Intertidal percolation through beach sands as a source of ^sup 224,223^Ra to Long Island Sound, New York, and Connecticut, United States
Along tidal coasts, seawater circulated through the intertidal beach contributes to submarine groundwater discharge (SGD) and its associated geochemical signature. The short-lived radium isotopes, ...Ra (half-life = 11.4 d) and ...Ra (half-life = 3.66 d), were used to quantify this component of SGD...
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| Veröffentlicht in: | Journal of marine research 2015-09, Vol.73 (5), p.123 |
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| creator | Bokuniewicz, Henry Cochran, J Kirk Garcia-Orellana, Jordi Rodellas, Valenti Daniel, John Wallace Heilbrun, Christina |
| description | Along tidal coasts, seawater circulated through the intertidal beach contributes to submarine groundwater discharge (SGD) and its associated geochemical signature. The short-lived radium isotopes, ...Ra (half-life = 11.4 d) and ...Ra (half-life = 3.66 d), were used to quantify this component of SGD in a large estuary, Long Island Sound (LIS), New York, United States. The tide is semidiurnal with a range of approximately 2 m. Concentrations in beach pore waters ranged from 97 to 678 disintegrations per minute (dpm) ...Ra 100 L..., whereas concentrations in open coastal waters ranged from approximately 12 to 69 dpm ...Ra 100 L... A simple model based on ingrowth of ...Ra in the pore water of the beach sands was used to determine residence times of 0.6 to 2.5 d for water in the intertidal beach. Both ...Ra and ...Ra showed decreasing gradients and concentration in an offshore transect away from the beach face in Smithtown Bay, whereas the long-lived radium isotopes, ...Ra (half-life = 5.75 y) and ...Ra (half-life = 1,600 y), showed no significant gradients. Based on the ...Ra gradient, the flux across the LIS shoreline was estimated to be 1.79 x 10... dpm m... y... The ...Ra inventories in two zones, 0-50 m and 0-100 m offshore, were used to estimate total SGD fluxes of 3.1 x 10... to 6.6 ... 10... m... y... of intertidal seawater to the nearshore of LIS. Comparison of this estimate with hydrodynamic models of fresh groundwater flow in the adjacent coastal aquifer suggests that less than 1% of the SGD is freshwater. (ProQuest: ... denotes formulae/symbols omitted.) |
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The short-lived radium isotopes, ...Ra (half-life = 11.4 d) and ...Ra (half-life = 3.66 d), were used to quantify this component of SGD in a large estuary, Long Island Sound (LIS), New York, United States. The tide is semidiurnal with a range of approximately 2 m. Concentrations in beach pore waters ranged from 97 to 678 disintegrations per minute (dpm) ...Ra 100 L..., whereas concentrations in open coastal waters ranged from approximately 12 to 69 dpm ...Ra 100 L... A simple model based on ingrowth of ...Ra in the pore water of the beach sands was used to determine residence times of 0.6 to 2.5 d for water in the intertidal beach. Both ...Ra and ...Ra showed decreasing gradients and concentration in an offshore transect away from the beach face in Smithtown Bay, whereas the long-lived radium isotopes, ...Ra (half-life = 5.75 y) and ...Ra (half-life = 1,600 y), showed no significant gradients. Based on the ...Ra gradient, the flux across the LIS shoreline was estimated to be 1.79 x 10... dpm m... y... The ...Ra inventories in two zones, 0-50 m and 0-100 m offshore, were used to estimate total SGD fluxes of 3.1 x 10... to 6.6 ... 10... m... y... of intertidal seawater to the nearshore of LIS. Comparison of this estimate with hydrodynamic models of fresh groundwater flow in the adjacent coastal aquifer suggests that less than 1% of the SGD is freshwater. 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The short-lived radium isotopes, ...Ra (half-life = 11.4 d) and ...Ra (half-life = 3.66 d), were used to quantify this component of SGD in a large estuary, Long Island Sound (LIS), New York, United States. The tide is semidiurnal with a range of approximately 2 m. Concentrations in beach pore waters ranged from 97 to 678 disintegrations per minute (dpm) ...Ra 100 L..., whereas concentrations in open coastal waters ranged from approximately 12 to 69 dpm ...Ra 100 L... A simple model based on ingrowth of ...Ra in the pore water of the beach sands was used to determine residence times of 0.6 to 2.5 d for water in the intertidal beach. Both ...Ra and ...Ra showed decreasing gradients and concentration in an offshore transect away from the beach face in Smithtown Bay, whereas the long-lived radium isotopes, ...Ra (half-life = 5.75 y) and ...Ra (half-life = 1,600 y), showed no significant gradients. Based on the ...Ra gradient, the flux across the LIS shoreline was estimated to be 1.79 x 10... dpm m... y... The ...Ra inventories in two zones, 0-50 m and 0-100 m offshore, were used to estimate total SGD fluxes of 3.1 x 10... to 6.6 ... 10... m... y... of intertidal seawater to the nearshore of LIS. Comparison of this estimate with hydrodynamic models of fresh groundwater flow in the adjacent coastal aquifer suggests that less than 1% of the SGD is freshwater. 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The short-lived radium isotopes, ...Ra (half-life = 11.4 d) and ...Ra (half-life = 3.66 d), were used to quantify this component of SGD in a large estuary, Long Island Sound (LIS), New York, United States. The tide is semidiurnal with a range of approximately 2 m. Concentrations in beach pore waters ranged from 97 to 678 disintegrations per minute (dpm) ...Ra 100 L..., whereas concentrations in open coastal waters ranged from approximately 12 to 69 dpm ...Ra 100 L... A simple model based on ingrowth of ...Ra in the pore water of the beach sands was used to determine residence times of 0.6 to 2.5 d for water in the intertidal beach. Both ...Ra and ...Ra showed decreasing gradients and concentration in an offshore transect away from the beach face in Smithtown Bay, whereas the long-lived radium isotopes, ...Ra (half-life = 5.75 y) and ...Ra (half-life = 1,600 y), showed no significant gradients. Based on the ...Ra gradient, the flux across the LIS shoreline was estimated to be 1.79 x 10... dpm m... y... The ...Ra inventories in two zones, 0-50 m and 0-100 m offshore, were used to estimate total SGD fluxes of 3.1 x 10... to 6.6 ... 10... m... y... of intertidal seawater to the nearshore of LIS. Comparison of this estimate with hydrodynamic models of fresh groundwater flow in the adjacent coastal aquifer suggests that less than 1% of the SGD is freshwater. (ProQuest: ... denotes formulae/symbols omitted.)</abstract><cop>New Haven</cop><pub>Sears Foundation for Marine Research</pub></addata></record> |
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| ispartof | Journal of marine research, 2015-09, Vol.73 (5), p.123 |
| issn | 0022-2402 1543-9542 |
| language | eng |
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| source | EZB-FREE-00999 freely available EZB journals; Alma/SFX Local Collection |
| subjects | Fluid mechanics Geochemistry Groundwater discharge Isotopes Marine ecology |
| title | Intertidal percolation through beach sands as a source of ^sup 224,223^Ra to Long Island Sound, New York, and Connecticut, United States |
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