David Bjerklie, Ph.D. (Former Employee)
Science and Products
Filter Total Items: 25
Extreme rainfall, vulnerability and risk: a continental-scale assessment for South America Extreme rainfall, vulnerability and risk: a continental-scale assessment for South America
Extreme weather continues to preoccupy society as a formidable public safety concern bearing huge economic costs. While attention has focused on global climate change and how it could intensify key elements of the water cycle such as precipitation and river discharge, it is the conjunction of geophysical and socioeconomic forces that shapes human sensitivity and risks to weather extremes...
Authors
Charles Vorosmarty, Lelys de Guenni, Wilfred Wollheim, Brian Pellerin, David Bjerklie, Manoel Cardoso, Cassiano D’Almeida, Lilybeth Colon
A one-dimensional diffusion analogy model for estimation of tide heights in selected tidal marshes in Connecticut A one-dimensional diffusion analogy model for estimation of tide heights in selected tidal marshes in Connecticut
A one-dimensional diffusion analogy model for estimating tide heights in coastal marshes was developed and calibrated by using data from previous tidal-marsh studies. The method is simpler to use than other one- and two-dimensional hydrodynamic models because it does not require marsh depth and tidal prism information; however, the one-dimensional diffusion analogy model cannot be used...
Authors
David Bjerklie, Kevin O’Brien, Ron Rozsa
Preliminary investigation of the effects of sea-level rise on groundwater levels in New Haven, Connecticut Preliminary investigation of the effects of sea-level rise on groundwater levels in New Haven, Connecticut
Global sea level rose about 0.56 feet (ft) (170 millimeters (mm)) during the 20th century. Since the 1960s, sea level has risen at Bridgeport, Connecticut, about 0.38 ft (115 mm), at a rate of 0.008 ft (2.56 mm + or - 0.58 mm) per year. With regional subsidence, and with predicted global climate change, sea level is expected to continue to rise along the northeast coast of the United...
Authors
David Bjerklie, John Mullaney, Janet Stone, Brian Skinner, Matthew Ramlow
Watershed scale response to climate change--Pomperaug River Watershed, Connecticut Watershed scale response to climate change--Pomperaug River Watershed, Connecticut
General Circulation Model simulations of future climate through 2099 project a wide range of possible scenarios. To determine the sensitivity and potential effect of long-term climate change on the freshwater resources of the United States, the U.S. Geological Survey Global Change study, "An integrated watershed scale response to global change in selected basins across the United States"...
Authors
David Bjerklie, Lauren Hay, Steven L. Markstrom
Integrated watershed-scale response to climate change for selected basins across the United States Integrated watershed-scale response to climate change for selected basins across the United States
A study by the U.S. Geological Survey (USGS) evaluated the hydrologic response to different projected carbon emission scenarios of the 21st century using a hydrologic simulation model. This study involved five major steps: (1) setup, calibrate and evaluated the Precipitation Runoff Modeling System (PRMS) model in 14 basins across the United States by local USGS personnel; (2) acquire...
Authors
Steven L. Markstrom, Lauren Hay, D. Ward-Garrison, John Risley, William Battaglin, David Bjerklie, Katherine Chase, Daniel Christiansen, Robert Dudley, Randall Hunt, Kathryn Koczot, Mark Mastin, R. Regan, Roland J. Viger, Kevin Vining, John Walker
Simulations of historical and future trends in snowfall and groundwater recharge for basins draining to Long Island Sound Simulations of historical and future trends in snowfall and groundwater recharge for basins draining to Long Island Sound
A regional watershed model was developed for watersheds contributing to Long Island Sound, including the Connecticut River basin. The study region covers approximately 40 900 km2, extending from a moderate coastal climate zone in the south to a mountainous northern New England climate zone dominated by snowmelt in the north. The input data indicate that precipitation and temperature have...
Authors
David Bjerklie, Roland Viger, Thomas Trombley
Estimation of the effects of land use and groundwater withdrawals on streamflow for the Pomperaug River, Connecticut Estimation of the effects of land use and groundwater withdrawals on streamflow for the Pomperaug River, Connecticut
A precipitation runoff model for the Pomperaug River watershed, Connecticut was developed to address issues of concern including the effect of development on streamflow and groundwater recharge, and the implications of water withdrawals on streamflow. The model was parameterized using a strategy that requires a minimum of calibration and optimization by establishing basic relations...
Authors
David Bjerklie, J. Starn, Claudia Tamayo
Connecticut Highlands technical report— Documentation of the regional rainfall-runoff model Connecticut Highlands technical report— Documentation of the regional rainfall-runoff model
This report provides the supporting data and describes the data sources, methodologies, and assumptions used in the assessment of existing and potential water resources of the Highlands of Connecticut and Pennsylvania (referred to herein as the “Highlands”). Included in this report are Highlands groundwater and surface-water use data and the methods of data compilation. Annual mean...
Authors
Elizabeth Ahearn, David Bjerklie
Hydrogeology and numerical simulation of the unconsolidated glacial aquifer in the Pootatuck River Basin, Newtown, Connecticut Hydrogeology and numerical simulation of the unconsolidated glacial aquifer in the Pootatuck River Basin, Newtown, Connecticut
A study of the groundwater and stream-aquifer interaction in the Pootatuck River Basin, Newtown, Connecticut, was conducted to analyze the effect of production wells on the groundwater levels and streamflow in the Pootatuck River as part of a cooperative program between the U.S. Geological Survey and Newtown, Connecticut. This study will help address concerns about the increasing...
Authors
Carl Carlson, Remo Mondazzi, David Bjerklie, Craig J. Brown
Estimating the bankfull velocity and discharge for rivers using remotely sensed river morphology information Estimating the bankfull velocity and discharge for rivers using remotely sensed river morphology information
A method to estimate the bankfull velocity and discharge in rivers that uses the morphological variables of the river channel, including bankfull width, channel slope, and meander length was developed and tested. Because these variables can be measured remotely from topographic and river alignment information derived from aerial photos and satellite imagery, it is possible that the...
Authors
D.M. Bjerklie
Comparison of constitutive flow resistance equations based on the Manning and Chezy equations applied to natural rivers Comparison of constitutive flow resistance equations based on the Manning and Chezy equations applied to natural rivers
A set of conceptually derived in‐bank river discharge–estimating equations (models), based on the Manning and Chezy equations, are calibrated and validated using a database of 1037 discharge measurements in 103 rivers in the United States and New Zealand. The models are compared to a multiple regression model derived from the same data. The comparison demonstrates that in natural rivers...
Authors
David Bjerklie, S. Dingman, Carl Bolster
Estimating discharge in rivers using remotely sensed hydraulic information Estimating discharge in rivers using remotely sensed hydraulic information
A methodology to estimate in-bank river discharge exclusively from remotely sensed hydraulic data is developed. Water-surface width and maximum channel width measured from 26 aerial and digital orthophotos of 17 single channel rivers and 41 SAR images of three braided rivers were coupled with channel slope data obtained from topographic maps to estimate the discharge. The standard error...
Authors
D.M. Bjerklie, D. Moller, L.C. Smith, S.L. Dingman
Non-USGS Publications**
Bjerklie, D. M., Fulton, J. W., Dingman, S. L., Canova, M. G., Minear, J. T., & Moramarco, T. (2020). Fundamental hydraulics of cross sections in natural rivers: Preliminary analysis of a large data set of acoustic Doppler flow measurements. Water Resources Research, 56, e2019WR025986. https:// doi.org/10.1029/2019WR025986
Bjerklie, David M., Charon M. Birkett, John W. Jones, Claudia Carabajal, Jennifer A. Rover, John W. Fulton, Pierre-André Garambois, 2018, Satellite remote sensing estimation of river discharge: Application to the Yukon River Alaska, Journal of Hydrology no. 561, pp. 1000–1018. https://DOI:10.1016/J.JHYDROL.2018.04.005
Dingman, S.L. and D.M. Bjerklie, 2005, Hydrological Application of Remote Sensing: Surface fluxes and other derived variables - river discharge, in Encyclopedia of Hydrological Sciences, M.G. Anderson, ed.-in-chief, New York: John Wiley and Sons
Bjerklie, D.M., S. Lawrence Dingman, Charles J. Vorosmarty, Carl H. Bolster and Russell G. Congalton, 2003. Evaluating the potential for measuring river discharge from space, Journal of Hydrology, vol. 278 no. 1-4 pp. 17-38
Bjerklie, D.M. and R.C. Carlson. 1988, Modeling of Average Monthly Stream flow from Glacierized Basins in Alaska, International Proceedings Permafrost Conference, 1988, Trondheim, Norway
Bjerklie, D.M. and R.C. Carlson. 1986, “Estimation of Glacier Melt Water Hydrographs” in Kane, D.L. Proceedings: Cold Region Hydrology American Water Resources Association. 1986 pp 345-352
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
Filter Total Items: 25
Extreme rainfall, vulnerability and risk: a continental-scale assessment for South America Extreme rainfall, vulnerability and risk: a continental-scale assessment for South America
Extreme weather continues to preoccupy society as a formidable public safety concern bearing huge economic costs. While attention has focused on global climate change and how it could intensify key elements of the water cycle such as precipitation and river discharge, it is the conjunction of geophysical and socioeconomic forces that shapes human sensitivity and risks to weather extremes...
Authors
Charles Vorosmarty, Lelys de Guenni, Wilfred Wollheim, Brian Pellerin, David Bjerklie, Manoel Cardoso, Cassiano D’Almeida, Lilybeth Colon
A one-dimensional diffusion analogy model for estimation of tide heights in selected tidal marshes in Connecticut A one-dimensional diffusion analogy model for estimation of tide heights in selected tidal marshes in Connecticut
A one-dimensional diffusion analogy model for estimating tide heights in coastal marshes was developed and calibrated by using data from previous tidal-marsh studies. The method is simpler to use than other one- and two-dimensional hydrodynamic models because it does not require marsh depth and tidal prism information; however, the one-dimensional diffusion analogy model cannot be used...
Authors
David Bjerklie, Kevin O’Brien, Ron Rozsa
Preliminary investigation of the effects of sea-level rise on groundwater levels in New Haven, Connecticut Preliminary investigation of the effects of sea-level rise on groundwater levels in New Haven, Connecticut
Global sea level rose about 0.56 feet (ft) (170 millimeters (mm)) during the 20th century. Since the 1960s, sea level has risen at Bridgeport, Connecticut, about 0.38 ft (115 mm), at a rate of 0.008 ft (2.56 mm + or - 0.58 mm) per year. With regional subsidence, and with predicted global climate change, sea level is expected to continue to rise along the northeast coast of the United...
Authors
David Bjerklie, John Mullaney, Janet Stone, Brian Skinner, Matthew Ramlow
Watershed scale response to climate change--Pomperaug River Watershed, Connecticut Watershed scale response to climate change--Pomperaug River Watershed, Connecticut
General Circulation Model simulations of future climate through 2099 project a wide range of possible scenarios. To determine the sensitivity and potential effect of long-term climate change on the freshwater resources of the United States, the U.S. Geological Survey Global Change study, "An integrated watershed scale response to global change in selected basins across the United States"...
Authors
David Bjerklie, Lauren Hay, Steven L. Markstrom
Integrated watershed-scale response to climate change for selected basins across the United States Integrated watershed-scale response to climate change for selected basins across the United States
A study by the U.S. Geological Survey (USGS) evaluated the hydrologic response to different projected carbon emission scenarios of the 21st century using a hydrologic simulation model. This study involved five major steps: (1) setup, calibrate and evaluated the Precipitation Runoff Modeling System (PRMS) model in 14 basins across the United States by local USGS personnel; (2) acquire...
Authors
Steven L. Markstrom, Lauren Hay, D. Ward-Garrison, John Risley, William Battaglin, David Bjerklie, Katherine Chase, Daniel Christiansen, Robert Dudley, Randall Hunt, Kathryn Koczot, Mark Mastin, R. Regan, Roland J. Viger, Kevin Vining, John Walker
Simulations of historical and future trends in snowfall and groundwater recharge for basins draining to Long Island Sound Simulations of historical and future trends in snowfall and groundwater recharge for basins draining to Long Island Sound
A regional watershed model was developed for watersheds contributing to Long Island Sound, including the Connecticut River basin. The study region covers approximately 40 900 km2, extending from a moderate coastal climate zone in the south to a mountainous northern New England climate zone dominated by snowmelt in the north. The input data indicate that precipitation and temperature have...
Authors
David Bjerklie, Roland Viger, Thomas Trombley
Estimation of the effects of land use and groundwater withdrawals on streamflow for the Pomperaug River, Connecticut Estimation of the effects of land use and groundwater withdrawals on streamflow for the Pomperaug River, Connecticut
A precipitation runoff model for the Pomperaug River watershed, Connecticut was developed to address issues of concern including the effect of development on streamflow and groundwater recharge, and the implications of water withdrawals on streamflow. The model was parameterized using a strategy that requires a minimum of calibration and optimization by establishing basic relations...
Authors
David Bjerklie, J. Starn, Claudia Tamayo
Connecticut Highlands technical report— Documentation of the regional rainfall-runoff model Connecticut Highlands technical report— Documentation of the regional rainfall-runoff model
This report provides the supporting data and describes the data sources, methodologies, and assumptions used in the assessment of existing and potential water resources of the Highlands of Connecticut and Pennsylvania (referred to herein as the “Highlands”). Included in this report are Highlands groundwater and surface-water use data and the methods of data compilation. Annual mean...
Authors
Elizabeth Ahearn, David Bjerklie
Hydrogeology and numerical simulation of the unconsolidated glacial aquifer in the Pootatuck River Basin, Newtown, Connecticut Hydrogeology and numerical simulation of the unconsolidated glacial aquifer in the Pootatuck River Basin, Newtown, Connecticut
A study of the groundwater and stream-aquifer interaction in the Pootatuck River Basin, Newtown, Connecticut, was conducted to analyze the effect of production wells on the groundwater levels and streamflow in the Pootatuck River as part of a cooperative program between the U.S. Geological Survey and Newtown, Connecticut. This study will help address concerns about the increasing...
Authors
Carl Carlson, Remo Mondazzi, David Bjerklie, Craig J. Brown
Estimating the bankfull velocity and discharge for rivers using remotely sensed river morphology information Estimating the bankfull velocity and discharge for rivers using remotely sensed river morphology information
A method to estimate the bankfull velocity and discharge in rivers that uses the morphological variables of the river channel, including bankfull width, channel slope, and meander length was developed and tested. Because these variables can be measured remotely from topographic and river alignment information derived from aerial photos and satellite imagery, it is possible that the...
Authors
D.M. Bjerklie
Comparison of constitutive flow resistance equations based on the Manning and Chezy equations applied to natural rivers Comparison of constitutive flow resistance equations based on the Manning and Chezy equations applied to natural rivers
A set of conceptually derived in‐bank river discharge–estimating equations (models), based on the Manning and Chezy equations, are calibrated and validated using a database of 1037 discharge measurements in 103 rivers in the United States and New Zealand. The models are compared to a multiple regression model derived from the same data. The comparison demonstrates that in natural rivers...
Authors
David Bjerklie, S. Dingman, Carl Bolster
Estimating discharge in rivers using remotely sensed hydraulic information Estimating discharge in rivers using remotely sensed hydraulic information
A methodology to estimate in-bank river discharge exclusively from remotely sensed hydraulic data is developed. Water-surface width and maximum channel width measured from 26 aerial and digital orthophotos of 17 single channel rivers and 41 SAR images of three braided rivers were coupled with channel slope data obtained from topographic maps to estimate the discharge. The standard error...
Authors
D.M. Bjerklie, D. Moller, L.C. Smith, S.L. Dingman
Non-USGS Publications**
Bjerklie, D. M., Fulton, J. W., Dingman, S. L., Canova, M. G., Minear, J. T., & Moramarco, T. (2020). Fundamental hydraulics of cross sections in natural rivers: Preliminary analysis of a large data set of acoustic Doppler flow measurements. Water Resources Research, 56, e2019WR025986. https:// doi.org/10.1029/2019WR025986
Bjerklie, David M., Charon M. Birkett, John W. Jones, Claudia Carabajal, Jennifer A. Rover, John W. Fulton, Pierre-André Garambois, 2018, Satellite remote sensing estimation of river discharge: Application to the Yukon River Alaska, Journal of Hydrology no. 561, pp. 1000–1018. https://DOI:10.1016/J.JHYDROL.2018.04.005
Dingman, S.L. and D.M. Bjerklie, 2005, Hydrological Application of Remote Sensing: Surface fluxes and other derived variables - river discharge, in Encyclopedia of Hydrological Sciences, M.G. Anderson, ed.-in-chief, New York: John Wiley and Sons
Bjerklie, D.M., S. Lawrence Dingman, Charles J. Vorosmarty, Carl H. Bolster and Russell G. Congalton, 2003. Evaluating the potential for measuring river discharge from space, Journal of Hydrology, vol. 278 no. 1-4 pp. 17-38
Bjerklie, D.M. and R.C. Carlson. 1988, Modeling of Average Monthly Stream flow from Glacierized Basins in Alaska, International Proceedings Permafrost Conference, 1988, Trondheim, Norway
Bjerklie, D.M. and R.C. Carlson. 1986, “Estimation of Glacier Melt Water Hydrographs” in Kane, D.L. Proceedings: Cold Region Hydrology American Water Resources Association. 1986 pp 345-352
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government