Greg Koltun
Greg is an Emeritus Hydrologist and surface-water specialist for the Ohio-Kentucky-Indiana Water Science Center.
He received a B.S. in microbiology and an M.S. in civil engineering from the Ohio State University and has worked on a wide array of research, including topics in hydrology, hydraulics, water quality, water use, modeling, and applied statistics. Greg teaches a USGS national training course on sediment and chemical loading computation methods and was an adjunct professor at the Ohio State University where he taught applied hydrology.
Science and Products
Filter Total Items: 50
Hydrologic disturbance and response of aquatic biota in Big Darby Creek basin, Ohio
Washout and recolonization of macroinvertebrates and algae associated with a spring and summer storm were measured at three sites in Ohio's Big Darby Creek Basin. Related factors, such as streamflow magnitude, shear stress, and streamed disturbance were considered when interpreting observed changes in densities and community structure of macroinvertebrates and algae.
During the study, 184 macro
Authors
J.A. Hambrook, G. F. Koltun, B.B. Palcsak, J.S. Tertuliani
Effects of hydrologic disturbance on washout and recolonization of stream biota
No abstract available
Authors
J.A. Hambrook, G.F. Koltun
Summary of floods in the United States during 1990 and 1991
This volume contains 50 articles describing severe, widespread, or unusual flooding in 28 of the 50 States during 1990 and 1991. Each flood is described to an extent commensurate with its significance and the availability of data on the hydrology and the damages. Each article includes one or more maps showing the general area of flooding. Most articles include tables of data that allow comparison
Authors
Paul Robert Jordan, L. J. Combs
Determination of base-flow characteristics at selected streamflow-gaging stations on the Mad River, Ohio
This report describes the results of a study to estimate characteristics of base flow and sustained ground-water discharge at five streamflow-gaging stations on the Mad River in Ohio. The five streamflow-gaging stations are located at Zanesfield, near Urbana, at St. Paris Pike (at Eagle City), near Springfield, and near Dayton.
The median of the annual-mean base flows, determined by means of h
Authors
G. F. Koltun
User's manual for SEDCALC, a computer program for computation of suspended-sediment discharge
Sediment-Record Calculations (SEDCALC), a menu-driven set of interactive computer programs, was developed to facilitate computation of suspended-sediment records. The programs comprising SEDCALC were developed independently in several District offices of the U.S. Geological Survey (USGS) to minimize the intensive labor associated with various aspects of sediment-record computations.
SEDCALC ope
Authors
G. F. Koltun, John R. Gray, T.J. McElhone
National water summary 1990-91: Hydrologic events and stream water quality
National Water Summary 1990-91 Hydrologic Events and Stream Water Quality was planned to complement existing Federal-State water-quality reporting to the U.S. Congress that is required by the Clean Water Act of 1972. This act, formally known as the Federal Water Pollution Control Act Amendments of 1972 (Public Law 92-500), and its amendments in 1977,1979,1980,1981,1983, and 1987, is the principal
Techniques for estimating flood-peak discharges of rural, unregulated streams in Ohio
Multiple-regression equations are presented for estimating flood-peak discharges having recurrence intervals of 2, 5, 10, 25, 50, and 100 years at ungaged sites on rural, unregulated streams in Ohio. The average standard errors of prediction for the equations range from 33.4% to 41.4%. Peak discharge estimates determined by log-Pearson Type III analysis using data collected through the 1987 water
Authors
G. F. Koltun, J.W. Roberts
By
Analysis of postdredging bed-level changes in selected reaches of Wheeling Creek, eastern Ohio, 1985-87
No abstract available.
Authors
G. F. Koltun
Evaluation of size-distribution effects and laboratory precision in the analysis of bottom materials
Bottom materials may be useful in evaluating areal and temporal changes in concentrations of certain chemical constituents in the overlying waters. They are particularly useful for detecting hydrophobic compounds that may be present in the stream waters at low concentrations or at intermittent intervals. The particle-size distribution in the bottom materials must be considered when areal or tempor
Authors
Dennis R. Helsel, G.F. Koltun
Multiple-regression equations for estimating low flows at ungaged stream sites in Ohio
This report presents multiple-regression equations for estimating selected low-flow characteristics for most unregulated Ohio streams at sites where little or no discharge data are available. The equations relate combinations of drainage area, main-channel length, main-channel slope, average basin elevation, forested area, average annual precipitation, and an index of infiltration to low flows wit
Authors
G. F. Koltun, R.R. Schwartz
Flooding and sedimentation in Wheeling Creek basin, Belmont County, Ohio
The Wheeling Creek basin, which is located primarily in Belmont County, Ohio, experienced three damaging floods and four less severe floods during the 29-month period from February 1979 through June 1981. Residents of the basin became concerned about factors that could have affected the severity and frequency of out-of-bank floods. In response to those concerns, the U.S. Geological Survey, in coop
Authors
J.R. Kolva, G. F. Koltun
Influence of particle-size separation technique on concentrations of sediment-associated trace metals
No abstract available.
Authors
G.F. Koltun, D.R. Helsel
Science and Products
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Filter Total Items: 50
Hydrologic disturbance and response of aquatic biota in Big Darby Creek basin, Ohio
Washout and recolonization of macroinvertebrates and algae associated with a spring and summer storm were measured at three sites in Ohio's Big Darby Creek Basin. Related factors, such as streamflow magnitude, shear stress, and streamed disturbance were considered when interpreting observed changes in densities and community structure of macroinvertebrates and algae. During the study, 184 macroAuthorsJ.A. Hambrook, G. F. Koltun, B.B. Palcsak, J.S. TertulianiEffects of hydrologic disturbance on washout and recolonization of stream biota
No abstract availableAuthorsJ.A. Hambrook, G.F. KoltunSummary of floods in the United States during 1990 and 1991
This volume contains 50 articles describing severe, widespread, or unusual flooding in 28 of the 50 States during 1990 and 1991. Each flood is described to an extent commensurate with its significance and the availability of data on the hydrology and the damages. Each article includes one or more maps showing the general area of flooding. Most articles include tables of data that allow comparisonAuthorsPaul Robert Jordan, L. J. CombsDetermination of base-flow characteristics at selected streamflow-gaging stations on the Mad River, Ohio
This report describes the results of a study to estimate characteristics of base flow and sustained ground-water discharge at five streamflow-gaging stations on the Mad River in Ohio. The five streamflow-gaging stations are located at Zanesfield, near Urbana, at St. Paris Pike (at Eagle City), near Springfield, and near Dayton. The median of the annual-mean base flows, determined by means of hAuthorsG. F. KoltunUser's manual for SEDCALC, a computer program for computation of suspended-sediment discharge
Sediment-Record Calculations (SEDCALC), a menu-driven set of interactive computer programs, was developed to facilitate computation of suspended-sediment records. The programs comprising SEDCALC were developed independently in several District offices of the U.S. Geological Survey (USGS) to minimize the intensive labor associated with various aspects of sediment-record computations. SEDCALC opeAuthorsG. F. Koltun, John R. Gray, T.J. McElhoneNational water summary 1990-91: Hydrologic events and stream water quality
National Water Summary 1990-91 Hydrologic Events and Stream Water Quality was planned to complement existing Federal-State water-quality reporting to the U.S. Congress that is required by the Clean Water Act of 1972. This act, formally known as the Federal Water Pollution Control Act Amendments of 1972 (Public Law 92-500), and its amendments in 1977,1979,1980,1981,1983, and 1987, is the principalTechniques for estimating flood-peak discharges of rural, unregulated streams in Ohio
Multiple-regression equations are presented for estimating flood-peak discharges having recurrence intervals of 2, 5, 10, 25, 50, and 100 years at ungaged sites on rural, unregulated streams in Ohio. The average standard errors of prediction for the equations range from 33.4% to 41.4%. Peak discharge estimates determined by log-Pearson Type III analysis using data collected through the 1987 waterAuthorsG. F. Koltun, J.W. RobertsByAnalysis of postdredging bed-level changes in selected reaches of Wheeling Creek, eastern Ohio, 1985-87
No abstract available.AuthorsG. F. KoltunEvaluation of size-distribution effects and laboratory precision in the analysis of bottom materials
Bottom materials may be useful in evaluating areal and temporal changes in concentrations of certain chemical constituents in the overlying waters. They are particularly useful for detecting hydrophobic compounds that may be present in the stream waters at low concentrations or at intermittent intervals. The particle-size distribution in the bottom materials must be considered when areal or temporAuthorsDennis R. Helsel, G.F. KoltunMultiple-regression equations for estimating low flows at ungaged stream sites in Ohio
This report presents multiple-regression equations for estimating selected low-flow characteristics for most unregulated Ohio streams at sites where little or no discharge data are available. The equations relate combinations of drainage area, main-channel length, main-channel slope, average basin elevation, forested area, average annual precipitation, and an index of infiltration to low flows witAuthorsG. F. Koltun, R.R. SchwartzFlooding and sedimentation in Wheeling Creek basin, Belmont County, Ohio
The Wheeling Creek basin, which is located primarily in Belmont County, Ohio, experienced three damaging floods and four less severe floods during the 29-month period from February 1979 through June 1981. Residents of the basin became concerned about factors that could have affected the severity and frequency of out-of-bank floods. In response to those concerns, the U.S. Geological Survey, in coopAuthorsJ.R. Kolva, G. F. KoltunInfluence of particle-size separation technique on concentrations of sediment-associated trace metals
No abstract available.AuthorsG.F. Koltun, D.R. Helsel - Software