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Brian McCallum (Former Employee)

Science and Products

Filter Total Items: 16
USGS gage 05014500 Swiftcurrent Creek at Many Glacier, Glacier National Park, MT

USGS Streamgages By the Numbers

Get the facts and figures about the USGS Streamgaging Network, one of the largest streamgaging enterprises in the world!
By
Water Resources Mission Area
USGS Streamgages By the Numbers

USGS Streamgages By the Numbers

Get the facts and figures about the USGS Streamgaging Network, one of the largest streamgaging enterprises in the world!
Learn More
USGS science for a changing world

Louisiana Public Awareness, Hydrologic Studies, and Hydrologic Data

Louisiana Public Awareness, Hydrologic Studies, and Hydrologic Data
By
Water Resources Mission Area, Lower Mississippi-Gulf Water Science Center
Louisiana Public Awareness, Hydrologic Studies, and Hydrologic Data

Louisiana Public Awareness, Hydrologic Studies, and Hydrologic Data

Louisiana Public Awareness, Hydrologic Studies, and Hydrologic Data
Learn More
Brazil_USGS

Brazilian Agencies Partner With USGS On Water Programs

The USGS International Programs Office has intermittently collaborated with Brazil's Geological Survey (CPRM) since the early 1970's. With the creation of the Brazilian National Water Agency (ANA), Brazil's hydrologic monitoring network has taken on a higher socioeconomic importance. The collaboration agreements between USGS and ANA/CPRM have strengthened the Brazilian streamgaging network as well...
By
South Atlantic Water Science Center (SAWSC), International Programs
Brazilian Agencies Partner With USGS On Water Programs

Brazilian Agencies Partner With USGS On Water Programs

The USGS International Programs Office has intermittently collaborated with Brazil's Geological Survey (CPRM) since the early 1970's. With the creation of the Brazilian National Water Agency (ANA), Brazil's hydrologic monitoring network has taken on a higher socioeconomic importance. The collaboration agreements between USGS and ANA/CPRM have strengthened the Brazilian streamgaging network as well...
Learn More
USGS scientists working during the epic September 2009 flood in Georgia. Power Springs Creek (02336870)

SAWSC Monitoring of Hydrologic Hazards

A major element of the USGS mission is the documentation of the extent and magnitude of extreme hydrologic events, like floods and droughts. The South Atlantic Water Science Center is a leader in monitoring extreme water conditions, from droughts and falling groundwater levels to floods and storm-tide surges to water-quality problems.
By
South Atlantic Water Science Center (SAWSC)
SAWSC Monitoring of Hydrologic Hazards

SAWSC Monitoring of Hydrologic Hazards

A major element of the USGS mission is the documentation of the extent and magnitude of extreme hydrologic events, like floods and droughts. The South Atlantic Water Science Center is a leader in monitoring extreme water conditions, from droughts and falling groundwater levels to floods and storm-tide surges to water-quality problems.
Learn More
Photo showing a variety of USGS publications

Georgia Geologic Survey - Joint USGS and GGS Publications

The South Atlantic Water Science Center - Georgia Office cooperates with the Georgia Geologic Survey (GGS) in many hydrologic projects. A number of joint publications have been published over the years.
By
South Atlantic Water Science Center (SAWSC)
Georgia Geologic Survey - Joint USGS and GGS Publications

Georgia Geologic Survey - Joint USGS and GGS Publications

The South Atlantic Water Science Center - Georgia Office cooperates with the Georgia Geologic Survey (GGS) in many hydrologic projects. A number of joint publications have been published over the years.
Learn More
Acoustic Doppler current profiler (ADCP) is connected to an onboard computer to measure streamflow.

Hydroacoustic Applications: Technological Advancements in the Streamgaging Network

In the mid-1990s, a new technology emerged in the field of inland streamflow monitoring. The South Atlantic Water Science Center is making great use of the acoustic Doppler current profiler (ADCP). It was originally developed for oceanographic work, but was adapted for inland streamflow measurements. This instrument is transforming the U.S. Geological Survey (USGS) streamgaging program.
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)
Hydroacoustic Applications: Technological Advancements in the Streamgaging Network

Hydroacoustic Applications: Technological Advancements in the Streamgaging Network

In the mid-1990s, a new technology emerged in the field of inland streamflow monitoring. The South Atlantic Water Science Center is making great use of the acoustic Doppler current profiler (ADCP). It was originally developed for oceanographic work, but was adapted for inland streamflow measurements. This instrument is transforming the U.S. Geological Survey (USGS) streamgaging program.
Learn More
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Filter Total Items: 29

Monitoring storm tide and flooding from Hurricane Sandy along the Atlantic coast of the United States, October 2012 Monitoring storm tide and flooding from Hurricane Sandy along the Atlantic coast of the United States, October 2012

The U.S. Geological Survey (USGS) deployed a temporary monitoring network of water-level and barometric pressure sensors at 224 locations along the Atlantic coast from Virginia to Maine to continuously record the timing, areal extent, and magnitude of hurricane storm tide and coastal flooding generated by Hurricane Sandy. These records were greatly supplemented by an extensive post-flood...
Authors
Brian E. McCallum, Shaun Wicklein, Robert G. Reiser, Ronald Busciolano, Jonathan Morrison, Richard J. Verdi, Jaime A. Painter, Eric R. Frantz, Anthony J. Gotvald
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC), Hurricane Sandy

U.S. Geological Survey core science systems strategy: characterizing, synthesizing, and understanding the critical zone through a modular science framework U.S. Geological Survey core science systems strategy: characterizing, synthesizing, and understanding the critical zone through a modular science framework

Executive Summary Core Science Systems is a new mission of the U.S. Geological Survey (USGS) that resulted from the 2007 Science Strategy, “Facing Tomorrow’s Challenges: U.S. Geological Survey Science in the Decade 2007–2017.” This report describes the Core Science Systems vision and outlines a strategy to facilitate integrated characterization and understanding of the complex Earth...
Authors
R. Sky Bristol, Ned H. Euliss, Nathaniel L. Booth, Nina Burkardt, Jay E. Diffendorfer, Dean B. Gesch, Brian E. McCallum, David M. Miller, Suzette A. Morman, Barbara S. Poore, Richard P. Signell, Roland J. Viger
By
Core Science Systems Mission Area, Science Synthesis, Analysis, and Research Program, Science Analytics and Synthesis (SAS) Program, Community for Data Integration (CDI), Earth Resources Observation and Science (EROS) Center , Geosciences and Environmental Change Science Center, Coastal Changes and Impacts

Science strategy for Core Science Systems in the U.S. Geological Survey, 2013-2023 Science strategy for Core Science Systems in the U.S. Geological Survey, 2013-2023

Core Science Systems is a new mission of the U.S. Geological Survey (USGS) that grew out of the 2007 Science Strategy, “Facing Tomorrow’s Challenges: U.S. Geological Survey Science in the Decade 2007–2017.” This report describes the vision for this USGS mission and outlines a strategy for Core Science Systems to facilitate integrated characterization and understanding of the complex...
Authors
R. Sky Bristol, Ned H. Euliss, Nathaniel L. Booth, Nina Burkardt, Jay E. Diffendorfer, Dean B. Gesch, Brian E. McCallum, David M. Miller, Suzette A. Morman, Barbara S. Poore, Richard P. Signell, Roland J. Viger
By
Science Synthesis, Analysis, and Research Program, Science Analytics and Synthesis (SAS) Program, Community for Data Integration (CDI), Earth Resources Observation and Science (EROS) Center

Monitoring inland storm tide and flooding from Hurricane Irene along the Atlantic Coast of the United States, August 2011 Monitoring inland storm tide and flooding from Hurricane Irene along the Atlantic Coast of the United States, August 2011

The U.S. Geological Survey (USGS) deployed a temporary monitoring network of water-level sensors at 212 locations along the Atlantic coast from South Carolina to Maine during August 2011 to record the timing, areal extent, and magnitude of inland hurricane storm tide and coastal flooding generated by Hurricane Irene. Water-level sensor locations were selected to augment existing tide...
Authors
Brian E. McCallum, Jaime A. Painter, Eric R. Frantz
By
Water Resources Mission Area

Monitoring storm tide and flooding from Hurricane Isaac along the Gulf Coast of the United States, August 2012 Monitoring storm tide and flooding from Hurricane Isaac along the Gulf Coast of the United States, August 2012

The U.S. Geological Survey (USGS) deployed a temporary monitoring network of water-level and barometric pressure sensors at 127 locations along the gulf coast from Alabama to Louisiana to record the timing, areal extent, and magnitude of hurricane storm tide and coastal flooding generated by Hurricane Isaac. This deployment was undertaken as part of a coordinated federal emergency...
Authors
Brian E. McCallum, Benton D. McGee, Dustin R. Kimbrow, Michael S. Runner, Jaime A. Painter, Eric R. Frantz, Anthony J. Gotvald
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

Historic flooding in northern Georgia, September 16-22, 2009 Historic flooding in northern Georgia, September 16-22, 2009

A primary mission of the U.S. Geological Survey (USGS) is the measurement and documentation of the magnitude and extent of hydrologic hazards, such as floods, droughts, and hurricane storm surge. USGS personnel were deployed to document historic, widespread flooding that occurred throughout the Atlanta metropolitan area and northwestern Georgia in the early fall of 2009. The floods were...
Authors
Brian E. McCallum, Anthony J. Gotvald
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

Science and Products

Filter Total Items: 16
USGS gage 05014500 Swiftcurrent Creek at Many Glacier, Glacier National Park, MT

USGS Streamgages By the Numbers

Get the facts and figures about the USGS Streamgaging Network, one of the largest streamgaging enterprises in the world!
By
Water Resources Mission Area
USGS Streamgages By the Numbers

USGS Streamgages By the Numbers

Get the facts and figures about the USGS Streamgaging Network, one of the largest streamgaging enterprises in the world!
Learn More
USGS science for a changing world

Louisiana Public Awareness, Hydrologic Studies, and Hydrologic Data

Louisiana Public Awareness, Hydrologic Studies, and Hydrologic Data
By
Water Resources Mission Area, Lower Mississippi-Gulf Water Science Center
Louisiana Public Awareness, Hydrologic Studies, and Hydrologic Data

Louisiana Public Awareness, Hydrologic Studies, and Hydrologic Data

Louisiana Public Awareness, Hydrologic Studies, and Hydrologic Data
Learn More
Brazil_USGS

Brazilian Agencies Partner With USGS On Water Programs

The USGS International Programs Office has intermittently collaborated with Brazil's Geological Survey (CPRM) since the early 1970's. With the creation of the Brazilian National Water Agency (ANA), Brazil's hydrologic monitoring network has taken on a higher socioeconomic importance. The collaboration agreements between USGS and ANA/CPRM have strengthened the Brazilian streamgaging network as well...
By
South Atlantic Water Science Center (SAWSC), International Programs
Brazilian Agencies Partner With USGS On Water Programs

Brazilian Agencies Partner With USGS On Water Programs

The USGS International Programs Office has intermittently collaborated with Brazil's Geological Survey (CPRM) since the early 1970's. With the creation of the Brazilian National Water Agency (ANA), Brazil's hydrologic monitoring network has taken on a higher socioeconomic importance. The collaboration agreements between USGS and ANA/CPRM have strengthened the Brazilian streamgaging network as well...
Learn More
USGS scientists working during the epic September 2009 flood in Georgia. Power Springs Creek (02336870)

SAWSC Monitoring of Hydrologic Hazards

A major element of the USGS mission is the documentation of the extent and magnitude of extreme hydrologic events, like floods and droughts. The South Atlantic Water Science Center is a leader in monitoring extreme water conditions, from droughts and falling groundwater levels to floods and storm-tide surges to water-quality problems.
By
South Atlantic Water Science Center (SAWSC)
SAWSC Monitoring of Hydrologic Hazards

SAWSC Monitoring of Hydrologic Hazards

A major element of the USGS mission is the documentation of the extent and magnitude of extreme hydrologic events, like floods and droughts. The South Atlantic Water Science Center is a leader in monitoring extreme water conditions, from droughts and falling groundwater levels to floods and storm-tide surges to water-quality problems.
Learn More
Photo showing a variety of USGS publications

Georgia Geologic Survey - Joint USGS and GGS Publications

The South Atlantic Water Science Center - Georgia Office cooperates with the Georgia Geologic Survey (GGS) in many hydrologic projects. A number of joint publications have been published over the years.
By
South Atlantic Water Science Center (SAWSC)
Georgia Geologic Survey - Joint USGS and GGS Publications

Georgia Geologic Survey - Joint USGS and GGS Publications

The South Atlantic Water Science Center - Georgia Office cooperates with the Georgia Geologic Survey (GGS) in many hydrologic projects. A number of joint publications have been published over the years.
Learn More
Acoustic Doppler current profiler (ADCP) is connected to an onboard computer to measure streamflow.

Hydroacoustic Applications: Technological Advancements in the Streamgaging Network

In the mid-1990s, a new technology emerged in the field of inland streamflow monitoring. The South Atlantic Water Science Center is making great use of the acoustic Doppler current profiler (ADCP). It was originally developed for oceanographic work, but was adapted for inland streamflow measurements. This instrument is transforming the U.S. Geological Survey (USGS) streamgaging program.
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)
Hydroacoustic Applications: Technological Advancements in the Streamgaging Network

Hydroacoustic Applications: Technological Advancements in the Streamgaging Network

In the mid-1990s, a new technology emerged in the field of inland streamflow monitoring. The South Atlantic Water Science Center is making great use of the acoustic Doppler current profiler (ADCP). It was originally developed for oceanographic work, but was adapted for inland streamflow measurements. This instrument is transforming the U.S. Geological Survey (USGS) streamgaging program.
Learn More
No Result Found
No results found.
Filter Total Items: 29

Monitoring storm tide and flooding from Hurricane Sandy along the Atlantic coast of the United States, October 2012 Monitoring storm tide and flooding from Hurricane Sandy along the Atlantic coast of the United States, October 2012

The U.S. Geological Survey (USGS) deployed a temporary monitoring network of water-level and barometric pressure sensors at 224 locations along the Atlantic coast from Virginia to Maine to continuously record the timing, areal extent, and magnitude of hurricane storm tide and coastal flooding generated by Hurricane Sandy. These records were greatly supplemented by an extensive post-flood...
Authors
Brian E. McCallum, Shaun Wicklein, Robert G. Reiser, Ronald Busciolano, Jonathan Morrison, Richard J. Verdi, Jaime A. Painter, Eric R. Frantz, Anthony J. Gotvald
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC), Hurricane Sandy

U.S. Geological Survey core science systems strategy: characterizing, synthesizing, and understanding the critical zone through a modular science framework U.S. Geological Survey core science systems strategy: characterizing, synthesizing, and understanding the critical zone through a modular science framework

Executive Summary Core Science Systems is a new mission of the U.S. Geological Survey (USGS) that resulted from the 2007 Science Strategy, “Facing Tomorrow’s Challenges: U.S. Geological Survey Science in the Decade 2007–2017.” This report describes the Core Science Systems vision and outlines a strategy to facilitate integrated characterization and understanding of the complex Earth...
Authors
R. Sky Bristol, Ned H. Euliss, Nathaniel L. Booth, Nina Burkardt, Jay E. Diffendorfer, Dean B. Gesch, Brian E. McCallum, David M. Miller, Suzette A. Morman, Barbara S. Poore, Richard P. Signell, Roland J. Viger
By
Core Science Systems Mission Area, Science Synthesis, Analysis, and Research Program, Science Analytics and Synthesis (SAS) Program, Community for Data Integration (CDI), Earth Resources Observation and Science (EROS) Center , Geosciences and Environmental Change Science Center, Coastal Changes and Impacts

Science strategy for Core Science Systems in the U.S. Geological Survey, 2013-2023 Science strategy for Core Science Systems in the U.S. Geological Survey, 2013-2023

Core Science Systems is a new mission of the U.S. Geological Survey (USGS) that grew out of the 2007 Science Strategy, “Facing Tomorrow’s Challenges: U.S. Geological Survey Science in the Decade 2007–2017.” This report describes the vision for this USGS mission and outlines a strategy for Core Science Systems to facilitate integrated characterization and understanding of the complex...
Authors
R. Sky Bristol, Ned H. Euliss, Nathaniel L. Booth, Nina Burkardt, Jay E. Diffendorfer, Dean B. Gesch, Brian E. McCallum, David M. Miller, Suzette A. Morman, Barbara S. Poore, Richard P. Signell, Roland J. Viger
By
Science Synthesis, Analysis, and Research Program, Science Analytics and Synthesis (SAS) Program, Community for Data Integration (CDI), Earth Resources Observation and Science (EROS) Center

Monitoring inland storm tide and flooding from Hurricane Irene along the Atlantic Coast of the United States, August 2011 Monitoring inland storm tide and flooding from Hurricane Irene along the Atlantic Coast of the United States, August 2011

The U.S. Geological Survey (USGS) deployed a temporary monitoring network of water-level sensors at 212 locations along the Atlantic coast from South Carolina to Maine during August 2011 to record the timing, areal extent, and magnitude of inland hurricane storm tide and coastal flooding generated by Hurricane Irene. Water-level sensor locations were selected to augment existing tide...
Authors
Brian E. McCallum, Jaime A. Painter, Eric R. Frantz
By
Water Resources Mission Area

Monitoring storm tide and flooding from Hurricane Isaac along the Gulf Coast of the United States, August 2012 Monitoring storm tide and flooding from Hurricane Isaac along the Gulf Coast of the United States, August 2012

The U.S. Geological Survey (USGS) deployed a temporary monitoring network of water-level and barometric pressure sensors at 127 locations along the gulf coast from Alabama to Louisiana to record the timing, areal extent, and magnitude of hurricane storm tide and coastal flooding generated by Hurricane Isaac. This deployment was undertaken as part of a coordinated federal emergency...
Authors
Brian E. McCallum, Benton D. McGee, Dustin R. Kimbrow, Michael S. Runner, Jaime A. Painter, Eric R. Frantz, Anthony J. Gotvald
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

Historic flooding in northern Georgia, September 16-22, 2009 Historic flooding in northern Georgia, September 16-22, 2009

A primary mission of the U.S. Geological Survey (USGS) is the measurement and documentation of the magnitude and extent of hydrologic hazards, such as floods, droughts, and hurricane storm surge. USGS personnel were deployed to document historic, widespread flooding that occurred throughout the Atlanta metropolitan area and northwestern Georgia in the early fall of 2009. The floods were...
Authors
Brian E. McCallum, Anthony J. Gotvald
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)
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