Keith James Doore (Former Employee)
Science and Products
High spatial resolution sensor-based surface water quality along 540 kilometers of the Illinois Waterway, 2022 and 2023 High spatial resolution sensor-based surface water quality along 540 kilometers of the Illinois Waterway, 2022 and 2023
In support of the U.S. Geological Survey (USGS)-Next Generation Water Observing System (NGWOS) program, water quality data were collected in 2022-2023 in the Illinois River Basin—the third USGS Integrated Water Science (IWS) basin. These data were collected to document spatial heterogeneity in water quality across seasons and hydrologic conditions and to improve predictions of carbon and...
Ratingcurve: A Python package for fitting streamflow rating curves Ratingcurve: A Python package for fitting streamflow rating curves
Streamflow is one of the most important variables in hydrology, but it is difficult to measure continuously. As a result, nearly all streamflow time series are estimated from rating curves that define a mathematical relationship between streamflow and some easy-to-measure proxy like water surface elevation (stage). Despite the existence of automated methods, most rating curves are still...
Authors
Timothy Hodson, Keith Doore, Terry Kenney, Thomas Over, Muluken Yeheyis
Science and Products
High spatial resolution sensor-based surface water quality along 540 kilometers of the Illinois Waterway, 2022 and 2023 High spatial resolution sensor-based surface water quality along 540 kilometers of the Illinois Waterway, 2022 and 2023
In support of the U.S. Geological Survey (USGS)-Next Generation Water Observing System (NGWOS) program, water quality data were collected in 2022-2023 in the Illinois River Basin—the third USGS Integrated Water Science (IWS) basin. These data were collected to document spatial heterogeneity in water quality across seasons and hydrologic conditions and to improve predictions of carbon and...
Ratingcurve: A Python package for fitting streamflow rating curves Ratingcurve: A Python package for fitting streamflow rating curves
Streamflow is one of the most important variables in hydrology, but it is difficult to measure continuously. As a result, nearly all streamflow time series are estimated from rating curves that define a mathematical relationship between streamflow and some easy-to-measure proxy like water surface elevation (stage). Despite the existence of automated methods, most rating curves are still...
Authors
Timothy Hodson, Keith Doore, Terry Kenney, Thomas Over, Muluken Yeheyis