Using the radium quartet to quantify submarine groundwater discharge and porewater exchange - Archive ouverte HAL
Article Dans Une Revue Geochimica et Cosmochimica Acta Année : 2017

Using the radium quartet to quantify submarine groundwater discharge and porewater exchange

Jordi Garcia-Orellana
  • Fonction : Auteur
Giada Trezzi
  • Fonction : Auteur
Pere Masque
  • Fonction : Auteur
Henry Bokuniewicz
  • Fonction : Auteur
J. Kirk Cochran
  • Fonction : Auteur
Elisa Berdalet

Résumé

The specific ingrowth rates of different radium isotopes make them valuable tracers to distinguish processes occurring at different temporal scales. Here we demonstrate the use of the radium quartet (Ra-223, Ra-224, Ra-226 and Ra-228) to differentiate flows of submarine groundwater discharge and porewater exchange to a coastal embayment (Alfacs Bay, NW Mediterranean Sea), based on the assumption that these processes occur on different time scales. In order to evaluate the seasonal dynamics of groundwater and porewater inputs to the bay, we conducted three seasonal samplings at Alfacs Bay, during which samples for Ra isotopes were collected from bay waters, groundwater springs, porewaters and irrigation channels. Activities of short-lived Ra isotopes in the bay showed a strong seasonality, (e.g. average Ra-224 activities in summer (similar to 32 dpm 100 L-1) up to 4 times higher than in winter (similar to 8 dpm 100 L-1)). In contrast, the activities of the long-lived Ra isotopes were fairly constant throughout the year (e.g. activities of Ra-226 were similar to 16 and similar to 14 dpm 100 L-1 in summer and winter, respectively). The relatively short exposure to sediments of recirculation fluxes resulted in porewaters significantly enriched in short-lived Ra isotopes relative to the long-lived ones (e.g. Ra-224 = 1100-1300 dpm 100 L-1; Ra-226 = 17-99 dpm 100 L-1), whereas coastal groundwaters were enriched in all the Ra isotopes (e.g. 224 Ra = 120-150 dpm 100 L-1; Ra-226 = 200-400 dpm 100 L-1). The distinct signatures of different sources allowed us to construct seasonal Ra mass balances to estimate both groundwater discharge, which ranges from (40 +/- 60).10(3) m(3). d(-1) in summer to (310 +/- 200).10(3) m(3).d(-1) in winter, and porewater exchange fluxes, ranging from (1200 +/- 120).10(3) m(3).d(-1) in summer to (270 +/- 40).10(3) m(3) .d(-1) in winter. Whereas the seasonal variability of groundwater inputs is likely governed by the terrestrial hydraulic gradient, a qualitative evaluation of the drivers of porewater exchange suggested that the strong seasonality of the seawater recirculation inputs is likely mediated by seasonal cycles on the activity of benthic infauna. Ra isotopes are thus valuable tracers to differentiate fluxes of both submarine groundwater discharge and porewater exchange, allowing a more accurate evaluation of the fluxes of freshwater and solutes to coastal ecosystems, as well as their implications for coastal biogeochemical cycles. (C) 2016 Elsevier Ltd. All rights reserved.
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Dates et versions

hal-01765456 , version 1 (12-04-2018)

Identifiants

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Valenti Rodellas, Jordi Garcia-Orellana, Giada Trezzi, Pere Masque, Thomas Stieglitz, et al.. Using the radium quartet to quantify submarine groundwater discharge and porewater exchange. Geochimica et Cosmochimica Acta, 2017, 196, pp.58-73. ⟨10.1016/j.gca.2016.09.016⟩. ⟨hal-01765456⟩
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