Glenn Hodgkins (Former Employee)
Science and Products
Filter Total Items: 14
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Filter Total Items: 69
Quantifying effects of climate change on the snowmelt-dominated groundwater resources of northern New England Quantifying effects of climate change on the snowmelt-dominated groundwater resources of northern New England
Recent U.S. Geological Survey (USGS) climate studies in New England have shown substantial evidence of hydrologic changes during the last 100 years, including trends toward earlier snowmelt runoff, decreasing occurrence of river ice, and decreasing winter snowpack. These studies are being expanded to include investigation of trends in groundwater levels and fluctuations. Groundwater is...
Authors
Robert W. Dudley, Glenn A. Hodgkins, James B. Shanley, Thomas J. Mack
Historical ice-out dates for 29 lakes in New England, 1807-2008 Historical ice-out dates for 29 lakes in New England, 1807-2008
Ice-out dates for lakes are an important hydrologic data series for climate-change research. Historical ice-out dates for 29 lakes in New England from 1807 through 2008 were compiled and are presented in this report. Five lakes have more than 160 years of data and another 14 have more than 100 years of data. The oldest record ice-out date is for Sebago Lake in 1807.
Authors
Glenn A. Hodgkins
Historical changes in annual peak flows in Maine and implications for flood-frequency analyses Historical changes in annual peak flows in Maine and implications for flood-frequency analyses
Flood-frequency analyses use statistical methods to compute peak streamflows for selected recurrence intervals— the average number of years between peak flows that are equal to or greater than a specified peak flow. Analyses are based on annual peak flows at a stream. It has long been assumed that the annual peak streamflows used in these computations were stationary (non-changing) over...
Authors
Glenn A. Hodgkins
Historical changes in annual peak flows in Maine and implications for flood-frequency analyses Historical changes in annual peak flows in Maine and implications for flood-frequency analyses
To safely and economically design bridges, culverts, and other structures that are in or near streams (fig. 1 for example), it is necessary to determine the magnitude of peak streamflows such as the 100-year flow. Flood-frequency analyses use statistical methods to compute peak flows for selected recurrence intervals (100 years, for example). The recurrence interval is the average number...
Authors
Glenn A. Hodgkins
Framework for a U.S. Geological Survey Hydrologic Climate-Response Program in Maine Framework for a U.S. Geological Survey Hydrologic Climate-Response Program in Maine
This report presents a framework for a U.S. Geological Survey (USGS) hydrologic climate-response program designed to provide early warning of changes in the seasonal water cycle of Maine. Climate-related hydrologic changes on Maine's rivers and lakes in the winter and spring during the last century are well documented, and several river and lake variables have been shown to be sensitive...
Authors
Glenn A. Hodgkins, Robert M. Lent, Robert W. Dudley, Charles W. Schalk
Framework for a U.S. Geological Survey hydrologic climate-response program in Maine Framework for a U.S. Geological Survey hydrologic climate-response program in Maine
It is important to monitor hydrologic systems in the United States that could change dramatically over the short term as a result of climate change. Many ecological effects of climate change can be understood only if hydrologic data networks are in place. Because of its humid, temperate climate and its substantial annual snowpack, Maine’s seasonal water cycle is sensitive to air...
Authors
Glenn A. Hodgkins, Robert M. Lent, Robert W. Dudley, Charles W. Schalk
Streamflow changes in Alaska between the cool phase (1947–1976) and the warm phase (1977–2006) of the Pacific Decadal Oscillation: The influence of glaciers Streamflow changes in Alaska between the cool phase (1947–1976) and the warm phase (1977–2006) of the Pacific Decadal Oscillation: The influence of glaciers
Streamflow data from 35 stations in and near Alaska were analyzed for changes between the cool phase (1947–1976) and the warm phase (1977–2006) of the Pacific Decadal Oscillation. Winter, spring, and summer flow changes and maximum annual flow changes were different for glaciated basins (more than 10% glacier‐covered area) than for nonglaciated basins, showing the influence of glaciers...
Authors
Glenn A. Hodgkins
Comparison of Observed and Predicted Abutment Scour at Selected Bridges in Maine Comparison of Observed and Predicted Abutment Scour at Selected Bridges in Maine
Maximum abutment-scour depths predicted with five different methods were compared to maximum abutment-scour depths observed at 100 abutments at 50 bridge sites in Maine with a median bridge age of 66 years. Prediction methods included the Froehlich/Hire method, the Sturm method, and the Maryland method published in Federal Highway Administration Hydraulic Engineering Circular 18 (HEC-18)...
Authors
Pamela J. Lombard, Glenn A. Hodgkins
Impacts of Low-Flow and Stream-Temperature Changes on Endangered Atlantic Salmon - Current Research Impacts of Low-Flow and Stream-Temperature Changes on Endangered Atlantic Salmon - Current Research
Recent climate studies in New England and the northeastern United States have shown evidence of physical changes over time, including trends toward earlier snowmelt runoff, decreasing river ice, and increasing spring water temperatures. A U.S. Geological Survey (USGS) study funded by the National Global Warming and Wildlife Science Center will be investigating changes in summer low...
Authors
Robert W. Dudley, Glenn A. Hodgkins, Benjamin H. Letcher
Comparison of peak-flow estimation methods for small drainage basins in Maine Comparison of peak-flow estimation methods for small drainage basins in Maine
Understanding the accuracy of commonly used methods for estimating peak streamflows is important because the designs of bridges, culverts, and other river structures are based on these flows. Different methods for estimating peak streamflows were analyzed for small drainage basins in Maine. For the smallest basins, with drainage areas of 0.2 to 1.0 square mile, nine peak streamflows from...
Authors
Glenn A. Hodgkins, Charles Hebson, Pamela J. Lombard, Alexander Mann
Historical Changes in Precipitation and Streamflow in the U.S. Great Lakes Basin, 1915-2004 Historical Changes in Precipitation and Streamflow in the U.S. Great Lakes Basin, 1915-2004
The total amount of water in the Great Lakes Basin is important in the long-term allocation of water to human use and to riparian and aquatic ecosystems. The water available during low-flow periods is particularly important because the short-term demands for the water can exceed the supply. Precipitation increased over the last 90 years in the U.S. Great Lakes Basin. Total annual...
Authors
Glenn A. Hodgkins, Robert W. Dudley, Stephen S. Aichele
Estimated Magnitudes and Recurrence Intervals of Peak Flows on the Mousam and Little Ossipee Rivers for the Flood of April 2007 in Southern Maine Estimated Magnitudes and Recurrence Intervals of Peak Flows on the Mousam and Little Ossipee Rivers for the Flood of April 2007 in Southern Maine
Large amounts of rain fell on southern Maine from the afternoon of April 15, 2007, to the afternoon of April 16, 2007, causing substantial damage to houses, roads, and culverts. This report provides an estimate of the peak flows on two rivers in southern Maine--the Mousam River and the Little Ossipee River--because of their severe flooding. The April 2007 estimated peak flow of 9,230 ft3...
Authors
Glenn A. Hodgkins, Gregory J. Stewart, Timothy A. Cohn, Robert W. Dudley
Science and Products
Filter Total Items: 14
No Result Found
Filter Total Items: 69
Quantifying effects of climate change on the snowmelt-dominated groundwater resources of northern New England Quantifying effects of climate change on the snowmelt-dominated groundwater resources of northern New England
Recent U.S. Geological Survey (USGS) climate studies in New England have shown substantial evidence of hydrologic changes during the last 100 years, including trends toward earlier snowmelt runoff, decreasing occurrence of river ice, and decreasing winter snowpack. These studies are being expanded to include investigation of trends in groundwater levels and fluctuations. Groundwater is...
Authors
Robert W. Dudley, Glenn A. Hodgkins, James B. Shanley, Thomas J. Mack
Historical ice-out dates for 29 lakes in New England, 1807-2008 Historical ice-out dates for 29 lakes in New England, 1807-2008
Ice-out dates for lakes are an important hydrologic data series for climate-change research. Historical ice-out dates for 29 lakes in New England from 1807 through 2008 were compiled and are presented in this report. Five lakes have more than 160 years of data and another 14 have more than 100 years of data. The oldest record ice-out date is for Sebago Lake in 1807.
Authors
Glenn A. Hodgkins
Historical changes in annual peak flows in Maine and implications for flood-frequency analyses Historical changes in annual peak flows in Maine and implications for flood-frequency analyses
Flood-frequency analyses use statistical methods to compute peak streamflows for selected recurrence intervals— the average number of years between peak flows that are equal to or greater than a specified peak flow. Analyses are based on annual peak flows at a stream. It has long been assumed that the annual peak streamflows used in these computations were stationary (non-changing) over...
Authors
Glenn A. Hodgkins
Historical changes in annual peak flows in Maine and implications for flood-frequency analyses Historical changes in annual peak flows in Maine and implications for flood-frequency analyses
To safely and economically design bridges, culverts, and other structures that are in or near streams (fig. 1 for example), it is necessary to determine the magnitude of peak streamflows such as the 100-year flow. Flood-frequency analyses use statistical methods to compute peak flows for selected recurrence intervals (100 years, for example). The recurrence interval is the average number...
Authors
Glenn A. Hodgkins
Framework for a U.S. Geological Survey Hydrologic Climate-Response Program in Maine Framework for a U.S. Geological Survey Hydrologic Climate-Response Program in Maine
This report presents a framework for a U.S. Geological Survey (USGS) hydrologic climate-response program designed to provide early warning of changes in the seasonal water cycle of Maine. Climate-related hydrologic changes on Maine's rivers and lakes in the winter and spring during the last century are well documented, and several river and lake variables have been shown to be sensitive...
Authors
Glenn A. Hodgkins, Robert M. Lent, Robert W. Dudley, Charles W. Schalk
Framework for a U.S. Geological Survey hydrologic climate-response program in Maine Framework for a U.S. Geological Survey hydrologic climate-response program in Maine
It is important to monitor hydrologic systems in the United States that could change dramatically over the short term as a result of climate change. Many ecological effects of climate change can be understood only if hydrologic data networks are in place. Because of its humid, temperate climate and its substantial annual snowpack, Maine’s seasonal water cycle is sensitive to air...
Authors
Glenn A. Hodgkins, Robert M. Lent, Robert W. Dudley, Charles W. Schalk
Streamflow changes in Alaska between the cool phase (1947–1976) and the warm phase (1977–2006) of the Pacific Decadal Oscillation: The influence of glaciers Streamflow changes in Alaska between the cool phase (1947–1976) and the warm phase (1977–2006) of the Pacific Decadal Oscillation: The influence of glaciers
Streamflow data from 35 stations in and near Alaska were analyzed for changes between the cool phase (1947–1976) and the warm phase (1977–2006) of the Pacific Decadal Oscillation. Winter, spring, and summer flow changes and maximum annual flow changes were different for glaciated basins (more than 10% glacier‐covered area) than for nonglaciated basins, showing the influence of glaciers...
Authors
Glenn A. Hodgkins
Comparison of Observed and Predicted Abutment Scour at Selected Bridges in Maine Comparison of Observed and Predicted Abutment Scour at Selected Bridges in Maine
Maximum abutment-scour depths predicted with five different methods were compared to maximum abutment-scour depths observed at 100 abutments at 50 bridge sites in Maine with a median bridge age of 66 years. Prediction methods included the Froehlich/Hire method, the Sturm method, and the Maryland method published in Federal Highway Administration Hydraulic Engineering Circular 18 (HEC-18)...
Authors
Pamela J. Lombard, Glenn A. Hodgkins
Impacts of Low-Flow and Stream-Temperature Changes on Endangered Atlantic Salmon - Current Research Impacts of Low-Flow and Stream-Temperature Changes on Endangered Atlantic Salmon - Current Research
Recent climate studies in New England and the northeastern United States have shown evidence of physical changes over time, including trends toward earlier snowmelt runoff, decreasing river ice, and increasing spring water temperatures. A U.S. Geological Survey (USGS) study funded by the National Global Warming and Wildlife Science Center will be investigating changes in summer low...
Authors
Robert W. Dudley, Glenn A. Hodgkins, Benjamin H. Letcher
Comparison of peak-flow estimation methods for small drainage basins in Maine Comparison of peak-flow estimation methods for small drainage basins in Maine
Understanding the accuracy of commonly used methods for estimating peak streamflows is important because the designs of bridges, culverts, and other river structures are based on these flows. Different methods for estimating peak streamflows were analyzed for small drainage basins in Maine. For the smallest basins, with drainage areas of 0.2 to 1.0 square mile, nine peak streamflows from...
Authors
Glenn A. Hodgkins, Charles Hebson, Pamela J. Lombard, Alexander Mann
Historical Changes in Precipitation and Streamflow in the U.S. Great Lakes Basin, 1915-2004 Historical Changes in Precipitation and Streamflow in the U.S. Great Lakes Basin, 1915-2004
The total amount of water in the Great Lakes Basin is important in the long-term allocation of water to human use and to riparian and aquatic ecosystems. The water available during low-flow periods is particularly important because the short-term demands for the water can exceed the supply. Precipitation increased over the last 90 years in the U.S. Great Lakes Basin. Total annual...
Authors
Glenn A. Hodgkins, Robert W. Dudley, Stephen S. Aichele
Estimated Magnitudes and Recurrence Intervals of Peak Flows on the Mousam and Little Ossipee Rivers for the Flood of April 2007 in Southern Maine Estimated Magnitudes and Recurrence Intervals of Peak Flows on the Mousam and Little Ossipee Rivers for the Flood of April 2007 in Southern Maine
Large amounts of rain fell on southern Maine from the afternoon of April 15, 2007, to the afternoon of April 16, 2007, causing substantial damage to houses, roads, and culverts. This report provides an estimate of the peak flows on two rivers in southern Maine--the Mousam River and the Little Ossipee River--because of their severe flooding. The April 2007 estimated peak flow of 9,230 ft3...
Authors
Glenn A. Hodgkins, Gregory J. Stewart, Timothy A. Cohn, Robert W. Dudley