USGS hydrologist Dan Thomas shows media how the acoustic Doppler current profiler (on the right) measures streamflow on the Red River in Fargo.
Marisa Lubeck (Former Employee)
Science and Products
USGS hydrologist Dan Thomas shows media how the acoustic Doppler current profiler (on the right) measures streamflow on the Red River in Fargo.
The wet, subtropical wilderness of Everglades National Park is home to a diversity of Floridian wildlife, but one invader is causing severe changes in these native animal populations. Many of the park’s mammals are declining dramatically as a result of invasive Burmese pythons, according to a recent study by U.S. Geological Survey scientists and partners.
The wet, subtropical wilderness of Everglades National Park is home to a diversity of Floridian wildlife, but one invader is causing severe changes in these native animal populations. Many of the park’s mammals are declining dramatically as a result of invasive Burmese pythons, according to a recent study by U.S. Geological Survey scientists and partners.
Specialized tanks at the USGS Tunison Lab hold young Atlantic salmon until they are released in Lake Ontario tributaries.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
Specialized tanks at the USGS Tunison Lab hold young Atlantic salmon until they are released in Lake Ontario tributaries.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
These two-day old Atlantic salmon were hatched at the USGS Tunison Lab and will eventually be released in Lake Ontario tributaries.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
These two-day old Atlantic salmon were hatched at the USGS Tunison Lab and will eventually be released in Lake Ontario tributaries.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
These two-day old Atlantic salmon were hatched at the USGS Tunison Lab and will eventually be released in Lake Ontario tributaries.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
These two-day old Atlantic salmon were hatched at the USGS Tunison Lab and will eventually be released in Lake Ontario tributaries.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
Funding for the USGS Tunison Laboratory's UV water treatment facility and salmon rearing capabilities come from the Great Lakes Restoration Initiative and from a 2005 Congressional appropriation. Herring splash in oudoor containment channels beside the new facility.
Funding for the USGS Tunison Laboratory's UV water treatment facility and salmon rearing capabilities come from the Great Lakes Restoration Initiative and from a 2005 Congressional appropriation. Herring splash in oudoor containment channels beside the new facility.
USGS scientist Rich Chiavelli examines cisco fish eggs that are being reared at the Tunison Lab's new UV water treatment facility.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
USGS scientist Rich Chiavelli examines cisco fish eggs that are being reared at the Tunison Lab's new UV water treatment facility.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
Fish eggs are reared at the Tunison Lab's new UV water treatment facility.
Fish eggs are reared at the Tunison Lab's new UV water treatment facility.
Cisco fish eggs are reared at the Tunison Lab's new UV water treatment facility. Testing on the eggs will help scientists determine how to best sterilize them and what water conditions will sustain them in the wild.
Cisco fish eggs are reared at the Tunison Lab's new UV water treatment facility. Testing on the eggs will help scientists determine how to best sterilize them and what water conditions will sustain them in the wild.
This photo shows an interior view of the USGS Tunison Lab's new UV water treament facility. The UV treatment system is on the bottom left of the photo.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
This photo shows an interior view of the USGS Tunison Lab's new UV water treament facility. The UV treatment system is on the bottom left of the photo.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
USGS scientist George Ketola speaks to citizens and media at a January open house event showcasing the Tunison Lab's new UV water treament facility.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
USGS scientist George Ketola speaks to citizens and media at a January open house event showcasing the Tunison Lab's new UV water treament facility.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
White-nose syndrome is a deadly disease in North American bats that has been spreading rapidly since its 2006 discovery in N.Y. State. Thus far, bat declines in the northeastern U.S. have exceeded 80%. For the first time, scientists with the U.S.
White-nose syndrome is a deadly disease in North American bats that has been spreading rapidly since its 2006 discovery in N.Y. State. Thus far, bat declines in the northeastern U.S. have exceeded 80%. For the first time, scientists with the U.S.
USGS scientist emeritus Tom Todd welcomes the new USGS Research Vessel Muskie with bagpipe music at the vessel's christening and commissioning ceremony.
USGS scientist emeritus Tom Todd welcomes the new USGS Research Vessel Muskie with bagpipe music at the vessel's christening and commissioning ceremony.
The USGS GLSC's new R/V Muskie
The USGS GLSC's new R/V Muskie
New USGS Research Vessel Muskie on the day of its 2011 christening and commissioning ceremony.
New USGS Research Vessel Muskie on the day of its 2011 christening and commissioning ceremony.
USGS Deputy Director Suzette Kimball christens the new USGS Research Vessel Muskie by breaking a bottle of champagne across its bow.
USGS Deputy Director Suzette Kimball christens the new USGS Research Vessel Muskie by breaking a bottle of champagne across its bow.
The American Legion Color Guard (Sandusky Post 83) fires a gun salute off the new USGS Research Vessel Muskie during its christening and commissioing ceremony.
The American Legion Color Guard (Sandusky Post 83) fires a gun salute off the new USGS Research Vessel Muskie during its christening and commissioing ceremony.
The USGS Research Vessel Musky II rests near its new replacement, the R/V Muskie, at the Sandusky Yacht Club.
The USGS Research Vessel Musky II rests near its new replacement, the R/V Muskie, at the Sandusky Yacht Club.
New USGS research vessel Muskie ;includes all the necessary features to support a wide variety of aquatic science projects in the open water and near-shore areas of Lake Erie, including electronic navigational and scientific equipment, onboard sample processing and storage facilities, and a 3G/4G cellular modem and WiFi communications network.
New USGS research vessel Muskie ;includes all the necessary features to support a wide variety of aquatic science projects in the open water and near-shore areas of Lake Erie, including electronic navigational and scientific equipment, onboard sample processing and storage facilities, and a 3G/4G cellular modem and WiFi communications network.
Tim Cherry, captain of the new USGS Research Vessel Muskie, admires the ship during its 2011 christening and commissioning ceremony.
Tim Cherry, captain of the new USGS Research Vessel Muskie, admires the ship during its 2011 christening and commissioning ceremony.
Science and Products
USGS hydrologist Dan Thomas shows media how the acoustic Doppler current profiler (on the right) measures streamflow on the Red River in Fargo.
USGS hydrologist Dan Thomas shows media how the acoustic Doppler current profiler (on the right) measures streamflow on the Red River in Fargo.
The wet, subtropical wilderness of Everglades National Park is home to a diversity of Floridian wildlife, but one invader is causing severe changes in these native animal populations. Many of the park’s mammals are declining dramatically as a result of invasive Burmese pythons, according to a recent study by U.S. Geological Survey scientists and partners.
The wet, subtropical wilderness of Everglades National Park is home to a diversity of Floridian wildlife, but one invader is causing severe changes in these native animal populations. Many of the park’s mammals are declining dramatically as a result of invasive Burmese pythons, according to a recent study by U.S. Geological Survey scientists and partners.
Specialized tanks at the USGS Tunison Lab hold young Atlantic salmon until they are released in Lake Ontario tributaries.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
Specialized tanks at the USGS Tunison Lab hold young Atlantic salmon until they are released in Lake Ontario tributaries.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
These two-day old Atlantic salmon were hatched at the USGS Tunison Lab and will eventually be released in Lake Ontario tributaries.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
These two-day old Atlantic salmon were hatched at the USGS Tunison Lab and will eventually be released in Lake Ontario tributaries.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
These two-day old Atlantic salmon were hatched at the USGS Tunison Lab and will eventually be released in Lake Ontario tributaries.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
These two-day old Atlantic salmon were hatched at the USGS Tunison Lab and will eventually be released in Lake Ontario tributaries.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
Funding for the USGS Tunison Laboratory's UV water treatment facility and salmon rearing capabilities come from the Great Lakes Restoration Initiative and from a 2005 Congressional appropriation. Herring splash in oudoor containment channels beside the new facility.
Funding for the USGS Tunison Laboratory's UV water treatment facility and salmon rearing capabilities come from the Great Lakes Restoration Initiative and from a 2005 Congressional appropriation. Herring splash in oudoor containment channels beside the new facility.
USGS scientist Rich Chiavelli examines cisco fish eggs that are being reared at the Tunison Lab's new UV water treatment facility.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
USGS scientist Rich Chiavelli examines cisco fish eggs that are being reared at the Tunison Lab's new UV water treatment facility.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
Fish eggs are reared at the Tunison Lab's new UV water treatment facility.
Fish eggs are reared at the Tunison Lab's new UV water treatment facility.
Cisco fish eggs are reared at the Tunison Lab's new UV water treatment facility. Testing on the eggs will help scientists determine how to best sterilize them and what water conditions will sustain them in the wild.
Cisco fish eggs are reared at the Tunison Lab's new UV water treatment facility. Testing on the eggs will help scientists determine how to best sterilize them and what water conditions will sustain them in the wild.
This photo shows an interior view of the USGS Tunison Lab's new UV water treament facility. The UV treatment system is on the bottom left of the photo.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
This photo shows an interior view of the USGS Tunison Lab's new UV water treament facility. The UV treatment system is on the bottom left of the photo.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
USGS scientist George Ketola speaks to citizens and media at a January open house event showcasing the Tunison Lab's new UV water treament facility.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
USGS scientist George Ketola speaks to citizens and media at a January open house event showcasing the Tunison Lab's new UV water treament facility.
A new, sophisticated fish rearing facility in Cortland, N.Y. will help restore Atlantic salmon, bloater, and lake herring to Lake Ontario, strengthening the local ecosystem and economy.
White-nose syndrome is a deadly disease in North American bats that has been spreading rapidly since its 2006 discovery in N.Y. State. Thus far, bat declines in the northeastern U.S. have exceeded 80%. For the first time, scientists with the U.S.
White-nose syndrome is a deadly disease in North American bats that has been spreading rapidly since its 2006 discovery in N.Y. State. Thus far, bat declines in the northeastern U.S. have exceeded 80%. For the first time, scientists with the U.S.
USGS scientist emeritus Tom Todd welcomes the new USGS Research Vessel Muskie with bagpipe music at the vessel's christening and commissioning ceremony.
USGS scientist emeritus Tom Todd welcomes the new USGS Research Vessel Muskie with bagpipe music at the vessel's christening and commissioning ceremony.
The USGS GLSC's new R/V Muskie
The USGS GLSC's new R/V Muskie
New USGS Research Vessel Muskie on the day of its 2011 christening and commissioning ceremony.
New USGS Research Vessel Muskie on the day of its 2011 christening and commissioning ceremony.
USGS Deputy Director Suzette Kimball christens the new USGS Research Vessel Muskie by breaking a bottle of champagne across its bow.
USGS Deputy Director Suzette Kimball christens the new USGS Research Vessel Muskie by breaking a bottle of champagne across its bow.
The American Legion Color Guard (Sandusky Post 83) fires a gun salute off the new USGS Research Vessel Muskie during its christening and commissioing ceremony.
The American Legion Color Guard (Sandusky Post 83) fires a gun salute off the new USGS Research Vessel Muskie during its christening and commissioing ceremony.
The USGS Research Vessel Musky II rests near its new replacement, the R/V Muskie, at the Sandusky Yacht Club.
The USGS Research Vessel Musky II rests near its new replacement, the R/V Muskie, at the Sandusky Yacht Club.
New USGS research vessel Muskie ;includes all the necessary features to support a wide variety of aquatic science projects in the open water and near-shore areas of Lake Erie, including electronic navigational and scientific equipment, onboard sample processing and storage facilities, and a 3G/4G cellular modem and WiFi communications network.
New USGS research vessel Muskie ;includes all the necessary features to support a wide variety of aquatic science projects in the open water and near-shore areas of Lake Erie, including electronic navigational and scientific equipment, onboard sample processing and storage facilities, and a 3G/4G cellular modem and WiFi communications network.
Tim Cherry, captain of the new USGS Research Vessel Muskie, admires the ship during its 2011 christening and commissioning ceremony.
Tim Cherry, captain of the new USGS Research Vessel Muskie, admires the ship during its 2011 christening and commissioning ceremony.