Radiocarbon

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Saline groundwaters from the Israeli coastal aquifer were analyzed for their radiocarbon and tritium content to assess the rate of seawater penetration. The low (super 14) C values (28-88 pMC versus 100-117 pMC in seawater) imply an apparent non-recent seawater source, or water-rock interactions along the penetration route. The latter process is supported by measurable tritium values at some locations, which imply a relatively rapid rate of seawater intrusion. In other locations, low tritium values ($lt;2 T.U.) indicate that recent seawater ($lt;50 yr) did not penetrate inland. The low delta (super 13) C values in saline groundwater (average of -5.3 per mil versus 0 per mil in seawater) indicate that the dissolved carbon pool is comprised of a significant fraction of organic carbon. A linear negative correlation between delta (super 13) C and (super 14) C implies that this organic source is old (low (super 14) C values).

water resources;water rock interaction;salinization;salt water intrusion;hydrogen;tritium;residence time;hydrochemistry;tracers;Israel;coastal environment;sea water;ground water;aquifers;pollution;Middle East;isotope ratios;Mediterranean region;Asia;C 14;carbon;isotopes;radioactive isotopes;C 13 C 12;stable isotopes;geochemistry