Donald O Rosenberry (Former Employee)
Science and Products
Filter Total Items: 130
Hydrologic research in the Shingobee River headwaters area, Minnesota
No abstract available.
Authors
D. O. Rosenberry, J. W. LaBaugh, T.M. McConnaughey, Robert G. Striegl, T. C. Winter
Climatic data for Shingobee Lake and Williams Lake, Hubbard County, Minnesota, 1989-91
No abstract available.
Authors
R.S. Parkhurst, D.A. Merk, D. O. Rosenberry, T. C. Winter
Climatic data for Williams Lake, Hubbard County, Minnesota, 1987-88
No abstract available.
Authors
R.S. Parkhurst, D.A. Merk, D. O. Rosenberry, T. C. Winter
A comparison of short-term measurements of lake evaporation using eddy correlation and energy budget methods
Concurrent short-term measurements of evaporation from a shallow lake, using eddy correlation and energy budget methods, indicate that sensible and latent heat flux between lake and atmosphere, and energy storage in the lake, may vary considerably across the lake. Measuring net radiation with a net radiometer on the lake appeared to be more accurate than measuring incoming radiation nearby and mod
Authors
D.I. Stannard, D. O. Rosenberry
The design and use of a hydraulic potentiomanometer for direct measurement of differences in hydraulic head between groundwater and surface water
The hydraulic potentiomanometer described herein consists of a potentiometer connected to a manometer by a flexible tube. The device is used to directly measure the direction of seepage as well as the hydraulic-head difference between groundwater and surface water. The device works most effectively in sandy materials. For accurate measurements the device must be free of air leaks.
Authors
Thomas C. Winter, James W. LaBaugh, Donald O. Rosenberry
Climatic data for Williams Lake, Hubbard County, Minnesota, 1986
Research on the hydrology of Williams Lake, north-central Minnesota includes study of evaporation. Presented here are those climatic data needed for energy-budget and mass-transfer studies, including: water-surface temperature, dry-bulb and wet-bulb air temperatures, wind speed, precipitation, and solar and atmospheric radiation. Some calculated values necessary for these studies, such as vapor pr
Authors
D. O. Rosenberry, A.M. Sturrock, T. C. Winter
Climatic data for Williams Lake, Hubbard County, Minnesota, 1982
Research on the hydrology of Williams Lake, north-central Minnesota includes study of evaporation. Those climatic data needed for energy budget and mass transfer studies are presented , including: water surface temperature, dry-bulb and wet-bulb air temperatures, wind speed, precipitation, and solar and atmospheric radiation. Some calculated values necessary for these studies are also presented, s
Authors
D. O. Rosenberry, A.M. Sturrock, J.L. Scarborough, T. C. Winter
Climatic data for Williams Lake, Hubbard County, Minnesota, 1985
Research on the hydrology of Williams Lake, north-central Minnesota includes study of evaporation. Presented here are those climatic data needed for energy-budget and mass-transfer studies, including: water-surface temperature, dry-bulb and wet-bulb air temperatures, wind speed, precipitation, and solar and atmospheric radiation. Data are collected at raft and land stations.
Authors
A.M. Sturrock, D. O. Rosenberry, T. C. Winter
Climatic data for Williams Lake, Hubbard County, Minnesota, 1984
Research on the hydrology of Williams Lake, north-central Minnesota includes study of evaporation. Presented here are those climatic data needed for energy-budget and mass-transfer studies, including: water-surface temperature, dry-bulb and wet-bulb air temperatures, wind speed, precipitation, and solar and atmospheric radiation. Data are collected at raft and land stations.
Authors
A.M. Sturrock, D. O. Rosenberry, J.L. Scarborough, T. C. Winter
Climatic data for Williams Lake, Hubbard County, Minnesota, 1983
Research on the hydrology of Williams Lake, north-central Minnesota includes study of evaporation. Presented here are those climatic data needed for energy-budget and mass-transfer studies,including: water-surface temperature, dry-bulb and wet-bulb air temperatures, wind speed, precipitation, and solar radiation. Data are collected at raft and land stations.
Authors
A.M. Sturrock, D. O. Rosenberry, L.G. Engelbrecht, W.A. Gothard, T. C. Winter
Science and Products
Filter Total Items: 130
Hydrologic research in the Shingobee River headwaters area, Minnesota
No abstract available.
Authors
D. O. Rosenberry, J. W. LaBaugh, T.M. McConnaughey, Robert G. Striegl, T. C. Winter
Climatic data for Shingobee Lake and Williams Lake, Hubbard County, Minnesota, 1989-91
No abstract available.
Authors
R.S. Parkhurst, D.A. Merk, D. O. Rosenberry, T. C. Winter
Climatic data for Williams Lake, Hubbard County, Minnesota, 1987-88
No abstract available.
Authors
R.S. Parkhurst, D.A. Merk, D. O. Rosenberry, T. C. Winter
A comparison of short-term measurements of lake evaporation using eddy correlation and energy budget methods
Concurrent short-term measurements of evaporation from a shallow lake, using eddy correlation and energy budget methods, indicate that sensible and latent heat flux between lake and atmosphere, and energy storage in the lake, may vary considerably across the lake. Measuring net radiation with a net radiometer on the lake appeared to be more accurate than measuring incoming radiation nearby and mod
Authors
D.I. Stannard, D. O. Rosenberry
The design and use of a hydraulic potentiomanometer for direct measurement of differences in hydraulic head between groundwater and surface water
The hydraulic potentiomanometer described herein consists of a potentiometer connected to a manometer by a flexible tube. The device is used to directly measure the direction of seepage as well as the hydraulic-head difference between groundwater and surface water. The device works most effectively in sandy materials. For accurate measurements the device must be free of air leaks.
Authors
Thomas C. Winter, James W. LaBaugh, Donald O. Rosenberry
Climatic data for Williams Lake, Hubbard County, Minnesota, 1986
Research on the hydrology of Williams Lake, north-central Minnesota includes study of evaporation. Presented here are those climatic data needed for energy-budget and mass-transfer studies, including: water-surface temperature, dry-bulb and wet-bulb air temperatures, wind speed, precipitation, and solar and atmospheric radiation. Some calculated values necessary for these studies, such as vapor pr
Authors
D. O. Rosenberry, A.M. Sturrock, T. C. Winter
Climatic data for Williams Lake, Hubbard County, Minnesota, 1982
Research on the hydrology of Williams Lake, north-central Minnesota includes study of evaporation. Those climatic data needed for energy budget and mass transfer studies are presented , including: water surface temperature, dry-bulb and wet-bulb air temperatures, wind speed, precipitation, and solar and atmospheric radiation. Some calculated values necessary for these studies are also presented, s
Authors
D. O. Rosenberry, A.M. Sturrock, J.L. Scarborough, T. C. Winter
Climatic data for Williams Lake, Hubbard County, Minnesota, 1985
Research on the hydrology of Williams Lake, north-central Minnesota includes study of evaporation. Presented here are those climatic data needed for energy-budget and mass-transfer studies, including: water-surface temperature, dry-bulb and wet-bulb air temperatures, wind speed, precipitation, and solar and atmospheric radiation. Data are collected at raft and land stations.
Authors
A.M. Sturrock, D. O. Rosenberry, T. C. Winter
Climatic data for Williams Lake, Hubbard County, Minnesota, 1984
Research on the hydrology of Williams Lake, north-central Minnesota includes study of evaporation. Presented here are those climatic data needed for energy-budget and mass-transfer studies, including: water-surface temperature, dry-bulb and wet-bulb air temperatures, wind speed, precipitation, and solar and atmospheric radiation. Data are collected at raft and land stations.
Authors
A.M. Sturrock, D. O. Rosenberry, J.L. Scarborough, T. C. Winter
Climatic data for Williams Lake, Hubbard County, Minnesota, 1983
Research on the hydrology of Williams Lake, north-central Minnesota includes study of evaporation. Presented here are those climatic data needed for energy-budget and mass-transfer studies,including: water-surface temperature, dry-bulb and wet-bulb air temperatures, wind speed, precipitation, and solar radiation. Data are collected at raft and land stations.
Authors
A.M. Sturrock, D. O. Rosenberry, L.G. Engelbrecht, W.A. Gothard, T. C. Winter