Glenn Hodgkins (Former Employee)
Science and Products
Filter Total Items: 14
Generalized linear models and input data for forecasting the probability of groundwater levels declining below specified low thresholds for the conterminous U.S. Generalized linear models and input data for forecasting the probability of groundwater levels declining below specified low thresholds for the conterminous U.S.
This dataset contains model parameters and input data (.rdata files) for 258 models derived for wells in the conterminous United States. The models are generalized linear models with a binomial response variable (logistic regression) for forecasting the probability of groundwater levels declining or maintaining below specified low thresholds for any time of the year for forecast time...
Winter-spring streamflow volume and timing data for 75 Hydroclimatic Data Network-2009 basins in the conterminous United States 1920-2014 Winter-spring streamflow volume and timing data for 75 Hydroclimatic Data Network-2009 basins in the conterminous United States 1920-2014
This dataset contains gage information for 75 Hydroclimatic Data Network-2009 basins in the conterminous United States and associated annual runoff volume, winter-spring runoff volume, and winter-spring runoff timing data 1920-2014, as well as trend results for WSCVD and WSV for periods 1920-2014, 1940-2014, and 1960-2014.
Filter Total Items: 69
Estimating flood magnitude and frequency on streams and rivers in Connecticut, based on data through water year 2015 Estimating flood magnitude and frequency on streams and rivers in Connecticut, based on data through water year 2015
The U.S. Geological Survey, in cooperation with the Connecticut Department of Transportation, updated flood-frequency estimates with 50-, 20-, 10-, 4-, 2-, 1-, 0.5-, and 0.2-percent annual exceedance probabilities (2-, 5-, 10-, 25-, 50-, 100-, 200-, and 500-year recurrence intervals, respectively) for 141 streamgages in Connecticut and 11 streamgages in adjacent States using annual peak...
Authors
Elizabeth A. Ahearn, Glenn A. Hodgkins
Comparing trends in modeled and observed streamflows at minimally altered basins in the United States Comparing trends in modeled and observed streamflows at minimally altered basins in the United States
We compared modeled and observed streamflow trends from 1984–2016 using five statistical transfer models and one deterministic, distributed-parameter, process-based model, for 26 flow metrics at 502 basins in the United States that are minimally influenced by development. We also looked at a measure of overall model fit and average bias. A higher percentage of basins, for all models, had
Authors
Glenn A. Hodgkins, Robert W. Dudley, Amy M. Russell, Jacob H. LaFontaine
Change points in annual peak streamflows: Method comparisons and historical change points in the United States Change points in annual peak streamflows: Method comparisons and historical change points in the United States
Change-point, or step-trend, detection is an active area of research in statistics and an area of great interest in hydrology because change points may be evidence of natural or anthropogenic changes in climatic, hydrologic, or landscape processes. A common change-point technique is the Pettitt test; however, many change-point methods are now available and testing of methods has been...
Authors
Karen R. Ryberg, Glenn A. Hodgkins, Robert W. Dudley
Methods for estimating regional coefficient of skewness for unregulated streams in New England, based on data through water year 2011 Methods for estimating regional coefficient of skewness for unregulated streams in New England, based on data through water year 2011
The magnitude of annual exceedance probability floods is greatly affected by the coefficient of skewness (skew) of the annual peak flows at a streamgage. Standard flood frequency methods recommend weighting the station skew with a regional skew to better represent regional and stable conditions. This study presents an updated analysis of a regional skew for New England developed using a...
Authors
Andrea G. Veilleux, Phillip J. Zarriello, Glenn A. Hodgkins, Elizabeth A. Ahearn, Scott A. Olson, Timothy A. Cohn
Effects of climate, regulation, and urbanization on historical flood trends in the United States Effects of climate, regulation, and urbanization on historical flood trends in the United States
Many studies have analyzed historical trends in annual peak flows in the United States because of the importance of flooding to bridges and other structures, and the concern that human influence may increase flooding. To help attribute causes of historical peak-flow changes, it is important to separate basins by characteristics that have different influences on peak flows. We analyzed...
Authors
Glenn Hodgkins, Robert Dudley, Stacey Archfield, Benjamin Renard
Northeast Northeast
The distinct seasonality of the Northeast’s climate supports a diverse natural landscape adapted to the extremes of cold, snowy winters and warm to hot, humid summers. This natural landscape provides the economic and cultural foundation for many rural communities, which are largely supported by a diverse range of agricultural, tourism, and natural resource-dependent industries (see Ch...
Authors
Lesley-Ann L. Dupigny-Giroux, Ellen L. Mecray, Mary D. Lemcke-Stampone, Glenn A. Hodgkins, Erika E. Lentz, Katherine E. Mills, Erin D. Lane, Rawlings Miller, David Y. Hollinger, William D. Solecki, Gregory A. Wellenius, Perry E. Sheffield, Anthony B. McDonald, Christopher Caldwell
Generalized hydrogeologic framework and groundwater budget for a groundwater availability study for the glacial aquifer system of the United States Generalized hydrogeologic framework and groundwater budget for a groundwater availability study for the glacial aquifer system of the United States
The glacial aquifer system groundwater availability study seeks to quantify (1) the status of groundwater resources in the glacial aquifer system, (2) how these resources have changed over time, and (3) likely system response to future changes in anthropogenic and environmental conditions. The glacial aquifer system extends from Maine to Alaska, although the focus of this report is the...
Authors
Howard W. Reeves, Randall E. Bayless, Robert W. Dudley, Daniel T. Feinstein, Michael N. Fienen, Christopher J. Hoard, Glenn A. Hodgkins, Sharon L. Qi, Jason L. Roth, Jared J. Trost
Groundwater-level trends in the U.S. glacial aquifer system, 1964-2013 Groundwater-level trends in the U.S. glacial aquifer system, 1964-2013
The glacial aquifer system in the United States is a major source of water supply but previous work on historical groundwater trends across the system is lacking. Trends in annual minimum, mean, and maximum groundwater levels for 205 monitoring wells were analyzed across three regions of the system (East, Central, West Central) for four time periods: 1964-2013, 1974-2013, 1984-2013, and...
Authors
Glenn A. Hodgkins, Robert W. Dudley, Martha G. Nielsen, Benjamin Renard, Sharon L. Qi
Forecasting the probability of future groundwater levels declining below specified low thresholds in the conterminous U.S. Forecasting the probability of future groundwater levels declining below specified low thresholds in the conterminous U.S.
We present a logistic regression approach for forecasting the probability of future groundwater levels declining or maintaining below specific groundwater-level thresholds. We tested our approach on 102 groundwater wells in different climatic regions and aquifers of the United States that are part of the U.S. Geological Survey Groundwater Climate Response Network. We evaluated the...
Authors
Robert W. Dudley, Glenn A. Hodgkins, Jesse E. Dickinson
Climate-driven variability in the occurrence of major floods across North America and Europe Climate-driven variability in the occurrence of major floods across North America and Europe
Concern over the potential impact of anthropogenic climate change on flooding has led to a proliferation of studies examining past flood trends. Many studies have analysed annual-maximum flow trends but few have quantified changes in major (25–100 year return period) floods, i.e. those that have the greatest societal impacts. Existing major-flood studies used a limited number of very...
Authors
Glenn A. Hodgkins, Paul H. Whitfield, Donald H. Burn, Jamie Hannaford, Benjamin Renard, Kerstin Stahl, Anne K. Fleig, Henrik Madsen, Luis Mediero, Johanna Korhonen, Conor Murphy, Donna Wilson
Trends in snowmelt-related streamflow timing in the conterminous United States Trends in snowmelt-related streamflow timing in the conterminous United States
Changes in snowmelt-related streamflow timing have implications for water availability and use as well as ecologically relevant shifts in streamflow. Historical trends in snowmelt-related streamflow timing (winter-spring center volume date, WSCVD) were computed for minimally disturbed river basins in the conterminous United States. WSCVD was computed by summing daily streamflow for a...
Authors
Robert W. Dudley, Glenn A. Hodgkins, Michael McHale, Michael J. Kolian, Benjamin Renard
Streamflow Streamflow
This indicator describes trends in the amount of water carried by streams across the United States, as well as the timing of runoff associated with snowmelt.
Authors
Michael McHale, Robert W. Dudley, Glenn A. Hodgkins
Science and Products
Filter Total Items: 14
Generalized linear models and input data for forecasting the probability of groundwater levels declining below specified low thresholds for the conterminous U.S. Generalized linear models and input data for forecasting the probability of groundwater levels declining below specified low thresholds for the conterminous U.S.
This dataset contains model parameters and input data (.rdata files) for 258 models derived for wells in the conterminous United States. The models are generalized linear models with a binomial response variable (logistic regression) for forecasting the probability of groundwater levels declining or maintaining below specified low thresholds for any time of the year for forecast time...
Winter-spring streamflow volume and timing data for 75 Hydroclimatic Data Network-2009 basins in the conterminous United States 1920-2014 Winter-spring streamflow volume and timing data for 75 Hydroclimatic Data Network-2009 basins in the conterminous United States 1920-2014
This dataset contains gage information for 75 Hydroclimatic Data Network-2009 basins in the conterminous United States and associated annual runoff volume, winter-spring runoff volume, and winter-spring runoff timing data 1920-2014, as well as trend results for WSCVD and WSV for periods 1920-2014, 1940-2014, and 1960-2014.
Filter Total Items: 69
Estimating flood magnitude and frequency on streams and rivers in Connecticut, based on data through water year 2015 Estimating flood magnitude and frequency on streams and rivers in Connecticut, based on data through water year 2015
The U.S. Geological Survey, in cooperation with the Connecticut Department of Transportation, updated flood-frequency estimates with 50-, 20-, 10-, 4-, 2-, 1-, 0.5-, and 0.2-percent annual exceedance probabilities (2-, 5-, 10-, 25-, 50-, 100-, 200-, and 500-year recurrence intervals, respectively) for 141 streamgages in Connecticut and 11 streamgages in adjacent States using annual peak...
Authors
Elizabeth A. Ahearn, Glenn A. Hodgkins
Comparing trends in modeled and observed streamflows at minimally altered basins in the United States Comparing trends in modeled and observed streamflows at minimally altered basins in the United States
We compared modeled and observed streamflow trends from 1984–2016 using five statistical transfer models and one deterministic, distributed-parameter, process-based model, for 26 flow metrics at 502 basins in the United States that are minimally influenced by development. We also looked at a measure of overall model fit and average bias. A higher percentage of basins, for all models, had
Authors
Glenn A. Hodgkins, Robert W. Dudley, Amy M. Russell, Jacob H. LaFontaine
Change points in annual peak streamflows: Method comparisons and historical change points in the United States Change points in annual peak streamflows: Method comparisons and historical change points in the United States
Change-point, or step-trend, detection is an active area of research in statistics and an area of great interest in hydrology because change points may be evidence of natural or anthropogenic changes in climatic, hydrologic, or landscape processes. A common change-point technique is the Pettitt test; however, many change-point methods are now available and testing of methods has been...
Authors
Karen R. Ryberg, Glenn A. Hodgkins, Robert W. Dudley
Methods for estimating regional coefficient of skewness for unregulated streams in New England, based on data through water year 2011 Methods for estimating regional coefficient of skewness for unregulated streams in New England, based on data through water year 2011
The magnitude of annual exceedance probability floods is greatly affected by the coefficient of skewness (skew) of the annual peak flows at a streamgage. Standard flood frequency methods recommend weighting the station skew with a regional skew to better represent regional and stable conditions. This study presents an updated analysis of a regional skew for New England developed using a...
Authors
Andrea G. Veilleux, Phillip J. Zarriello, Glenn A. Hodgkins, Elizabeth A. Ahearn, Scott A. Olson, Timothy A. Cohn
Effects of climate, regulation, and urbanization on historical flood trends in the United States Effects of climate, regulation, and urbanization on historical flood trends in the United States
Many studies have analyzed historical trends in annual peak flows in the United States because of the importance of flooding to bridges and other structures, and the concern that human influence may increase flooding. To help attribute causes of historical peak-flow changes, it is important to separate basins by characteristics that have different influences on peak flows. We analyzed...
Authors
Glenn Hodgkins, Robert Dudley, Stacey Archfield, Benjamin Renard
Northeast Northeast
The distinct seasonality of the Northeast’s climate supports a diverse natural landscape adapted to the extremes of cold, snowy winters and warm to hot, humid summers. This natural landscape provides the economic and cultural foundation for many rural communities, which are largely supported by a diverse range of agricultural, tourism, and natural resource-dependent industries (see Ch...
Authors
Lesley-Ann L. Dupigny-Giroux, Ellen L. Mecray, Mary D. Lemcke-Stampone, Glenn A. Hodgkins, Erika E. Lentz, Katherine E. Mills, Erin D. Lane, Rawlings Miller, David Y. Hollinger, William D. Solecki, Gregory A. Wellenius, Perry E. Sheffield, Anthony B. McDonald, Christopher Caldwell
Generalized hydrogeologic framework and groundwater budget for a groundwater availability study for the glacial aquifer system of the United States Generalized hydrogeologic framework and groundwater budget for a groundwater availability study for the glacial aquifer system of the United States
The glacial aquifer system groundwater availability study seeks to quantify (1) the status of groundwater resources in the glacial aquifer system, (2) how these resources have changed over time, and (3) likely system response to future changes in anthropogenic and environmental conditions. The glacial aquifer system extends from Maine to Alaska, although the focus of this report is the...
Authors
Howard W. Reeves, Randall E. Bayless, Robert W. Dudley, Daniel T. Feinstein, Michael N. Fienen, Christopher J. Hoard, Glenn A. Hodgkins, Sharon L. Qi, Jason L. Roth, Jared J. Trost
Groundwater-level trends in the U.S. glacial aquifer system, 1964-2013 Groundwater-level trends in the U.S. glacial aquifer system, 1964-2013
The glacial aquifer system in the United States is a major source of water supply but previous work on historical groundwater trends across the system is lacking. Trends in annual minimum, mean, and maximum groundwater levels for 205 monitoring wells were analyzed across three regions of the system (East, Central, West Central) for four time periods: 1964-2013, 1974-2013, 1984-2013, and...
Authors
Glenn A. Hodgkins, Robert W. Dudley, Martha G. Nielsen, Benjamin Renard, Sharon L. Qi
Forecasting the probability of future groundwater levels declining below specified low thresholds in the conterminous U.S. Forecasting the probability of future groundwater levels declining below specified low thresholds in the conterminous U.S.
We present a logistic regression approach for forecasting the probability of future groundwater levels declining or maintaining below specific groundwater-level thresholds. We tested our approach on 102 groundwater wells in different climatic regions and aquifers of the United States that are part of the U.S. Geological Survey Groundwater Climate Response Network. We evaluated the...
Authors
Robert W. Dudley, Glenn A. Hodgkins, Jesse E. Dickinson
Climate-driven variability in the occurrence of major floods across North America and Europe Climate-driven variability in the occurrence of major floods across North America and Europe
Concern over the potential impact of anthropogenic climate change on flooding has led to a proliferation of studies examining past flood trends. Many studies have analysed annual-maximum flow trends but few have quantified changes in major (25–100 year return period) floods, i.e. those that have the greatest societal impacts. Existing major-flood studies used a limited number of very...
Authors
Glenn A. Hodgkins, Paul H. Whitfield, Donald H. Burn, Jamie Hannaford, Benjamin Renard, Kerstin Stahl, Anne K. Fleig, Henrik Madsen, Luis Mediero, Johanna Korhonen, Conor Murphy, Donna Wilson
Trends in snowmelt-related streamflow timing in the conterminous United States Trends in snowmelt-related streamflow timing in the conterminous United States
Changes in snowmelt-related streamflow timing have implications for water availability and use as well as ecologically relevant shifts in streamflow. Historical trends in snowmelt-related streamflow timing (winter-spring center volume date, WSCVD) were computed for minimally disturbed river basins in the conterminous United States. WSCVD was computed by summing daily streamflow for a...
Authors
Robert W. Dudley, Glenn A. Hodgkins, Michael McHale, Michael J. Kolian, Benjamin Renard
Streamflow Streamflow
This indicator describes trends in the amount of water carried by streams across the United States, as well as the timing of runoff associated with snowmelt.
Authors
Michael McHale, Robert W. Dudley, Glenn A. Hodgkins