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A Better-developed soil profile during biblical times in the western Galilee. 15N evidence in 14C - dated groundwater

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Despite almost a hundred years of reforestation efforts, the recharge area of the Judea Group aquifer in the hills of the western Galilee still shows the signs of the severe soil erosion that transpired in previous centuries. At present the soil profile is thin and basement rock is often exposed. Historical and Biblical sources suggest that the hills in the past were more forested. Therefore, the delta 15N values of dissolved nitrate were measured in radiocarbondated groundwater to see if evidence for past soil conditions could be deduced. Nitrate mineralization processes in soils lead to enrichment in 15 N of the residual nitrate, which being dissolved by rain enters into the groundwater without further isotopic fractionation. Previous studies have shown that there is a trend of increasing delta 15 N in a soil profile from plant, to litter, to the organic material in the soil. In addition, there is a tendency for higher delta 15 N values to be observed in those samples that have been taken at greater depth in a soil profile due to progressive mineralization and subsequent nitrification of soil organic material. As long as the dissolved oxygen is not depleted, denitrification will not occur to alter the isotopic composition of the dissolved nitrate. The nitrate concentrations and delta 15 N values, water chemistry, tritium and radiocarbon activities were measured from the phreatic outcrop recharge region, and onwards into the confined portions of the Judea Group aquifer and its continuation into the juxtaposed Kurdani and Pleistocene aquifers. The radiocarbon activity decreases with flow. Tritium values of above 2 TU are restricted to the recharge region. Using an initial 14 C activity of 64 pMC the radiocarbon ages of the water are found to range from recent to 7800 BP. The delta 15 N values of the dissolved nitrate within the young water recharge area fall in the range of +3.1 to +4.8› (Air), having a mean of +3.9› (n=5). In older water the nitrate concentration increases slightly, while the delta 15 N ranges from +4.7 to +7.2› (Air), having a mean of +6.4› (n=17). The increase in the delta 15 N values in the older water down-dip is not due to denitrification processes; for, the waters are well oxygenated. These older waters infiltrated at the same point of origin in the phreatic portions of the aquifer (non-contaminated) as the recent water. As the earlier infiltrating water flowed down dip they retained the delta 15 N values of the environment at that time. The delta 15 N values present evidence that, compared to the present, the soil and plant cover was better developed in earlier times, including Biblical times.
Wydawca
Czasopismo
Rocznik
Tom
Strony
79--84
Opis fizyczny
Bibliogr. 17 poz., rys.
Twórcy
autor
  • Department of Geophysics and Planetary Sciences, Tel-Aviv University, Tel-Aviv, Israel
autor
  • Department of Geophysics and Planetary Sciences, Tel-Aviv University, Tel-Aviv, Israel
autor
  • Radiocarbon Laboratory, Weizmann Institute of Science, Rehovot, Israel
autor
  • Quaternary Dating Research Unit, CSIR, Pretoria, South Africa
Bibliografia
  • 1. Benvenisti M., 1970: The Crusaders in the Holy Land. Israel Universities Press, Jerusalem: 408 pp.
  • 2. Clark I. and Fritz P., 1997: Environmental Isotopes in Hydrology. Lewis Publishers, New York: 328 pp.
  • 3. Goodfriend G.A., 1988: Mid-Holocene rainfall in Negev Desert from 13C of snail shell organic matter. Nature 333: 757-760.
  • 4. Gormly J.R. and Spalding R.F., 1979: Sources and concentrations of nitrate-nitrogen in groundwater of the Central Plate Region, Nebraska. Ground Water 17: 291-301.
  • 5. Heaton T.H.E., 1984: Sources of nitrate in groundwater in the western Kalahari. Journal of Hydrology 67: 249-259.
  • 6. Ingerson E. and Pearson F.J. Jr., 1964: Estimation of age and rate of motion of groundwater by the 14C method. In: Recent researches in the fields of atmosphere, hydrosphere and nuclear geochemistry, Sugawara Festival Volume, Maruzen Co., Tokyo: 263-283.
  • 7. Komor S.C. and Anderson H.W., Jr., 1993: Nitrogen isotopes as indicators of nitrate sources in Minnesota sand-plain aquifers. Ground Water 31: 260-270.
  • 8. Kroitoru L., Carmi I. and Mazor E., 1989: Groundwater 14C activity as affected by initial water-rock interactions in the Judean Mounains, Israel. Chemical Geology (Isotope Geoscience Section) 79: 259-274.
  • 9. Kronfeld J., Vogel J.C., and Rosenthal A., 1992: Natural isotopes and water stratification in the Judea Group aquifer (Judea Desert). Israel Journal of Earth Sciences 39: 71-77.
  • 10. Lajtha K. and Michener R.H. (Eds.), 1994: Stable Isotopes in Ecology and Environmental Science. Blackwell Science Publications, Oxford: 316 pp.
  • 11. Magaritz M., Issar A. and Azmon E., 1983: On the genesis of discordant dolostones bodies in the Northeastern Negev, Israel. Chemical Geology 39: 93-114.
  • 12. Mero D., 1983: Subsurface geology of Western Galilee and Zevulun Plain. Tahal, Tel-Aviv, Internal Report No. 04/83/48: 36 pp.
  • 13. Mook W.G., Bommerson J.C., and Staverman W.H., 1974: Carbon isotope fractionation between dissolved bicarbonate and gaseous dioxide. Earth and Planetary Science Letters 22: 169-176.
  • 14. Rogojin V., 2000: The use of natural isotopes as an aid in studying the geohydrological processes in the multi-aquiferal system of the Haifa Bay region. Ph.D. Thesis, Tel-Aviv University: 71 pp.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT3-0007-0019
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