Sample graphic of data visualization of Chesapeake Data Dashboard
Images
Sample graphic of data visualization of Chesapeake Data Dashboard
Sample visualization of pollution sources in Chesapeake Bay watershed.
Sample visualization of pollution sources in Chesapeake Bay watershed.
Bussell, Ashley M working on site, with Blue USGS Shirt.
Bussell, Ashley M working on site, with Blue USGS Shirt.
Each one these blue dots represents a site where a storm-tide sensor bracket has been installed for the Gulf of Mexico pre-defined network. There are currently 85 brackets in Florida, 6 in Alabama, 3 in Mississippi, 18 in Louisiana and 26 in Texas, for a total of 138 bracketed sites. (Not all brackets will be used in all storms.)
Each one these blue dots represents a site where a storm-tide sensor bracket has been installed for the Gulf of Mexico pre-defined network. There are currently 85 brackets in Florida, 6 in Alabama, 3 in Mississippi, 18 in Louisiana and 26 in Texas, for a total of 138 bracketed sites. (Not all brackets will be used in all storms.)
This image is of a perfect row in a field with a USGS Gage in the background. The image was taken by Shane Stocks out of the LMG Jackson, MS office.
This image is of a perfect row in a field with a USGS Gage in the background. The image was taken by Shane Stocks out of the LMG Jackson, MS office.
Framework banner for MAP. Image by Alexe Dacurro
Framework banner for MAP. Image by Alexe Dacurro
Waterborne resistivity survey in progress on the Tallahatchie River, Leflore County, Mississippi. GPS unit and depth sounder are visible attached to the front of the boat. Photo by James R. Rigby, 2016
Waterborne resistivity survey in progress on the Tallahatchie River, Leflore County, Mississippi. GPS unit and depth sounder are visible attached to the front of the boat. Photo by James R. Rigby, 2016
Waterborne resistivity crew conducting a resistivity survey of the Quiver River, Sunflower County, Mississippi. Electrodes on a floating cable are visible behind the boat, which is travelling upstream. Photo by Ben Miller, 2016
Waterborne resistivity crew conducting a resistivity survey of the Quiver River, Sunflower County, Mississippi. Electrodes on a floating cable are visible behind the boat, which is travelling upstream. Photo by Ben Miller, 2016
Jason Payne driving an ATV pulling an array of electrodes for mapping the near surface geology in the vicinity of Steiner, Mississippi.
Jason Payne driving an ATV pulling an array of electrodes for mapping the near surface geology in the vicinity of Steiner, Mississippi.
View of the Ohmmapper system electrodes being pulled behind a small truck in order to map the near surface geology of Sunflower County, Mississippi near the town of Shellmound. Photo by Ben Miller, 2016
View of the Ohmmapper system electrodes being pulled behind a small truck in order to map the near surface geology of Sunflower County, Mississippi near the town of Shellmound. Photo by Ben Miller, 2016
Inline water-use flow meter being installed by Lower Mississippi-Gulf and Arkansas Natural Resources Commission staff
Inline water-use flow meter being installed by Lower Mississippi-Gulf and Arkansas Natural Resources Commission staff
Waterborne resistivity profiling in progress on the Tallahatchie River, Leflore County, Mississippi. GPS unit and depth sounder are visible attached to the front of the boat and the cable with electrodes can be seen just behind the outboard motor. Photo by Shane Stocks, 2016
Waterborne resistivity profiling in progress on the Tallahatchie River, Leflore County, Mississippi. GPS unit and depth sounder are visible attached to the front of the boat and the cable with electrodes can be seen just behind the outboard motor. Photo by Shane Stocks, 2016
Chris Henry and Daniel McCay, USGS hydrologic technicians, use GPS equipment to survey a high-water mark outside of a flooded elementary school in Denham Springs, Louisiana, August 28. This school was located in one of the hardest hit flood areas and the blue line simulates how high the water was at its peak during this historic flood.
Chris Henry and Daniel McCay, USGS hydrologic technicians, use GPS equipment to survey a high-water mark outside of a flooded elementary school in Denham Springs, Louisiana, August 28. This school was located in one of the hardest hit flood areas and the blue line simulates how high the water was at its peak during this historic flood.
Daniel McCay and Chris Henry, U.S. Geological Survey hydrologic technicians, search a neighborhood south of Denham Springs, Louisiana, for high-water marks August 26. The term high-water mark refers to the debris flood waters will leave on walls, buildings and trees.
Daniel McCay and Chris Henry, U.S. Geological Survey hydrologic technicians, search a neighborhood south of Denham Springs, Louisiana, for high-water marks August 26. The term high-water mark refers to the debris flood waters will leave on walls, buildings and trees.
Daniel McCay and Chris Henry, USGS hydrologic technicians, use a level to draw a line on a high-water mark August 26. In most circumstances, when a high-water mark is flagged it would then be surveyed with GPS equipment to obtain its exact coordinates and elevation.
Daniel McCay and Chris Henry, USGS hydrologic technicians, use a level to draw a line on a high-water mark August 26. In most circumstances, when a high-water mark is flagged it would then be surveyed with GPS equipment to obtain its exact coordinates and elevation.
Jonathan Gillip, USGS hydrologist, documents a high-water mark he flagged near a damage retirement community in Denham Springs, Louisiana, August 26. So far, USGS teams have flagged and surveyed more than 400 high-watermarks across southern Louisiana.
Jonathan Gillip, USGS hydrologist, documents a high-water mark he flagged near a damage retirement community in Denham Springs, Louisiana, August 26. So far, USGS teams have flagged and surveyed more than 400 high-watermarks across southern Louisiana.
The view on South Sherwood Forest Blvd near the USGS Louisiana Water Science Center office on August 15, 2016.
The view on South Sherwood Forest Blvd near the USGS Louisiana Water Science Center office on August 15, 2016.
Flow along 4H Club Rd under I-12 on August 15, 2016.
Flow along 4H Club Rd under I-12 on August 15, 2016.
A flooded house near the confluence of the Comite and Amite Rivers near Denham Springs, LA.
A flooded house near the confluence of the Comite and Amite Rivers near Denham Springs, LA.
Backwater flooding across Florida Blvd near the Amite River Bridge in Denham Springs, LA.
Backwater flooding across Florida Blvd near the Amite River Bridge in Denham Springs, LA.
A flooded neighborhood near the confluence of the Comite and Amite Rivers near Denham Springs, LA.
A flooded neighborhood near the confluence of the Comite and Amite Rivers near Denham Springs, LA.