Radiocarbon in seawater intruding into the Israeli mediterranean coastal aquifer

Y. Yechieli; O. Sivan; B. Lazar; A. Vengosh; D. Ronen; B. Herut

doi:10.1017/s0033822200041448

Radiocarbon in seawater intruding into the Israeli mediterranean coastal aquifer

Y. Yechieli, O. Sivan, B. Lazar, A. Vengosh, D. Ronen, B. Herut

Department of Earth and Environmental sciences

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

Saline groundwaters from the Israeli coastal aquifer were analyzed for their radiocarbon and tritium content to assess the rate of seawater penetration. The low ¹⁴C 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 (<2 T.U.) indicate that recent seawater (<50 yr) did not penetrate inland. The low δ¹³C values in saline groundwater (average of -5.3% versus 0% in seawater) indicate that the dissolved carbon pool is comprised of a significant fraction of organic carbon. A linear negative correlation between δ¹³C and ¹⁴C implies that this organic source is old (low ¹⁴C values).

Original language	English
Pages (from-to)	773-781
Number of pages	9
Journal	Radiocarbon
Volume	43
Issue number	2 PART II
DOIs	https://doi.org/10.1017/s0033822200041448
State	Published - 1 Jan 2001

ASJC Scopus subject areas

Archaeology
General Earth and Planetary Sciences

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title = "Radiocarbon in seawater intruding into the Israeli mediterranean coastal aquifer",

abstract = "Saline groundwaters from the Israeli coastal aquifer were analyzed for their radiocarbon and tritium content to assess the rate of seawater penetration. The low 14C 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 (<2 T.U.) indicate that recent seawater (<50 yr) did not penetrate inland. The low δ13C values in saline groundwater (average of -5.3% versus 0% in seawater) indicate that the dissolved carbon pool is comprised of a significant fraction of organic carbon. A linear negative correlation between δ13C and 14C implies that this organic source is old (low 14C values).",

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AU - Yechieli, Y.

AU - Sivan, O.

AU - Lazar, B.

AU - Vengosh, A.

AU - Ronen, D.

AU - Herut, B.

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N2 - Saline groundwaters from the Israeli coastal aquifer were analyzed for their radiocarbon and tritium content to assess the rate of seawater penetration. The low 14C 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 (<2 T.U.) indicate that recent seawater (<50 yr) did not penetrate inland. The low δ13C values in saline groundwater (average of -5.3% versus 0% in seawater) indicate that the dissolved carbon pool is comprised of a significant fraction of organic carbon. A linear negative correlation between δ13C and 14C implies that this organic source is old (low 14C values).

AB - Saline groundwaters from the Israeli coastal aquifer were analyzed for their radiocarbon and tritium content to assess the rate of seawater penetration. The low 14C 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 (<2 T.U.) indicate that recent seawater (<50 yr) did not penetrate inland. The low δ13C values in saline groundwater (average of -5.3% versus 0% in seawater) indicate that the dissolved carbon pool is comprised of a significant fraction of organic carbon. A linear negative correlation between δ13C and 14C implies that this organic source is old (low 14C values).

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Radiocarbon in seawater intruding into the Israeli mediterranean coastal aquifer

Abstract

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