Using groundwater geochemistry and environmental isotopes to assess the correction of 14C ages in a silicate-dominated aquifer system

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School of Geosciences, Monash University, Clayton, 3800, Australia [1 ]
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J. Hydrol. | / 1-4卷 / 174-187期
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Aquifers
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  • [1] Using groundwater geochemistry and environmental isotopes to assess the correction of 14C ages in a silicate-dominated aquifer system
    Cartwright, Ian
    [J]. JOURNAL OF HYDROLOGY, 2010, 382 (1-4) : 174 - 187
  • [2] A new correction model for 14C ages in aquifers with complex geochemistry - Application to the Neogene Aquifer, Belgium
    Coetsiers, Marleen
    Walraevens, Kristine
    [J]. APPLIED GEOCHEMISTRY, 2009, 24 (05) : 768 - 776
  • [3] Comparison of 4He ages and 14C ages in simple aquifer systems:: implications for groundwater flow and chronologies
    Castro, MC
    Stute, M
    Schlosser, P
    [J]. APPLIED GEOCHEMISTRY, 2000, 15 (08) : 1137 - 1167
  • [4] Testing the 14C ages and conservative behavior of dissolved 14C in a carbonate aquifer in Yucca Flat, Nevada (USA), using 36Cl from groundwater and packrat middens
    Kwicklis, Edward
    Farnham, Irene
    [J]. HYDROGEOLOGY JOURNAL, 2014, 22 (06) : 1359 - 1381
  • [5] Using Stable Isotopes to Assess Groundwater Recharge and Solute Transport in a Density-Driven Flow-Dominated Lake-Aquifer System
    Valiente, Nicolas
    Dountcheva, Iordanka
    Sanz, David
    Jose Gomez-Alday, Juan
    [J]. WATER, 2022, 14 (10)
  • [6] 14C dating of deep groundwater in the Bengal Aquifer System, Bangladesh: Implications for aquifer anisotropy, recharge sources and sustainability
    Hoque, Mohammad A.
    Burgess, William G.
    [J]. JOURNAL OF HYDROLOGY, 2012, 444 : 209 - 220
  • [7] Carbon isotopes in pore water of the unsaturated zone and their relevance for initial 14C activity in groundwater in the coastal aquifer of Israel
    Carmi, I.
    Kronfeld, J.
    Yechieli, Y.
    Yakir, D.
    Boaretto, E.
    Stiller, M.
    [J]. CHEMICAL GEOLOGY, 2009, 268 (3-4) : 189 - 196
  • [8] Using 14C and 3H to understand groundwater flow and recharge in an aquifer window
    Atkinson, A. P.
    Cartwright, I.
    Gilfedder, B. S.
    Cendon, D. I.
    Unland, N. P.
    Hofmann, H.
    [J]. HYDROLOGY AND EARTH SYSTEM SCIENCES, 2014, 18 (12) : 4951 - 4964
  • [9] Understanding the dynamics and contamination of an urban aquifer system using groundwater age (14C, 3H, CFCs) and chemistry
    Mahlknecht, Jurgen
    Hernandez-Antonio, Arturo
    Eastoe, Christopher J.
    Tamez-Melendez, Carol
    Ledesma-Ruiz, Rogelio
    Ramos-Leal, Jose A.
    Ornelas-Soto, Nancy
    [J]. HYDROLOGICAL PROCESSES, 2017, 31 (13) : 2365 - 2380
  • [10] Inverse modelling using 14C ages:: Application to groundwater in the Danube-Tisza interfluvial region of Hungary
    Sanford, WE
    Revesz, K
    Deak, J
    [J]. NEW APPROACHES CHARACTERIZING GROUNDWATER FLOW, VOLS 1 AND 2, 2001, : 401 - 404
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