Description: Groundwater modeling was used to simulate the effects of sea-level rise on groundwater levels in the New Hampshire Seacoast. The MODFLOW-USG Transport model (Panday, 2022) was used to simulate groundwater flow and saltwater intrusion in these communities. This map shows relative salinity (0=freshwater-blue,1=saltwater-red). SWI was simulated for Rollinsford, Dover, Madbury, Durham, Newmarket, Newfields, Exeter, Newington, Portsmouth, New Castle, and parts of Rye and Stratham. SWI was not simulated in the southern portion of the NH Seacoast, including parts of Rye and Stratham, Greenland, North Hampton, Hampton, Hampton Falls, and Seabrook. The SWI modeling produced estimates of relative salinity in groundwater at various depths ranging from approximately 10 feet to more than 800 feet. This map shows SWI in the overburden with no SLR. There is substantial uncertainty in these estimates due to limited knowledge of bedrock fracturing and other subsurface parameters. These model results and maps provide a first-cut estimate of saltwater intrusion and should be enhanced and/or verified by field measurements.
Service Item Id: 3cafaf89cda243e3bb5b99ec509d513f
Copyright Text: Jayne F. Knott, Ph.D. of JFK Environmental Services LLC and Jennifer M. Jacobs, Ph.D. of Jennifer M. Jacobs & Associates LLC. This work was funded by the NH Department of Environmental Services.
Description: Groundwater modeling was used to simulate the effects of sea-level rise on groundwater levels in the New Hampshire Seacoast. The MODFLOW-USG Transport model (Panday, 2022) was used to simulate groundwater flow and saltwater intrusion in these communities. This map shows relative salinity (0=freshwater-blue,1=saltwater-red). SWI was simulated for Rollinsford, Dover, Madbury, Durham, Newmarket, Newfields, Exeter, Newington, Portsmouth, New Castle, and parts of Rye and Stratham. SWI was not simulated in the southern portion of the NH Seacoast, including parts of Rye and Stratham, Greenland, North Hampton, Hampton, Hampton Falls, and Seabrook. The SWI modeling produced estimates of relative salinity in groundwater at various depths ranging from approximately 10 feet to more than 800 feet. This map shows SWI in the overburden with 8 feet of SLR. There is substantial uncertainty in these estimates due to limited knowledge of bedrock fracturing and other subsurface parameters. These model results and maps provide a first-cut estimate of saltwater intrusion and should be enhanced and/or verified by field measurements.
Service Item Id: 3cafaf89cda243e3bb5b99ec509d513f
Copyright Text: Jayne F. Knott, Ph.D. of JFK Environmental Services LLC and Jennifer M. Jacobs, Ph.D. of Jennifer M. Jacobs & Associates LLC. This work was funded by the NH Department of Environmental Services.
Description: Groundwater modeling was used to simulate the effects of sea-level rise on groundwater levels in the New Hampshire Seacoast. The MODFLOW-USG Transport model (Panday, 2022) was used to simulate groundwater flow and saltwater intrusion in these communities. This map shows relative salinity (0=freshwater-blue,1=saltwater-red). SWI was simulated for Rollinsford, Dover, Madbury, Durham, Newmarket, Newfields, Exeter, Newington, Portsmouth, New Castle, and parts of Rye and Stratham. SWI was not simulated in the southern portion of the NH Seacoast, including parts of Rye and Stratham, Greenland, North Hampton, Hampton, Hampton Falls, and Seabrook. The SWI modeling produced estimates of relative salinity in groundwater at various depths ranging from approximately 10 feet to more than 800 feet. This map shows SWI in bedrock approximately 800 feet below MSL. There is substantial uncertainty in these estimates due to limited knowledge of bedrock fracturing and other subsurface parameters. These model results and maps provide a first-cut estimate of saltwater intrusion and should be enhanced and/or verified by field measurements.
Service Item Id: 3cafaf89cda243e3bb5b99ec509d513f
Copyright Text: Jayne F. Knott, Ph.D. of JFK Environmental Services LLC and Jennifer M. Jacobs, Ph.D. of Jennifer M. Jacobs & Associates LLC. This work was funded by the NH Department of Environmental Services.
Description: Groundwater modeling was used to simulate the effects of sea-level rise on groundwater levels in the New Hampshire Seacoast. The MODFLOW-USG Transport model (Panday, 2022) was used to simulate groundwater flow and saltwater intrusion in these communities. This map shows relative salinity (0=freshwater-blue,1=saltwater-red). SWI was simulated for Rollinsford, Dover, Madbury, Durham, Newmarket, Newfields, Exeter, Newington, Portsmouth, New Castle, and parts of Rye and Stratham. SWI was not simulated in the southern portion of the NH Seacoast, including parts of Rye and Stratham, Greenland, North Hampton, Hampton, Hampton Falls, and Seabrook. The SWI modeling produced estimates of relative salinity in groundwater at various depths ranging from approximately 10 feet to more than 800 feet. This map shows SWI in bedrock approximately 800 feet below MSL with 8 feet of SLR. There is substantial uncertainty in these estimates due to limited knowledge of bedrock fracturing and other subsurface parameters. These model results and maps provide a first-cut estimate of saltwater intrusion and should be enhanced and/or verified by field measurements.
Service Item Id: 3cafaf89cda243e3bb5b99ec509d513f
Copyright Text: Jayne F. Knott, Ph.D. of JFK Environmental Services LLC and Jennifer M. Jacobs, Ph.D. of Jennifer M. Jacobs & Associates LLC. This work was funded by the NH Department of Environmental Services.