Steven Hostetler, Ph.D. (Former Employee)
Science and Products
Filter Total Items: 82
Interactive coupling of a lake thermal model with a regional climate model Interactive coupling of a lake thermal model with a regional climate model
A one‐dimensional model of lake temperature, evaporation, and ice has been coupled in an interactive mode with the climate version of the National Center for Atmospheric Research/Pennsylvania State University regional (mesoscale) atmospheric model (MM4). The coupled MM4‐lake model makes possible high‐resolution simulations of climate in the proximity of large water bodies. Atmospheric...
Authors
Steven W. Hostetler, G. T. Bates, F. Giorgi
Coupling of a lake model with a high resolution climate model for climate change studies Coupling of a lake model with a high resolution climate model for climate change studies
No abstract available.
Authors
Steven W. Hostetler, G. T. Bates, F. Giorgi
Climatology Climatology
No abstract available.
Authors
P. J. Bartlein, J. T. Webb, Steven W. Hostetler
Use of a regional atmospheric model to simulate lake-atmosphere feedbacks associated with Pleistocene Lakes Lahontan and Bonneville Use of a regional atmospheric model to simulate lake-atmosphere feedbacks associated with Pleistocene Lakes Lahontan and Bonneville
A regional model of the atmosphere (version 4 of the NCAR mesoscale model, MM4) was used to assess whether lake-effect precipitation was a significant component of the late-Pleistocene hydrologic budgets of Lakes Lahontan and Bonneville. Control simulations for January and July of 1979 were made using MM4, and the Pleistocene highstand surface areas of the lakes were added to the model...
Authors
S. W. Hostetler, F. Giorgi
Lake-size variations in the Lahontan and Bonneville basins between 13,000 and 9000 14C yr B.P Lake-size variations in the Lahontan and Bonneville basins between 13,000 and 9000 14C yr B.P
Recessions of Lakes Lahontan and Bonneville that commenced ∼13,500 14C yr B.P. were interrupted at ⪖11,500 14C yr B.P. in the Lahontan basin and ∼12,200 14C yr B.P. in the Bonneville basin by relatively large perturbations in lake level that persisted for ∼ 2000 years. Minor glacial readvances in the Sierra Nevada and White Mountains of California-Nevada occurred during the latter half...
Authors
L. Benson, D. Currey, Y. Lao, S. Hostetler
Meteorological and water-temperature data for Pyramid Lake, Nevada, 1987-89 Meteorological and water-temperature data for Pyramid Lake, Nevada, 1987-89
No abstract available.
Authors
S. W. Hostetler, L. V. Benson
Science and Products
Filter Total Items: 82
Interactive coupling of a lake thermal model with a regional climate model Interactive coupling of a lake thermal model with a regional climate model
A one‐dimensional model of lake temperature, evaporation, and ice has been coupled in an interactive mode with the climate version of the National Center for Atmospheric Research/Pennsylvania State University regional (mesoscale) atmospheric model (MM4). The coupled MM4‐lake model makes possible high‐resolution simulations of climate in the proximity of large water bodies. Atmospheric...
Authors
Steven W. Hostetler, G. T. Bates, F. Giorgi
Coupling of a lake model with a high resolution climate model for climate change studies Coupling of a lake model with a high resolution climate model for climate change studies
No abstract available.
Authors
Steven W. Hostetler, G. T. Bates, F. Giorgi
Climatology Climatology
No abstract available.
Authors
P. J. Bartlein, J. T. Webb, Steven W. Hostetler
Use of a regional atmospheric model to simulate lake-atmosphere feedbacks associated with Pleistocene Lakes Lahontan and Bonneville Use of a regional atmospheric model to simulate lake-atmosphere feedbacks associated with Pleistocene Lakes Lahontan and Bonneville
A regional model of the atmosphere (version 4 of the NCAR mesoscale model, MM4) was used to assess whether lake-effect precipitation was a significant component of the late-Pleistocene hydrologic budgets of Lakes Lahontan and Bonneville. Control simulations for January and July of 1979 were made using MM4, and the Pleistocene highstand surface areas of the lakes were added to the model...
Authors
S. W. Hostetler, F. Giorgi
Lake-size variations in the Lahontan and Bonneville basins between 13,000 and 9000 14C yr B.P Lake-size variations in the Lahontan and Bonneville basins between 13,000 and 9000 14C yr B.P
Recessions of Lakes Lahontan and Bonneville that commenced ∼13,500 14C yr B.P. were interrupted at ⪖11,500 14C yr B.P. in the Lahontan basin and ∼12,200 14C yr B.P. in the Bonneville basin by relatively large perturbations in lake level that persisted for ∼ 2000 years. Minor glacial readvances in the Sierra Nevada and White Mountains of California-Nevada occurred during the latter half...
Authors
L. Benson, D. Currey, Y. Lao, S. Hostetler
Meteorological and water-temperature data for Pyramid Lake, Nevada, 1987-89 Meteorological and water-temperature data for Pyramid Lake, Nevada, 1987-89
No abstract available.
Authors
S. W. Hostetler, L. V. Benson