For questions about this project, please contact the speaker, John Crusius at jcrusius@usgs.gov, (206) 543-6978. The northern Gulf of Alaska (GoA) maintains a productive ecosystem, with commercially important fisheries.
John Crusius (Former Employee)
Science and Products
Webinar: Impacts of Climate Change and Melting Glaciers on Coastal Ecosystems in the Nearshore Waters of the Gulf of Alaska
Impacts of Climate Change and Melting Glaciers on Coastal Ecosystems in the Gulf of Alaska
Gulf of Alaska Shelf and Slope Iron and Nitrate Data, Copper River Region, 2010
Coastal Groundwater Chemical Data from the North and South Shores of Long Island, New York
Dissolved Fe supply to the central Gulf of Alaska is inferred to be derived from Alaskan glacial dust that is not resolved by dust transport models
Depth of the vadose zone controls aquifer biogeochemical conditions and extent of anthropogenic nitrogen removal
Seasonal and spatial variabilities in northern Gulf of Alaska surface water iron concentrations driven by shelf sediment resuspension, glacial meltwater, a Yakutat eddy, and dust
Atmospheric deposition of glacial iron in the Gulf of Alaska impacted by the position of the Aleutian Low
High-latitude dust in the Earth system
Substantial nitrous oxide emissions from intertidal sediments and groundwater in anthropogenically-impacted West Falmouth Harbor, Massachusetts
Centennial changes in North Pacific anoxia linked to tropical trade winds
Estuarine removal of glacial iron and implications for iron fluxes to the ocean
Continuous resistivity profiling data from Great South Bay, Long Island, New York
Continuous resistivity profiling data from Northport Harbor and Manhasset Bay, Long Island, New York
Continuous resistivity profiling data from the Corsica River Estuary, Maryland
Glacial flour dust storms in the Gulf of Alaska: hydrologic and meteorological controls and their importance as a source of bioavailable iron
For questions about this project, please contact the speaker, John Crusius at jcrusius@usgs.gov, (206) 543-6978. The northern Gulf of Alaska (GoA) maintains a productive ecosystem, with commercially important fisheries.
Sheridan glacier and Sheridan river from the air, rich in fine glacial flour.
Sheridan glacier and Sheridan river from the air, rich in fine glacial flour.
Snow drifts in early May at the mouth of the Copper River. Just a mile or two away from here, at the same elevation, there was no snow. Shown are Woods Hole (MA) scientists Andrew Schroth (left) and Kevin Kroeger (right).
Snow drifts in early May at the mouth of the Copper River. Just a mile or two away from here, at the same elevation, there was no snow. Shown are Woods Hole (MA) scientists Andrew Schroth (left) and Kevin Kroeger (right).
Sunset from the coastal Gulf of Alaska.
Sunset from the coastal Gulf of Alaska.
Surface-water dissolved iron sampling from a ship, while underway, through Teflon-lined tubing secured to a rope, towed from one meter below the surface, using a continuously pumping system.
Surface-water dissolved iron sampling from a ship, while underway, through Teflon-lined tubing secured to a rope, towed from one meter below the surface, using a continuously pumping system.
Sunrise behind Kayak Island, near the mouth of the Copper River, coastal Gulf of Alaska.
Sunrise behind Kayak Island, near the mouth of the Copper River, coastal Gulf of Alaska.
Sunrise behind Kayak Island, near the mouth of the Copper River, coastal Gulf of Alaska.
Sunrise behind Kayak Island, near the mouth of the Copper River, coastal Gulf of Alaska.
Harbor in Cordova, AK.
Harbor in Cordova, AK.
Mountains towering above the mouth of the Copper River from the coastal Gulf of Alaska.
Mountains towering above the mouth of the Copper River from the coastal Gulf of Alaska.
Science and Products
Webinar: Impacts of Climate Change and Melting Glaciers on Coastal Ecosystems in the Nearshore Waters of the Gulf of Alaska
Impacts of Climate Change and Melting Glaciers on Coastal Ecosystems in the Gulf of Alaska
Gulf of Alaska Shelf and Slope Iron and Nitrate Data, Copper River Region, 2010
Coastal Groundwater Chemical Data from the North and South Shores of Long Island, New York
Dissolved Fe supply to the central Gulf of Alaska is inferred to be derived from Alaskan glacial dust that is not resolved by dust transport models
Depth of the vadose zone controls aquifer biogeochemical conditions and extent of anthropogenic nitrogen removal
Seasonal and spatial variabilities in northern Gulf of Alaska surface water iron concentrations driven by shelf sediment resuspension, glacial meltwater, a Yakutat eddy, and dust
Atmospheric deposition of glacial iron in the Gulf of Alaska impacted by the position of the Aleutian Low
High-latitude dust in the Earth system
Substantial nitrous oxide emissions from intertidal sediments and groundwater in anthropogenically-impacted West Falmouth Harbor, Massachusetts
Centennial changes in North Pacific anoxia linked to tropical trade winds
Estuarine removal of glacial iron and implications for iron fluxes to the ocean
Continuous resistivity profiling data from Great South Bay, Long Island, New York
Continuous resistivity profiling data from Northport Harbor and Manhasset Bay, Long Island, New York
Continuous resistivity profiling data from the Corsica River Estuary, Maryland
Glacial flour dust storms in the Gulf of Alaska: hydrologic and meteorological controls and their importance as a source of bioavailable iron
For questions about this project, please contact the speaker, John Crusius at jcrusius@usgs.gov, (206) 543-6978. The northern Gulf of Alaska (GoA) maintains a productive ecosystem, with commercially important fisheries.
For questions about this project, please contact the speaker, John Crusius at jcrusius@usgs.gov, (206) 543-6978. The northern Gulf of Alaska (GoA) maintains a productive ecosystem, with commercially important fisheries.
Sheridan glacier and Sheridan river from the air, rich in fine glacial flour.
Sheridan glacier and Sheridan river from the air, rich in fine glacial flour.
Snow drifts in early May at the mouth of the Copper River. Just a mile or two away from here, at the same elevation, there was no snow. Shown are Woods Hole (MA) scientists Andrew Schroth (left) and Kevin Kroeger (right).
Snow drifts in early May at the mouth of the Copper River. Just a mile or two away from here, at the same elevation, there was no snow. Shown are Woods Hole (MA) scientists Andrew Schroth (left) and Kevin Kroeger (right).
Sunset from the coastal Gulf of Alaska.
Sunset from the coastal Gulf of Alaska.
Surface-water dissolved iron sampling from a ship, while underway, through Teflon-lined tubing secured to a rope, towed from one meter below the surface, using a continuously pumping system.
Surface-water dissolved iron sampling from a ship, while underway, through Teflon-lined tubing secured to a rope, towed from one meter below the surface, using a continuously pumping system.
Sunrise behind Kayak Island, near the mouth of the Copper River, coastal Gulf of Alaska.
Sunrise behind Kayak Island, near the mouth of the Copper River, coastal Gulf of Alaska.
Sunrise behind Kayak Island, near the mouth of the Copper River, coastal Gulf of Alaska.
Sunrise behind Kayak Island, near the mouth of the Copper River, coastal Gulf of Alaska.
Harbor in Cordova, AK.
Harbor in Cordova, AK.
Mountains towering above the mouth of the Copper River from the coastal Gulf of Alaska.
Mountains towering above the mouth of the Copper River from the coastal Gulf of Alaska.