USGS scientists Jimmy Webber and Dan Burns explain how water quality equipment is used to take measurements at War Branch and other monitoring stations.
Multimedia
Our multimedia gallery presents a collection of images, videos, posters, and audio associated with our projects. All items in this gallery are considered public domain unless otherwise noted.
Images
USGS scientists Jimmy Webber and Dan Burns explain how water quality equipment is used to take measurements at War Branch and other monitoring stations.
The USGS and local partners hosted a meeting at the War Branch monitoring station to share water-quality and conservation work happening in the watershed with farmers, environmental and agricultural agencies, nonprofit groups, and local universities.
The USGS and local partners hosted a meeting at the War Branch monitoring station to share water-quality and conservation work happening in the watershed with farmers, environmental and agricultural agencies, nonprofit groups, and local universities.
The War Branch bioreactor was installed below a natural spring in the War Branch watershed. The USGS had previously measured elevated nitrate concentrations from this spring.
The War Branch bioreactor was installed below a natural spring in the War Branch watershed. The USGS had previously measured elevated nitrate concentrations from this spring.
Community partners tour the bioreactor at War Branch.
The War Branch bioreactor was installed below a natural spring in the War Branch watershed. The USGS had previously measured elevated nitrate concentrations from this spring.
Community partners tour the bioreactor at War Branch.
The War Branch bioreactor was installed below a natural spring in the War Branch watershed. The USGS had previously measured elevated nitrate concentrations from this spring.
USGS scientists Hillary Dozier and Jimmy Webber work on installing a monitoring station at War Branch. NWIS data for this site can be found here.
USGS scientists Hillary Dozier and Jimmy Webber work on installing a monitoring station at War Branch. NWIS data for this site can be found here.
War Branch is a creek in Rockingham County, Virginia. Its 11 square mile watershed includes mostly poultry and beef agricultural activities. This stream is a part of the Chesapeake Bay Small Agricultural Watershed Monitoring Program.
War Branch is a creek in Rockingham County, Virginia. Its 11 square mile watershed includes mostly poultry and beef agricultural activities. This stream is a part of the Chesapeake Bay Small Agricultural Watershed Monitoring Program.
Videos
This video covers the history of the South Florida ecosystem, from the early drainage projects in the 1880s up through current restoration projects designed to reverse the major unintended impacts to this unique ecosystem. All major restoration projects and proposed future projects are covered.
This video covers the history of the South Florida ecosystem, from the early drainage projects in the 1880s up through current restoration projects designed to reverse the major unintended impacts to this unique ecosystem. All major restoration projects and proposed future projects are covered.
The Chesapeake Bay is one of the Nation's largest ecosystem restoration efforts, so monitoring to assess changes in condition is crucial. The USGS is monitoring the status and trends of key indicators for the health of streams and rivers in the Chesapeake Bay watershed.
The Chesapeake Bay is one of the Nation's largest ecosystem restoration efforts, so monitoring to assess changes in condition is crucial. The USGS is monitoring the status and trends of key indicators for the health of streams and rivers in the Chesapeake Bay watershed.
The Chesapeake Bay is one of the Nation's largest ecosystem restoration efforts, so monitoring to assess changes in condition is crucial. The USGS is monitoring the status and trends of key indicators for the health of streams and rivers in the Chesapeake Bay watershed.
The Chesapeake Bay is one of the Nation's largest ecosystem restoration efforts, so monitoring to assess changes in condition is crucial. The USGS is monitoring the status and trends of key indicators for the health of streams and rivers in the Chesapeake Bay watershed.
Along the Atlantic Coast, a 2000+ ft deep hole has been drilled by the USGS to assess the issues of groundwater pumping, relative sea-level rise, and land subsidence. This video shows the drilling of the first extensometer to measure land subsidence in the North Atlantic Coastal Plain in 30+ years.
Along the Atlantic Coast, a 2000+ ft deep hole has been drilled by the USGS to assess the issues of groundwater pumping, relative sea-level rise, and land subsidence. This video shows the drilling of the first extensometer to measure land subsidence in the North Atlantic Coastal Plain in 30+ years.