Devastation from the 1913 flood is shown primarily through photographs taken during the March 1913 flood. In the aftermath of the 1913 flood, State and Federal funds were allocated for the installation of a streamgage network to monitor the water level and flow of Ohio's rivers and streams.
Kimberly Shaffer
Kim shaffer is a Hydrologist with the USGS Water Resources Mission Area.
Science and Products
A National Tool for Graphing and Synthesizing Continuous and Discrete Water-Quality Data
Water Use - Ohio Kentucky Indiana
Water Quality Monitor Network In Ohio
Water-use data in the United States: Challenges and future directions
U.S. Geological Survey (USGS) Water-Use Data and Research (WUDR) program overview and status as of March 31, 2022
Nutrient and suspended-sediment concentrations in the Maumee River and tributaries during 2019 rain-induced fallow conditions
U.S. Geological Survey (USGS) Water-Use Data and Research (WUDR) program overview and status as of October 22, 2020
U.S. Geological Survey (USGS) water-use websites
Devastation from the 1913 flood is shown primarily through photographs taken during the March 1913 flood. In the aftermath of the 1913 flood, State and Federal funds were allocated for the installation of a streamgage network to monitor the water level and flow of Ohio's rivers and streams.
Science and Products
- Science
A National Tool for Graphing and Synthesizing Continuous and Discrete Water-Quality Data
Provide synthesis of water quality data to better understand the Nation’s water resourcesWater Use - Ohio Kentucky Indiana
The USGS National Water-Use Information Program collects data about the quantities of water withdrawn for specific uses: public supply, domestic, industrial, mining, thermoelectric power, irrigation, livestock, and aquaculture. On a broader scale, we research how humans interact with the hydrologic cycle throuugh water withdrawal, water delivery, consumptive use, return flows, wastewater reuse...Water Quality Monitor Network In Ohio
Stream water-quality characteristics provide scientists and water managers with a better understanding of the effects of natural and anthropogenic (human) activities on streams and ecosystems. The USGS operates a network of near-real-time water-quality monitoring stations that provide data for temperature, specific conductance, pH, dissolved oxygen, and turbidity of surface water; the data are... - Publications
Water-use data in the United States: Challenges and future directions
In the United States, greater attention has been given to developing water supplies and quantifying available waters than determining who uses water, how much they withdraw and consume, and how and where water use occurs. As water supplies are stressed due to an increasingly variable climate, changing land-use, and growing water needs, greater consideration of the demand side of the water balanceAuthorsLandon Marston, Abdel Abdallah, Kenneth J. Bagstad, Kerim Dickson, Pierre D. Glynn, Sara Larsen, Forrest Melton, Kyle Onda, Jaime A. Painter, James Prairie, Benjamin Ruddell, Richard Rushforth, Gabriel B. Senay, Kimberly ShafferU.S. Geological Survey (USGS) Water-Use Data and Research (WUDR) program overview and status as of March 31, 2022
The USGS Water-Use Data and Research Program (WUDR) is an appropriated program and is authorized under the SECURE Water Act (Sec. 9508 (c)). WUDR provides financial assistance through cooperative agreements to State water resource agencies. The WUDR Program has two main goals: • To improve the availability, quality, compatibility, and delivery of water-use data that are collected and/or estimatedAuthorsErik A. Smith, Kimberly ShafferNutrient and suspended-sediment concentrations in the Maumee River and tributaries during 2019 rain-induced fallow conditions
Above average precipitation from October 2018 through July 2019 in the Maumee River (R.) Basin resulted in 29% of cropland left fallow, providing a glimpse of potential effects from decreased nutrient application. Ongoing monitoring at 15 water-quality sites on the Maumee R. upstream from Defiance enabled comparison with 2017, which was hydrologically similar to 2019 in precipitation and streamfloAuthorsTanja N. Williamson, Kimberly Shaffer, Donna L. Runkle, Matthew John Hardebeck, Edward G. Dobrowolski, Jeffrey W. Frey, Nancy T. Baker, Katie Marie Collier, Carrie A. Huitger, Stephanie P. Kula, Ralph J. Haefner, Lisa M Hartley, Hunter Frederick Crates, J. Jeremy Webber, Dennis P. Finnegan, Nicholas J. Reithel, Chad Toussant, Thomas L. WeaverU.S. Geological Survey (USGS) Water-Use Data and Research (WUDR) program overview and status as of October 22, 2020
The USGS Water-Use Data and Research Program (WUDR) is an appropriated program that began in Federal fiscal year 2015 and is authorized under the SECURE Water Act (Sec. 9508 (c)). WUDR provides financial assistance through cooperative agreements to State water resource agencies. The WUDR Program has two main goals: To improve the availability, quality, compatibility, and delivery of water-use datAuthorsKimberly ShafferU.S. Geological Survey (USGS) water-use websites
Explore U.S. Geological Survey (USGS) water-use websites to learn how and where the Nation's water use has changed over time! Learn how to find and access USGS water-use data shown in maps, graphs, visualizations, and information products. Gain a better understanding of water-use terms and USGS educational resources. Learn how to find and use USGS visualizations to see how water use has changed iAuthorsKimberly Shaffer, Kathleen M. Rowland, B. Pierre Sargent - Multimedia
The Greatest Natural Disaster in Ohio History: The Flood of 1913The Greatest Natural Disaster in Ohio History: The Flood of 1913The Greatest Natural Disaster in Ohio History: The Flood of 1913
Devastation from the 1913 flood is shown primarily through photographs taken during the March 1913 flood. In the aftermath of the 1913 flood, State and Federal funds were allocated for the installation of a streamgage network to monitor the water level and flow of Ohio's rivers and streams.
Devastation from the 1913 flood is shown primarily through photographs taken during the March 1913 flood. In the aftermath of the 1913 flood, State and Federal funds were allocated for the installation of a streamgage network to monitor the water level and flow of Ohio's rivers and streams.