave
- Arctic Lake Food Webs
- Winter Habitat of juvenile Dolly Varden in the Canning River
- Beavers Impacting Tundra Ecosystems (BITE)
Below are other science projects associated with this project.
Below are data or web applications associated with this project.
Below are multimedia items associated with this project.
Using remote sensing through the ice to determine how much water was in the Nome River in the winter.
Using remote sensing through the ice to determine how much water was in the Nome River in the winter.
Using remote sensing through the ice to determine how much water was in the Nome River in the winter.
Water sampling on the Tanana River. Notice the poles of the piezometers installed in the river. This project was to see chum salmon spawning habitat in the winter.
Water sampling on the Tanana River. Notice the poles of the piezometers installed in the river. This project was to see chum salmon spawning habitat in the winter.
Biologist standing in the Tanana River sampling the open water. This project was to see chum salmon spawning habitat in the winter.
Biologist standing in the Tanana River sampling the open water. This project was to see chum salmon spawning habitat in the winter.
Biologist standing next to the shore getting ready to sample water in the Tanana River. This project was to see chum salmon spawning habitat in the winter.
Biologist standing next to the shore getting ready to sample water in the Tanana River. This project was to see chum salmon spawning habitat in the winter.
Biologist reading water meter in the Tanana River in November, 2008. This project was to see chum salmon spawning habitat in the winter.
Biologist reading water meter in the Tanana River in November, 2008. This project was to see chum salmon spawning habitat in the winter.
Chum salmon eggs in the gravel in the Tanana River. This project was to see chum salmon spawning habitat in the winter.
Chum salmon eggs in the gravel in the Tanana River. This project was to see chum salmon spawning habitat in the winter.
Biologists looking from a bluff over the Tanana River in November 2008. This project was to see chum salmon spawning habitat in the winter.
Biologists looking from a bluff over the Tanana River in November 2008. This project was to see chum salmon spawning habitat in the winter.
A helicopter used to transport personnel to the Tanana River to winter sample chum salmon spawning habitat.
A helicopter used to transport personnel to the Tanana River to winter sample chum salmon spawning habitat.
The northern lights over the Selawik River, Alaska
The northern lights over the Selawik River, Alaska
A moose on the shore of the Selawik River. This moose was present during the Sheefish sediment impact study field work.
A moose on the shore of the Selawik River. This moose was present during the Sheefish sediment impact study field work.
Biologists clip the tip of one of the ventral fins of a sheefish that is in a cradle in the Selawik River, Alaska. This study was collecting genetic samples to help find impacts of fine sediment on sheefish. The results were no impacts due to low amounts of sediments present.
Biologists clip the tip of one of the ventral fins of a sheefish that is in a cradle in the Selawik River, Alaska. This study was collecting genetic samples to help find impacts of fine sediment on sheefish. The results were no impacts due to low amounts of sediments present.
Scenic view of the Matanuska River with a bridge spanning across. This photo was part of an erosion project on the river.
Scenic view of the Matanuska River with a bridge spanning across. This photo was part of an erosion project on the river.
Measuring an Arctic Grayling from the Mackenzie River in Canada. This was part of an Arctic Cisco project.
Measuring an Arctic Grayling from the Mackenzie River in Canada. This was part of an Arctic Cisco project.
Measuring an Arctic Grayling from the Mackenzie River in Canada. This was part of an Arctic Cisco project.
Measuring an Arctic Grayling from the Mackenzie River in Canada. This was part of an Arctic Cisco project.
Scenic photo of McKinley Lake near Cordova, Alaska
Scenic photo of McKinley Lake near Cordova, Alaska
Aerial view of the Pilgrim River field camp
Aerial view of the Pilgrim River field camp
Aerial view of the Pilgrim River
Aerial view of the Pilgrim River looking towards the mountains.
Aerial view of the Pilgrim River looking towards the mountains.
A morning fog on the Pilgrim River. The camp is from the thermal ecology of sockeye salmon project.
A morning fog on the Pilgrim River. The camp is from the thermal ecology of sockeye salmon project.
Biologists are checking a fyke net in the Pilgrim River for juvenile sockeye salmon to tag with archival tags. Unfortunately none were large enough for tagging.
Biologists are checking a fyke net in the Pilgrim River for juvenile sockeye salmon to tag with archival tags. Unfortunately none were large enough for tagging.
Below are publications associated with this project.
Strontium isotopes in otoliths of a non-migratory fish (slimy sculpin): Implications for provenance studies
Examining the utility of bulk otolith δ13C to describe diet in wild-caught black rockfish Sebastes melanops
Physiological and ecological effects of increasing temperature on fish production in lakes of Arctic Alaska
Estuarine environments as rearing habitats for juvenile Coho Salmon in contrasting south-central Alaska watersheds
Genetics, recruitment, and migration patterns of Arctic Cisco (Coregonus autumnalis) in the Colville River, Alaska and Mackenzie River, Canada
Species and life-history affects the utility of otolith chemical composition to determine natal stream-of-origin in Pacific salmon
Modeled distribution and abundance of a pelagic seabird reveal trends in relation to fisheries
New insights into the diets of harbor seals in the Salish Sea revealed by quantitative fatty acid signature analysis
Adaptive strategies and life history characteristics in a warming climate: salmon in the Arctic?
Lake trout otolith chronologies as multidecadal indicators of high-latitude freshwater ecosystems
Terrestrial and marine trophic pathways support young-of-year growth in a nearshore Arctic fish
Variability in expression of anadromy by female Oncorhynchus mykiss within a river network
Fish and aquatic habitats in Alaska support important commercial, sport, and subsistence fisheries and provide forage fish that support wildlife populations. The USGS Alaska Science Center conducts interdisciplinary research to inform local, state, federal, and international policy makers regarding conservation of fish, aquatic species, and their habitats. We work collaboratively with hydrologists, geologists and other biologists to study fish and aquatic systems in an ecosystem based framework. The goal of our current research effort is to improve our understanding of the biocomplexity, resilience, and function of aquatic ecosystems to better inform future predictions of fish and aquatic ecosystems as they respond to a changing environment.
Return to Ecosystems
- Assessing Heat Stress in Migrating Yukon River Chinook Salmon
- Nearshore Fish Surveys in the Beaufort Sea
- Sockeye Salmon Migrating at the Northern Edge of Their Distribution
- Effect of Elodea spp. on Fish Performance Mediated Through Food Web Interactions
- Hydro-Ecology of Arctic Thawing (HEAT): Ecology or Hydrology
- Primary production sources and bottom-up limitations in nearshore ecosystems
- Lake Trout Biochronologies as Long-term Climate and Productivity Indicators in Alaska Lake Ecosystems
- Ecosystem Shifts in Arctic Seas
- Condition of Forage Fish in Prince William Sound during the marine heatwave
- Arctic Lake Food Webs
- Winter Habitat of juvenile Dolly Varden in the Canning River
- Beavers Impacting Tundra Ecosystems (BITE)
Below are other science projects associated with this project.
Below are data or web applications associated with this project.
Below are multimedia items associated with this project.
Using remote sensing through the ice to determine how much water was in the Nome River in the winter.
Using remote sensing through the ice to determine how much water was in the Nome River in the winter.
Using remote sensing through the ice to determine how much water was in the Nome River in the winter.
Using remote sensing through the ice to determine how much water was in the Nome River in the winter.
Water sampling on the Tanana River. Notice the poles of the piezometers installed in the river. This project was to see chum salmon spawning habitat in the winter.
Water sampling on the Tanana River. Notice the poles of the piezometers installed in the river. This project was to see chum salmon spawning habitat in the winter.
Biologist standing in the Tanana River sampling the open water. This project was to see chum salmon spawning habitat in the winter.
Biologist standing in the Tanana River sampling the open water. This project was to see chum salmon spawning habitat in the winter.
Biologist standing next to the shore getting ready to sample water in the Tanana River. This project was to see chum salmon spawning habitat in the winter.
Biologist standing next to the shore getting ready to sample water in the Tanana River. This project was to see chum salmon spawning habitat in the winter.
Biologist reading water meter in the Tanana River in November, 2008. This project was to see chum salmon spawning habitat in the winter.
Biologist reading water meter in the Tanana River in November, 2008. This project was to see chum salmon spawning habitat in the winter.
Chum salmon eggs in the gravel in the Tanana River. This project was to see chum salmon spawning habitat in the winter.
Chum salmon eggs in the gravel in the Tanana River. This project was to see chum salmon spawning habitat in the winter.
Biologists looking from a bluff over the Tanana River in November 2008. This project was to see chum salmon spawning habitat in the winter.
Biologists looking from a bluff over the Tanana River in November 2008. This project was to see chum salmon spawning habitat in the winter.
A helicopter used to transport personnel to the Tanana River to winter sample chum salmon spawning habitat.
A helicopter used to transport personnel to the Tanana River to winter sample chum salmon spawning habitat.
The northern lights over the Selawik River, Alaska
The northern lights over the Selawik River, Alaska
A moose on the shore of the Selawik River. This moose was present during the Sheefish sediment impact study field work.
A moose on the shore of the Selawik River. This moose was present during the Sheefish sediment impact study field work.
Biologists clip the tip of one of the ventral fins of a sheefish that is in a cradle in the Selawik River, Alaska. This study was collecting genetic samples to help find impacts of fine sediment on sheefish. The results were no impacts due to low amounts of sediments present.
Biologists clip the tip of one of the ventral fins of a sheefish that is in a cradle in the Selawik River, Alaska. This study was collecting genetic samples to help find impacts of fine sediment on sheefish. The results were no impacts due to low amounts of sediments present.
Scenic view of the Matanuska River with a bridge spanning across. This photo was part of an erosion project on the river.
Scenic view of the Matanuska River with a bridge spanning across. This photo was part of an erosion project on the river.
Measuring an Arctic Grayling from the Mackenzie River in Canada. This was part of an Arctic Cisco project.
Measuring an Arctic Grayling from the Mackenzie River in Canada. This was part of an Arctic Cisco project.
Measuring an Arctic Grayling from the Mackenzie River in Canada. This was part of an Arctic Cisco project.
Measuring an Arctic Grayling from the Mackenzie River in Canada. This was part of an Arctic Cisco project.
Scenic photo of McKinley Lake near Cordova, Alaska
Scenic photo of McKinley Lake near Cordova, Alaska
Aerial view of the Pilgrim River field camp
Aerial view of the Pilgrim River field camp
Aerial view of the Pilgrim River
Aerial view of the Pilgrim River looking towards the mountains.
Aerial view of the Pilgrim River looking towards the mountains.
A morning fog on the Pilgrim River. The camp is from the thermal ecology of sockeye salmon project.
A morning fog on the Pilgrim River. The camp is from the thermal ecology of sockeye salmon project.
Biologists are checking a fyke net in the Pilgrim River for juvenile sockeye salmon to tag with archival tags. Unfortunately none were large enough for tagging.
Biologists are checking a fyke net in the Pilgrim River for juvenile sockeye salmon to tag with archival tags. Unfortunately none were large enough for tagging.
Below are publications associated with this project.