Photograph looking northwest towards Libby Dam and Lake Koocanusa on the Kootenai River near Libby, Montana.
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Libby Dam, Lake Koocanusa
Photograph looking northwest towards Libby Dam and Lake Koocanusa on the Kootenai River near Libby, Montana.
USGS employee taking surface water measurement at gage 11453500, CA
USGS employee taking surface water measurement at gage 11453500, CAUSGS employee taking surface water measurement at gage 11453500 Putah Creek near Guenoc, CA
USGS employee taking surface water measurement at gage 11453500, CA
USGS employee taking surface water measurement at gage 11453500, CAUSGS employee taking surface water measurement at gage 11453500 Putah Creek near Guenoc, CA
Dave Brower (left) and Taylor Nagleri (right) working on logging data
Dave Brower (left) and Taylor Nagleri (right) working on logging dataDave Brower (left) and Taylor Nagleri (right) working on logging data that was being collected by Rob Lorens in the stream (not pictured).
Dave Brower (left) and Taylor Nagleri (right) working on logging data
Dave Brower (left) and Taylor Nagleri (right) working on logging dataDave Brower (left) and Taylor Nagleri (right) working on logging data that was being collected by Rob Lorens in the stream (not pictured).
USGS 401723105400000 ANDREWS CREEK - LOCH, VALE-Rocky Mountains
Katy O’Donnell onboard the RV Landsteiner during a survey
Katy O’Donnell onboard the RV Landsteiner during a surveyKaty O’Donnell onboard the RV Landsteiner during a high-resolution water quality mapping survey. The boat is equipped with a flow-through system that pumps water onto the boat while underway and directs sample water to a multiparameter water quality sonde, thermosalinograph, fluorometers, nitrate and ammonium analyzers.
Katy O’Donnell onboard the RV Landsteiner during a survey
Katy O’Donnell onboard the RV Landsteiner during a surveyKaty O’Donnell onboard the RV Landsteiner during a high-resolution water quality mapping survey. The boat is equipped with a flow-through system that pumps water onto the boat while underway and directs sample water to a multiparameter water quality sonde, thermosalinograph, fluorometers, nitrate and ammonium analyzers.
Brian Bergamaschi and Katy O’Donnell onboard the RV Landsteiner
Brian Bergamaschi and Katy O’Donnell onboard the RV LandsteinerBrian Bergamaschi and Katy O’Donnell onboard the RV Landsteiner during a high-resolution water quality mapping survey. The boat is equipped with a flow-through system that pumps water onto the boat while underway and directs sample water to a multiparameter water quality sonde, thermosalinograph, fluorometers, nitrate and ammonium analyzers.
Brian Bergamaschi and Katy O’Donnell onboard the RV Landsteiner
Brian Bergamaschi and Katy O’Donnell onboard the RV LandsteinerBrian Bergamaschi and Katy O’Donnell onboard the RV Landsteiner during a high-resolution water quality mapping survey. The boat is equipped with a flow-through system that pumps water onto the boat while underway and directs sample water to a multiparameter water quality sonde, thermosalinograph, fluorometers, nitrate and ammonium analyzers.
Solar-powered LoRa cellular gateway
Solar-powered LoRa cellular gateway installed at Pepperwood Preserve to support water and soil moisture sensor deployments in the Santa Rosa, California area
Solar-powered LoRa cellular gateway installed at Pepperwood Preserve to support water and soil moisture sensor deployments in the Santa Rosa, California area
Image showing a conceptual model of the Truxton Basin and Hualapai Plateau groundwater-flow system in northwestern Arizona
Image showing a conceptual model of the Truxton Basin and Hualapai Plateau groundwater-flow system in northwestern ArizonaThis report includes five chapters. Chapter A (Mason, Knight, and others, 2020) is a summary of this multichapter volume and briefly describes the study area. Chapter B (Mason, Bills, and Macy, 2020) describes the geology and hydrology of the Truxton basin and Hualapai Plateau.
Image showing a conceptual model of the Truxton Basin and Hualapai Plateau groundwater-flow system in northwestern Arizona
Image showing a conceptual model of the Truxton Basin and Hualapai Plateau groundwater-flow system in northwestern ArizonaThis report includes five chapters. Chapter A (Mason, Knight, and others, 2020) is a summary of this multichapter volume and briefly describes the study area. Chapter B (Mason, Bills, and Macy, 2020) describes the geology and hydrology of the Truxton basin and Hualapai Plateau.
December 2020 USGS Active Groundwater Level Network Animation
December 2020 USGS Active Groundwater Level Network AnimationThe USGS Active Groundwater Level Network includes about 20,000 wells that have been measured by the USGS or USGS cooperators at least once within the past 13 months. The animation shows a daily snapshot of water-level statistics in the network for December 2020.
December 2020 USGS Active Groundwater Level Network Animation
December 2020 USGS Active Groundwater Level Network AnimationThe USGS Active Groundwater Level Network includes about 20,000 wells that have been measured by the USGS or USGS cooperators at least once within the past 13 months. The animation shows a daily snapshot of water-level statistics in the network for December 2020.
Brian Bergamaschi and Katy O’Donnell onboard the RV Landsteiner
Brian Bergamaschi and Katy O’Donnell onboard the RV LandsteinerBrian Bergamaschi and Katy O’Donnell onboard the RV Landsteiner during a high-resolution water quality mapping survey. The boat is equipped with a flow-through system that pumps water onto the boat while underway and directs sample water to a multiparameter water quality sonde, thermosalinograph, fluorometers, nitrate and ammonium analyzers.
Brian Bergamaschi and Katy O’Donnell onboard the RV Landsteiner
Brian Bergamaschi and Katy O’Donnell onboard the RV LandsteinerBrian Bergamaschi and Katy O’Donnell onboard the RV Landsteiner during a high-resolution water quality mapping survey. The boat is equipped with a flow-through system that pumps water onto the boat while underway and directs sample water to a multiparameter water quality sonde, thermosalinograph, fluorometers, nitrate and ammonium analyzers.
Hydrologist downloading water-level sensor deployed for summer
Hydrologist downloading water-level sensor deployed for summerHydrologist downloading water-level sensor deployed for summer as part of an ecohydro study in *H.J. Andrews Experimental Forest. *USGS Integrated Ecohydrological Science - USFS & Oregon State University *Patrick Haluska
Hydrologist downloading water-level sensor deployed for summer
Hydrologist downloading water-level sensor deployed for summerHydrologist downloading water-level sensor deployed for summer as part of an ecohydro study in *H.J. Andrews Experimental Forest. *USGS Integrated Ecohydrological Science - USFS & Oregon State University *Patrick Haluska
EnviSense with stage sensor at USGS streamgage at Beale Air Force Base near Marysville CA
EnviSense with stage sensor at USGS streamgage at Beale Air Force Base near Marysville CAEnviSense data-logger/transmitter developed by Carnegie Mellon University actively deployed with stage sensor at USGS streamgage at Beale Air Force Base near Marysville, California.
EnviSense with stage sensor at USGS streamgage at Beale Air Force Base near Marysville CA
EnviSense with stage sensor at USGS streamgage at Beale Air Force Base near Marysville CAEnviSense data-logger/transmitter developed by Carnegie Mellon University actively deployed with stage sensor at USGS streamgage at Beale Air Force Base near Marysville, California.
USGS staff collecting water samples from the catwalk on Conowingo Dam
USGS staff collecting water samples from the catwalk on Conowingo Dam
USGS staff Dave Brower and Jeff Klein collecting water samples from the catwalk on Conowingo Dam. Streamgage 01578310 Susquehanna River at Conowingo, MD
USGS staff collecting water samples from the catwalk on Conowingo Dam
USGS staff collecting water samples from the catwalk on Conowingo Dam
USGS staff Dave Brower and Jeff Klein collecting water samples from the catwalk on Conowingo Dam. Streamgage 01578310 Susquehanna River at Conowingo, MD
Jeniffer Soto Perez(left) and Emily Richardson (Right) prepare samples
Jeniffer Soto Perez(left) and Emily Richardson (Right) prepare samplesJeniffer Soto Perez (left) and Emily Richardson (Right) prepare water quality sample bottles onboard the RV Landsteiner during a high-resolution water quality mapping survey.
Jeniffer Soto Perez(left) and Emily Richardson (Right) prepare samples
Jeniffer Soto Perez(left) and Emily Richardson (Right) prepare samplesJeniffer Soto Perez (left) and Emily Richardson (Right) prepare water quality sample bottles onboard the RV Landsteiner during a high-resolution water quality mapping survey.
Devin McGinty collecting measurements in the field
Devin McGinty collecting measurements in the fieldDevin McGinty collecting measurements in the field including surveying and installing a new staff gage.
Devin McGinty collecting measurements in the field
Devin McGinty collecting measurements in the fieldDevin McGinty collecting measurements in the field including surveying and installing a new staff gage.
Dr. Graham Sextone downloading weather station data in Rocky Mountains
Dr. Graham Sextone downloading weather station data in Rocky MountainsDr. Graham Sextone downloading weather station data in Rocky Mountain National Park. Station ID 401719105394311
Dr. Graham Sextone downloading weather station data in Rocky Mountains
Dr. Graham Sextone downloading weather station data in Rocky MountainsDr. Graham Sextone downloading weather station data in Rocky Mountain National Park. Station ID 401719105394311
Hydrologic Technician measures discharge in Ashwaubenon Creek, WI
Hydrologic Technician measures discharge in Ashwaubenon Creek, WIHydrologic Technician Matt Bach measures discharge in Ashwaubenon Creek near Little Rapids, WI (NWIS site: 04085068) on May 21, 2020, as part of a cooperative project with NEWWater (Green Bay Metropolitan Sewage District) utilizing an adaptive management approach to meet phosp
Hydrologic Technician measures discharge in Ashwaubenon Creek, WI
Hydrologic Technician measures discharge in Ashwaubenon Creek, WIHydrologic Technician Matt Bach measures discharge in Ashwaubenon Creek near Little Rapids, WI (NWIS site: 04085068) on May 21, 2020, as part of a cooperative project with NEWWater (Green Bay Metropolitan Sewage District) utilizing an adaptive management approach to meet phosp
Brian Bergamaschi, Katy O’Donnell, Emily Richardson, and Jeniffer Soto
Brian Bergamaschi, Katy O’Donnell, Emily Richardson, and Jeniffer Soto(From left to right) Brian Bergamaschi, Katy O’Donnell, Emily Richardson, and Jeniffer Soto Perez onboard the RV Landsteiner during a high-resolution water quality mapping survey.
Brian Bergamaschi, Katy O’Donnell, Emily Richardson, and Jeniffer Soto
Brian Bergamaschi, Katy O’Donnell, Emily Richardson, and Jeniffer Soto(From left to right) Brian Bergamaschi, Katy O’Donnell, Emily Richardson, and Jeniffer Soto Perez onboard the RV Landsteiner during a high-resolution water quality mapping survey.
Rebecca Steinberg making her first discharge measurement as a new hire
Rebecca Steinberg making her first discharge measurement as a new hireRebecca Steinberg making her first discharge measurement as a new hydrologic technician while lake-effect snow creates a winter wonderland at the Cuyahoga River, Hiram Ohio gage station 04202000. An American flag is peaking out in the background.
Rebecca Steinberg making her first discharge measurement as a new hire
Rebecca Steinberg making her first discharge measurement as a new hireRebecca Steinberg making her first discharge measurement as a new hydrologic technician while lake-effect snow creates a winter wonderland at the Cuyahoga River, Hiram Ohio gage station 04202000. An American flag is peaking out in the background.
Strontium measured in wells tapping U.S. principal aquifers
Strontium measured in wells tapping U.S. principal aquifersConcentrations of strontium in samples of groundwater from drinking-water wells and shallow monitoring wells.
Strontium measured in wells tapping U.S. principal aquifers
Strontium measured in wells tapping U.S. principal aquifersConcentrations of strontium in samples of groundwater from drinking-water wells and shallow monitoring wells.
Launching an autonomous underwater vehicle in the Delaware River
Launching an autonomous underwater vehicle in the Delaware RiverUSGS scientists Matt Gyves (left) and Jason Shvanda (center) deploying a low-cost, small uncrewed underwater vehicle (sUUV) to autonomously measure water quality parameters in the Delaware River with Ian Owen from Jaia Robotics (right).
Launching an autonomous underwater vehicle in the Delaware River
Launching an autonomous underwater vehicle in the Delaware RiverUSGS scientists Matt Gyves (left) and Jason Shvanda (center) deploying a low-cost, small uncrewed underwater vehicle (sUUV) to autonomously measure water quality parameters in the Delaware River with Ian Owen from Jaia Robotics (right).