TY - JOUR
T1 - The inter-relationship between coastal sub-aquifers and the Mediterranean Sea, deduced from radioactive isotopes analysis
AU - Yechieli, Yoseph
AU - Kafri, Uri
AU - Sivan, Orit
N1 - Funding Information:
Thanks are due to H. Hemo for his great help in the sampling campaigns, to V. Friedman for his support throughout this project, to B. Lazar and B. Herut for their cooperation in the early stage of this project and for the help in the laboratory, to Y. Shalem for the extractions for the radiocarbon analyses, to D. Stiber, S. Erhlich and O. Yaffe for the chemical analyses, to B. Shilman for the stable isotope analyses, to E. Boaretto, G. Mintz and I. Carmi for the radioactive analyses, and to B. Cohen and C. Netzer for their help in the graphics. This study was funded by a grant from the Israeli Water Authority.
PY - 2009/3/5
Y1 - 2009/3/5
N2 - Radioactive isotopes were used to estimate the rate of seawater intrusion into the coastal aquifer of Israel, the connection between the different sub-aquifers, and the connection between the sub-aquifers and the sea. This was done by dating both fresh and saline groundwaters from the vicinity of the shoreline, which were analyzed for their 14C and tritium content together with their chemical and stable isotope composition. The results indicate that the distinct sub-aquifers differ in their water chemistry and age. The saline groundwater in the lower sub-aquifers is older than ca. 10,000 years, as evidenced by the absence of tritium and low 14C activity (<12 PMC). On the other hand, saline groundwaters in the upper sub-aquifers contain tritium and are thus younger than 50 years, indicating recent intrusion of seawater. The ages of the saline groundwaters become younger upward from the lower sub-aquifers to the upper ones, reflecting the sea-level rise since the last glacial period. The older ages also imply slow groundwater flow in the lower sub-aquifers. The fresh groundwaters in most cases in the lower sub-aquifers were found to be older than ca. 10,000 years and this implies that the flow to the sea is blocked or restricted.
AB - Radioactive isotopes were used to estimate the rate of seawater intrusion into the coastal aquifer of Israel, the connection between the different sub-aquifers, and the connection between the sub-aquifers and the sea. This was done by dating both fresh and saline groundwaters from the vicinity of the shoreline, which were analyzed for their 14C and tritium content together with their chemical and stable isotope composition. The results indicate that the distinct sub-aquifers differ in their water chemistry and age. The saline groundwater in the lower sub-aquifers is older than ca. 10,000 years, as evidenced by the absence of tritium and low 14C activity (<12 PMC). On the other hand, saline groundwaters in the upper sub-aquifers contain tritium and are thus younger than 50 years, indicating recent intrusion of seawater. The ages of the saline groundwaters become younger upward from the lower sub-aquifers to the upper ones, reflecting the sea-level rise since the last glacial period. The older ages also imply slow groundwater flow in the lower sub-aquifers. The fresh groundwaters in most cases in the lower sub-aquifers were found to be older than ca. 10,000 years and this implies that the flow to the sea is blocked or restricted.
KW - Coastal aquifer
KW - Groundwater age
KW - Israel
KW - Paleohydrology
KW - Radioactive isotopes
UR - http://www.scopus.com/inward/record.url?scp=61349106677&partnerID=8YFLogxK
U2 - 10.1007/s10040-008-0329-7
DO - 10.1007/s10040-008-0329-7
M3 - Article
AN - SCOPUS:61349106677
SN - 1431-2174
VL - 17
SP - 265
EP - 274
JO - Hydrogeology Journal
JF - Hydrogeology Journal
IS - 2
ER -