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RISS 인기검색어
- 검색키워드
- 저자 : Genereux, David P. (검색결과 1 건)
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Koh, Dong-Chan,Genereux, David P.,Koh, Gi-Won,Ko, Kyung-Seok Elsevier 2017 Chemical geology Vol.467 No.-
<P><B>Abstract</B></P> <P>Groundwater from pristine volcanic rock aquifers on dormant Jeju Island, Korea, was investigated to identify sources and geochemical processes of dissolved inorganic carbon (DIC) and related solutes along with characteristics of groundwater flow using a multi-isotope approach. δ<SUP>18</SUP>O, δ<SUP>2</SUP>H, and <SUP>3</SUP>H of groundwater indicated the water is of meteoric origin, and is mainly derived from recent recharge, except Na-rich mineral water which has a significant contribution of <SUP>3</SUP>H-free old water. <SUP>87</SUP>Sr/<SUP>86</SUP>Sr of dissolved Sr suggests that solutes in groundwater were mainly derived from old alkali basalt in the lower part of lava flows. δ<SUP>13</SUP>C<SUB>CO2(g)</SUB> calculated using δ<SUP>13</SUP>C<SUB>DIC</SUB> and measured hydrogeochemical parameters indicated that (1) biogenic soil CO<SUB>2</SUB> is a dominant source of DIC in low mineralized water, (2) CO<SUB>2</SUB>-rich water had mostly mantle-derived magmatic CO<SUB>2</SUB>, and (3) mineral water contained both biogenic and magmatic CO<SUB>2</SUB>. δ<SUP>13</SUP>C<SUB>CO2(g)</SUB> in mineral water was affected by precipitation of calcite, which complicated the estimation of the contribution of CO<SUB>2</SUB> sources to DIC. Concentrations of mobile elements were mainly controlled by the amount of magmatic CO<SUB>2</SUB> and groundwater residence time. δ<SUP>13</SUP>C<SUB>CO2(g)</SUB> and <SUP>3</SUP>H content were used to distinguish four types of groundwater with different spatial patterns of occurrence in relation to the volcanic stratigraphy of Jeju Island. Groundwater types I and II are low mineralized water with lower levels of DIC from biogenic CO<SUB>2</SUB>, composed of either recent recharge (<40years, type I) or older water with negligible <SUP>3</SUP>H (>60years, type II). Type III is Mg-rich mineral water with significant recent recharge while type IV is Na-rich mineral water with older residence time. Types III and IV had somewhat elevated levels of DIC (up to 7.6mM) with mixed signatures of magmatic and biogenic CO<SUB>2</SUB>, while CO<SUB>2</SUB>-rich water (a subset of type III) had DIC up to 100mM with signatures of mantle-derived magmatic CO<SUB>2</SUB>. Groundwater in the eastern area of Jeju Island is mostly type I, which can be attributed to a lack of both low-permeability rocks and recent volcanic rocks in that area. Types III and IV were found in the western area where the latest volcanic rocks are distributed. In the southwestern area, type III is associated with permeable basaltic aquifers with a contribution of magmatic CO<SUB>2</SUB> and type IV is from the younger lava flows dissected by older massive trachytic rocks and shallower hydrovolcanic tuffs, which led to the higher degree of mineralization. A conceptual model is proposed to integrate the chemical and isotopic constraints of groundwater with volcanic stratigraphy and suggest the processes that generated groundwater types with different residence times and chemical compositions. This study may contribute to understanding the processes of groundwater flow and mineralization in volcanic aquifers affected by deep-source CO<SUB>2</SUB> and variable residence time of groundwater in both dormant and active volcanic areas.</P>
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