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Jason M Fine (Former Employee)

Science and Products

Moore County, NC Groundwater-Level Monitoring Map

Moore County, NC Groundwater-Level Monitoring

An increasing demand for drinking water is one of the major issues facing the Moore County area. Managers need accurate information on surface and groundwater conditions to plan and balance maintaining an adequate water-supply and meeting in-stream flow requirements. The principal study objective is to collect water-level data at existing monitoring wells to establish a long-term data set that can...
By
South Atlantic Water Science Center (SAWSC)
Moore County, NC Groundwater-Level Monitoring

Moore County, NC Groundwater-Level Monitoring

An increasing demand for drinking water is one of the major issues facing the Moore County area. Managers need accurate information on surface and groundwater conditions to plan and balance maintaining an adequate water-supply and meeting in-stream flow requirements. The principal study objective is to collect water-level data at existing monitoring wells to establish a long-term data set that can...
Learn More

MODFLOW-2000 and MODPATH model data sets used in scenarios of groundwater flow and pumping (1900-2500) near Mount Pleasant, South Carolina MODFLOW-2000 and MODPATH model data sets used in scenarios of groundwater flow and pumping (1900-2500) near Mount Pleasant, South Carolina

An existing three-dimensional model (MODFLOW-2000) by Fine, Petkewich, and Campbell (2017) (https://doi.org/10.3133/sir20175128) was used to evaluate 7 water-management scenarios and predict the effects on the groundwater flow and groundwater-level conditions in the Mount Pleasant, South Carolina area. This model was originally developed in 2007, by Petkewich and Campbell (https://pubs...
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

Hydrogeologic Framework of Onslow County, North Carolina, 2008 Hydrogeologic Framework of Onslow County, North Carolina, 2008

The unconsolidated sediments that underlie the Onslow County area are composed of interlayered permeable and impermeable beds, which overlie the crystalline basement rocks. The aquifers, composed mostly of sand and limestone, are separated by confining units composed mostly of clay and silt. The aquifers from top to bottom are the surficial, Castle Hayne, Beaufort, Peedee, Black Creek...
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

U.S. Geological Survey Groundwater Climate Response Network, 2024 U.S. Geological Survey Groundwater Climate Response Network, 2024

As of October 2024, the U.S. Geological Survey (USGS) operated 588 sites across the United States and its territories as part of the Groundwater Climate Response Network (CRN). The CRN is comprised of wells selected to monitor the effects of climate variability, such as droughts, on groundwater levels nationwide. The CRN includes nearly 500 locations with real-time data and more than 100...
Authors
Jason M. Fine, Rodney R. Caldwell
By
Water Resources Mission Area

U.S. Geological Survey National Groundwater Climate Response Network U.S. Geological Survey National Groundwater Climate Response Network

What is the U.S. Geological Survey National Groundwater Climate Response Network? The U.S. Geological Survey’s (USGS) National Water Monitoring Network is a network of networks that includes the Climate Response Network (CRN). The CRN is a network of wells selected to monitor the effects of climate variability, including droughts, on groundwater systems within the United States, Puerto...
Authors
Rodney R. Caldwell, Jason M. Fine
By
Water Resources Mission Area, Drought

U.S. Geological Survey Groundwater Climate Response Network—2023 U.S. Geological Survey Groundwater Climate Response Network—2023

As of October 2023, the U.S. Geological Survey (USGS) operated more than 660 sites across the United States and its territories as part of the Groundwater Climate Response Network (CRN). The CRN is comprised of wells and springs selected to monitor the effects of climate variability, such as droughts, on groundwater levels and spring discharge nationwide. The CRN includes more than 550...
Authors
Jason Fine, Rodney R. Caldwell
By
Water Resources Mission Area

Simulation of groundwater flow and pumping scenarios for 1900–2050 near Mount Pleasant, South Carolina Simulation of groundwater flow and pumping scenarios for 1900–2050 near Mount Pleasant, South Carolina

Groundwater withdrawals from the Upper Cretaceous-age Middendorf aquifer in South Carolina have created a large, regional cone of depression in the potentiometric surface of the Middendorf aquifer in Charleston and Berkeley Counties, South Carolina. Groundwater-level declines of as much as 249 feet have been observed in wells over the past 125 years and are a result of groundwater use...
Authors
Jason M. Fine, Matthew D. Petkewich, Bruce G. Campbell
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

Simulation of groundwater flow and saltwater movement in the Onslow County area, North Carolina: predevelopment-2010 Simulation of groundwater flow and saltwater movement in the Onslow County area, North Carolina: predevelopment-2010

Onslow County, North Carolina, is located within the designated Central Coastal Plain Capacity Use Area (CCPCUA). The CCPCUA was designated by law as a result of groundwater level declines of as much as 200 feet during the past four decades within aquifers in rocks of Cretaceous age in the central Coastal Plain of North Carolina and a depletion of water in storage from increased...
Authors
Jason M. Fine, Eve L. Kuniansky
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

Water-quality characteristics, trends, and nutrient and sediment loads of streams in the Treyburn development area, North Carolina, 1988–2009 Water-quality characteristics, trends, and nutrient and sediment loads of streams in the Treyburn development area, North Carolina, 1988–2009

Streamflow and water-quality data, including concentrations of nutrients, metals, and pesticides, were collected from October 1988 through September 2009 at six sites in the Treyburn development study area. A review of water-quality data for streams in and near a 5,400-acre planned, mixed-use development in the Falls Lake watershed in the upper Neuse River Basin of North Carolina...
Authors
Jason M. Fine, Douglas A. Harned, Carolyn J. Oblinger
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

Groundwater Climate Response Network Mapper Groundwater Climate Response Network Mapper

The USGS Groundwater Climate Response Network (CRN) is a system of wells and springs selected to monitor the effects of climate variability on groundwater systems nationwide.
By
Water Resources Mission Area

National Ground-Water Monitoring Network (NGWMN) Data Portal National Ground-Water Monitoring Network (NGWMN) Data Portal

The NGWMN Data Portal provides access to groundwater data from multiple, dispersed databases in a web-based mapping application. The Portal contains current and historical data including water levels, water quality, lithology, and well construction.
By
Water Resources Mission Area, New York Water Science Center, Upper Midwest Water Science Center, Water Science School

Science and Products

Moore County, NC Groundwater-Level Monitoring Map

Moore County, NC Groundwater-Level Monitoring

An increasing demand for drinking water is one of the major issues facing the Moore County area. Managers need accurate information on surface and groundwater conditions to plan and balance maintaining an adequate water-supply and meeting in-stream flow requirements. The principal study objective is to collect water-level data at existing monitoring wells to establish a long-term data set that can...
By
South Atlantic Water Science Center (SAWSC)
Moore County, NC Groundwater-Level Monitoring

Moore County, NC Groundwater-Level Monitoring

An increasing demand for drinking water is one of the major issues facing the Moore County area. Managers need accurate information on surface and groundwater conditions to plan and balance maintaining an adequate water-supply and meeting in-stream flow requirements. The principal study objective is to collect water-level data at existing monitoring wells to establish a long-term data set that can...
Learn More

MODFLOW-2000 and MODPATH model data sets used in scenarios of groundwater flow and pumping (1900-2500) near Mount Pleasant, South Carolina MODFLOW-2000 and MODPATH model data sets used in scenarios of groundwater flow and pumping (1900-2500) near Mount Pleasant, South Carolina

An existing three-dimensional model (MODFLOW-2000) by Fine, Petkewich, and Campbell (2017) (https://doi.org/10.3133/sir20175128) was used to evaluate 7 water-management scenarios and predict the effects on the groundwater flow and groundwater-level conditions in the Mount Pleasant, South Carolina area. This model was originally developed in 2007, by Petkewich and Campbell (https://pubs...
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

Hydrogeologic Framework of Onslow County, North Carolina, 2008 Hydrogeologic Framework of Onslow County, North Carolina, 2008

The unconsolidated sediments that underlie the Onslow County area are composed of interlayered permeable and impermeable beds, which overlie the crystalline basement rocks. The aquifers, composed mostly of sand and limestone, are separated by confining units composed mostly of clay and silt. The aquifers from top to bottom are the surficial, Castle Hayne, Beaufort, Peedee, Black Creek...
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

U.S. Geological Survey Groundwater Climate Response Network, 2024 U.S. Geological Survey Groundwater Climate Response Network, 2024

As of October 2024, the U.S. Geological Survey (USGS) operated 588 sites across the United States and its territories as part of the Groundwater Climate Response Network (CRN). The CRN is comprised of wells selected to monitor the effects of climate variability, such as droughts, on groundwater levels nationwide. The CRN includes nearly 500 locations with real-time data and more than 100...
Authors
Jason M. Fine, Rodney R. Caldwell
By
Water Resources Mission Area

U.S. Geological Survey National Groundwater Climate Response Network U.S. Geological Survey National Groundwater Climate Response Network

What is the U.S. Geological Survey National Groundwater Climate Response Network? The U.S. Geological Survey’s (USGS) National Water Monitoring Network is a network of networks that includes the Climate Response Network (CRN). The CRN is a network of wells selected to monitor the effects of climate variability, including droughts, on groundwater systems within the United States, Puerto...
Authors
Rodney R. Caldwell, Jason M. Fine
By
Water Resources Mission Area, Drought

U.S. Geological Survey Groundwater Climate Response Network—2023 U.S. Geological Survey Groundwater Climate Response Network—2023

As of October 2023, the U.S. Geological Survey (USGS) operated more than 660 sites across the United States and its territories as part of the Groundwater Climate Response Network (CRN). The CRN is comprised of wells and springs selected to monitor the effects of climate variability, such as droughts, on groundwater levels and spring discharge nationwide. The CRN includes more than 550...
Authors
Jason Fine, Rodney R. Caldwell
By
Water Resources Mission Area

Simulation of groundwater flow and pumping scenarios for 1900–2050 near Mount Pleasant, South Carolina Simulation of groundwater flow and pumping scenarios for 1900–2050 near Mount Pleasant, South Carolina

Groundwater withdrawals from the Upper Cretaceous-age Middendorf aquifer in South Carolina have created a large, regional cone of depression in the potentiometric surface of the Middendorf aquifer in Charleston and Berkeley Counties, South Carolina. Groundwater-level declines of as much as 249 feet have been observed in wells over the past 125 years and are a result of groundwater use...
Authors
Jason M. Fine, Matthew D. Petkewich, Bruce G. Campbell
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

Simulation of groundwater flow and saltwater movement in the Onslow County area, North Carolina: predevelopment-2010 Simulation of groundwater flow and saltwater movement in the Onslow County area, North Carolina: predevelopment-2010

Onslow County, North Carolina, is located within the designated Central Coastal Plain Capacity Use Area (CCPCUA). The CCPCUA was designated by law as a result of groundwater level declines of as much as 200 feet during the past four decades within aquifers in rocks of Cretaceous age in the central Coastal Plain of North Carolina and a depletion of water in storage from increased...
Authors
Jason M. Fine, Eve L. Kuniansky
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

Water-quality characteristics, trends, and nutrient and sediment loads of streams in the Treyburn development area, North Carolina, 1988–2009 Water-quality characteristics, trends, and nutrient and sediment loads of streams in the Treyburn development area, North Carolina, 1988–2009

Streamflow and water-quality data, including concentrations of nutrients, metals, and pesticides, were collected from October 1988 through September 2009 at six sites in the Treyburn development study area. A review of water-quality data for streams in and near a 5,400-acre planned, mixed-use development in the Falls Lake watershed in the upper Neuse River Basin of North Carolina...
Authors
Jason M. Fine, Douglas A. Harned, Carolyn J. Oblinger
By
Water Resources Mission Area, South Atlantic Water Science Center (SAWSC)

Groundwater Climate Response Network Mapper Groundwater Climate Response Network Mapper

The USGS Groundwater Climate Response Network (CRN) is a system of wells and springs selected to monitor the effects of climate variability on groundwater systems nationwide.
By
Water Resources Mission Area

National Ground-Water Monitoring Network (NGWMN) Data Portal National Ground-Water Monitoring Network (NGWMN) Data Portal

The NGWMN Data Portal provides access to groundwater data from multiple, dispersed databases in a web-based mapping application. The Portal contains current and historical data including water levels, water quality, lithology, and well construction.
By
Water Resources Mission Area, New York Water Science Center, Upper Midwest Water Science Center, Water Science School
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