Thomas G Huntington, Ph.D. (Former Employee)
Science and Products
Filter Total Items: 94
Changes in the proportion of precipitation occurring as snow in New England (1949-2000) Changes in the proportion of precipitation occurring as snow in New England (1949-2000)
The ratio of snow to total precipitation (S/P) is a hydrologic indicator that is sensitive to climate variability and can be used to detect and monitor hydrologic responses to climatic change. Changes in S/P ratio over time could influence the magnitude and timing of spring runoff and recession to summer baseflow. The S/P ratio for 21 U.S. Historical Climatology Network sites in New...
Authors
T.G. Huntington, G.A. Hodgkins, B.D. Keim, R. W. Dudley
Character change of New England snow Character change of New England snow
The annual ratio of snow to total precipitation (S/P) for 11 out of 21 US Historical Climatology Network (USHCN) sites in New England decreased significantly from 1949 through 2000. One possible explanation for the observed decrease in S/P ratio is that their temperature increased in New England during the 20th century. The results are consistent with published reports indicating...
Authors
T.G. Huntington, G.A. Hodgkins, B.D. Keim, R. W. Dudley
Historical trend in the ratio of solid to total precipitation Historical trend in the ratio of solid to total precipitation
No abstract available
Authors
Thomas G. Huntington, Glenn A. Hodgkins, B.D. Keim, Robert W. Dudley
Modeling carbon dynamics in vegetation and soil under the impact of soil erosion and deposition Modeling carbon dynamics in vegetation and soil under the impact of soil erosion and deposition
Soil erosion and deposition may play important roles in balancing the global atmospheric carbon budget through their impacts on the net exchange of carbon between terrestrial ecosystem and the atmosphere. Few models and studies have been designed to assess these impacts. In this study, we developed a general ecosystem model, Erosion-Deposition-Carbon-Model (EDCM), to dynamically simulate...
Authors
S. Liu, N. Bliss, E. Sundquist, T.G. Huntington
Are there spurious temperature trends in the United States Climate Division database? Are there spurious temperature trends in the United States Climate Division database?
The United States (U.S.) Climate Division data set is commonly used in applied climatic studies in the United States. The divisional averages are calculated by including all available stations within a division at any given time. The averages are therefore vulnerable to shifts in average station location or elevation over time, which may introduce spurious trends within these data. This...
Authors
B.D. Keim, A.M. Wilson, C.P. Wake, T.G. Huntington
Historical trend in river ice thickness and coherence in hydroclimatological trends in Maine Historical trend in river ice thickness and coherence in hydroclimatological trends in Maine
We analyzed long-term records of ice thickness on the Piscataquis River in central Maine and air temperature in Maine to determine whether there were temporal trends that were associated with climate warming. The trend in ice thickness was compared and correlated with regional time series of winter air temperature, heating degree days (HDD), date of river ice-out, seasonal center-of...
Authors
T.G. Huntington, G.A. Hodgkins, R. W. Dudley
Climate warming could reduce runoff significantly in New England, USA Climate warming could reduce runoff significantly in New England, USA
The relation between mean annual temperature (MAT), mean annual precipitation (MAP) and evapotranspiration (ET) for 38 forested watersheds was determined to evaluate the potential increase in ET and resulting decrease in stream runoff that could occur following climate change and lengthening of the growing season. The watersheds were all predominantly forested and were located in eastern...
Authors
T.G. Huntington
Changes in the timing of high river flows in New England over the 20th Century Changes in the timing of high river flows in New England over the 20th Century
The annual timing of river flows is a good indicator of climate-related changes, or lack of changes, for rivers with long-term data that drain unregulated basins with stable land use. Changes in the timing of annual winter/spring (January 1 to May 31) and fall (October 1 to December 31) center of volume dates were analyzed for 27 rural, unregulated river gaging stations in New England...
Authors
G.A. Hodgkins, R. W. Dudley, T.G. Huntington
Historical trend in ice thickness on the Piscataquis River in central Maine. Historical trend in ice thickness on the Piscataquis River in central Maine.
We analyzed a long-term record of ice thickness on the Piscataquis River in central Maine to determine whether there were temporal trends that were associated with climate warming. Trends in ice thickness were compared and correlated with regional time series of winter air temperature, heating degree days (HDD) , date of river ice-out, seasonal center-of-volume date (SCVD) (date on which...
Authors
Thomas G. Huntington, Robert W. Dudley, Glenn A. Hodgkins
Historical changes in lake ice-out dates as indicators of climate change in New England, 1850-2000 Historical changes in lake ice-out dates as indicators of climate change in New England, 1850-2000
Various studies have shown that changes over time in spring ice-out dates can be used as indicators of climate change. Ice-out dates from 29 lakes in New England (USA) with 64 to 163 years of record were assembled and analysed for this study. Ice-out dates have become significantly earlier in New England since the 1800s. Changes in ice-out dates between 1850 and 2000 were 9 days and 16...
Authors
G.A. Hodgkins, Ivan James, T.G. Huntington
Differential rates of feldspar weathering in granitic regoliths Differential rates of feldspar weathering in granitic regoliths
Differential rates of plagioclase and K-feldspar weathering commonly observed in bedrock and soil environments are examined in terms of chemical kinetic and solubility controls and hydrologic permeability. For the Panola regolith, in the Georgia Piedmont Province of southeastern United States, petrographic observations, coupled with elemental balances and 87Sr/86Sr ratios, indicate that
Authors
A. F. White, T.D. Bullen, M. S. Schulz, A.E. Blum, T.G. Huntington, N.E. Peters
Chemical weathering of the Panola Granite: Solute and regolith elemental fluxes and the weathering rate of biotite Chemical weathering of the Panola Granite: Solute and regolith elemental fluxes and the weathering rate of biotite
Present-day elemental and mineral weathering rates based on solute fluxes are compared quantitatively to past long-term rates determined from solid-state elemental fractionation in a saprolitic granite regolith at Panola, Georgia, USA. Saturated fluid flow across a low-permeability kaolin duripan controls the rate of steady-state unsaturated flow in the underlying saprolite. Water and Cl...
Authors
Art F. White, Alex E. Blum, Marjorie S. Schulz, Thomas G. Huntington, Norman E. Peters, David A. Stonestrom
Non-USGS Publications**
**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: 94
Changes in the proportion of precipitation occurring as snow in New England (1949-2000) Changes in the proportion of precipitation occurring as snow in New England (1949-2000)
The ratio of snow to total precipitation (S/P) is a hydrologic indicator that is sensitive to climate variability and can be used to detect and monitor hydrologic responses to climatic change. Changes in S/P ratio over time could influence the magnitude and timing of spring runoff and recession to summer baseflow. The S/P ratio for 21 U.S. Historical Climatology Network sites in New...
Authors
T.G. Huntington, G.A. Hodgkins, B.D. Keim, R. W. Dudley
Character change of New England snow Character change of New England snow
The annual ratio of snow to total precipitation (S/P) for 11 out of 21 US Historical Climatology Network (USHCN) sites in New England decreased significantly from 1949 through 2000. One possible explanation for the observed decrease in S/P ratio is that their temperature increased in New England during the 20th century. The results are consistent with published reports indicating...
Authors
T.G. Huntington, G.A. Hodgkins, B.D. Keim, R. W. Dudley
Historical trend in the ratio of solid to total precipitation Historical trend in the ratio of solid to total precipitation
No abstract available
Authors
Thomas G. Huntington, Glenn A. Hodgkins, B.D. Keim, Robert W. Dudley
Modeling carbon dynamics in vegetation and soil under the impact of soil erosion and deposition Modeling carbon dynamics in vegetation and soil under the impact of soil erosion and deposition
Soil erosion and deposition may play important roles in balancing the global atmospheric carbon budget through their impacts on the net exchange of carbon between terrestrial ecosystem and the atmosphere. Few models and studies have been designed to assess these impacts. In this study, we developed a general ecosystem model, Erosion-Deposition-Carbon-Model (EDCM), to dynamically simulate...
Authors
S. Liu, N. Bliss, E. Sundquist, T.G. Huntington
Are there spurious temperature trends in the United States Climate Division database? Are there spurious temperature trends in the United States Climate Division database?
The United States (U.S.) Climate Division data set is commonly used in applied climatic studies in the United States. The divisional averages are calculated by including all available stations within a division at any given time. The averages are therefore vulnerable to shifts in average station location or elevation over time, which may introduce spurious trends within these data. This...
Authors
B.D. Keim, A.M. Wilson, C.P. Wake, T.G. Huntington
Historical trend in river ice thickness and coherence in hydroclimatological trends in Maine Historical trend in river ice thickness and coherence in hydroclimatological trends in Maine
We analyzed long-term records of ice thickness on the Piscataquis River in central Maine and air temperature in Maine to determine whether there were temporal trends that were associated with climate warming. The trend in ice thickness was compared and correlated with regional time series of winter air temperature, heating degree days (HDD), date of river ice-out, seasonal center-of...
Authors
T.G. Huntington, G.A. Hodgkins, R. W. Dudley
Climate warming could reduce runoff significantly in New England, USA Climate warming could reduce runoff significantly in New England, USA
The relation between mean annual temperature (MAT), mean annual precipitation (MAP) and evapotranspiration (ET) for 38 forested watersheds was determined to evaluate the potential increase in ET and resulting decrease in stream runoff that could occur following climate change and lengthening of the growing season. The watersheds were all predominantly forested and were located in eastern...
Authors
T.G. Huntington
Changes in the timing of high river flows in New England over the 20th Century Changes in the timing of high river flows in New England over the 20th Century
The annual timing of river flows is a good indicator of climate-related changes, or lack of changes, for rivers with long-term data that drain unregulated basins with stable land use. Changes in the timing of annual winter/spring (January 1 to May 31) and fall (October 1 to December 31) center of volume dates were analyzed for 27 rural, unregulated river gaging stations in New England...
Authors
G.A. Hodgkins, R. W. Dudley, T.G. Huntington
Historical trend in ice thickness on the Piscataquis River in central Maine. Historical trend in ice thickness on the Piscataquis River in central Maine.
We analyzed a long-term record of ice thickness on the Piscataquis River in central Maine to determine whether there were temporal trends that were associated with climate warming. Trends in ice thickness were compared and correlated with regional time series of winter air temperature, heating degree days (HDD) , date of river ice-out, seasonal center-of-volume date (SCVD) (date on which...
Authors
Thomas G. Huntington, Robert W. Dudley, Glenn A. Hodgkins
Historical changes in lake ice-out dates as indicators of climate change in New England, 1850-2000 Historical changes in lake ice-out dates as indicators of climate change in New England, 1850-2000
Various studies have shown that changes over time in spring ice-out dates can be used as indicators of climate change. Ice-out dates from 29 lakes in New England (USA) with 64 to 163 years of record were assembled and analysed for this study. Ice-out dates have become significantly earlier in New England since the 1800s. Changes in ice-out dates between 1850 and 2000 were 9 days and 16...
Authors
G.A. Hodgkins, Ivan James, T.G. Huntington
Differential rates of feldspar weathering in granitic regoliths Differential rates of feldspar weathering in granitic regoliths
Differential rates of plagioclase and K-feldspar weathering commonly observed in bedrock and soil environments are examined in terms of chemical kinetic and solubility controls and hydrologic permeability. For the Panola regolith, in the Georgia Piedmont Province of southeastern United States, petrographic observations, coupled with elemental balances and 87Sr/86Sr ratios, indicate that
Authors
A. F. White, T.D. Bullen, M. S. Schulz, A.E. Blum, T.G. Huntington, N.E. Peters
Chemical weathering of the Panola Granite: Solute and regolith elemental fluxes and the weathering rate of biotite Chemical weathering of the Panola Granite: Solute and regolith elemental fluxes and the weathering rate of biotite
Present-day elemental and mineral weathering rates based on solute fluxes are compared quantitatively to past long-term rates determined from solid-state elemental fractionation in a saprolitic granite regolith at Panola, Georgia, USA. Saturated fluid flow across a low-permeability kaolin duripan controls the rate of steady-state unsaturated flow in the underlying saprolite. Water and Cl...
Authors
Art F. White, Alex E. Blum, Marjorie S. Schulz, Thomas G. Huntington, Norman E. Peters, David A. Stonestrom
Non-USGS Publications**
**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.