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Zuhair B. Hafi 《Journal of African Earth Sciences》1998,26(4):643-648
Chemical analyses of more than 80 water wells penetrating the first aquifer in the coastal areas east of Tripoli indicate three different hydrochemical facies. Sodium chloride type water is mainly related to the encroachment of sea water as a result of excessive abstraction. The chemical interaction between groundwater and the aquifer materials led to the formation of calcium bicarbonate type water. Calcium chloride type is developed when the intruded sea water, very rich in Na ions, forced through the aquifer materials, and part of these cations replaced the Ca at the exchange sites of the clay minerals.Plotted against chloride, the concentrations of the Na, K, Ca, Mg, sulphate and bicarbonate species deviate considerably from the ideal mixing curves of fresh groundwater and sea water. Sulphate and bicarbonate enrichments are strongly related to the oxidation of sulphides and dissolution of calcite minerals present in the aquifer materials. Sea water intrusion and reverse cation exchanges reactions are the most important phenomena in the chemical evolution of the salinised groundwater. 相似文献
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Characterization of surface water and groundwater in the Damascus Ghotta basin: hydrochemical and environmental isotopes approaches 总被引:1,自引:0,他引:1
Zuhair Kattan 《Environmental Geology》2006,51(2):173-201
The hydrochemistry of major ions and environmental isotope compositions (18O, 2H and tritium) of water samples have been used to investigate the characteristics of rainfalls, surface water and groundwater in the Damascus Ghotta basin. The groundwater salinity in the Damascus Ghotta basin gradually increases, as the groundwater moves from western to south-eastern and north-eastern parts of the basin. A strong relationship exists between the Barada river and the surrounded groundwaters, mainly in terms of recharge by infiltration of surface waters. The groundwater quality in the Adra region has clearly become less saline as a result of establishment of the sewage-water-treatment station in this area since 1997. The uncommon depleted stable isotope concentrations in the vicinity of Al-Ateibeh Lake and Adra valley could be interpreted as a result of sub-flow recharge from the Cenomanian–Turonian aquifer, mostly prolonged along the Damascus Fault, which forms direct contact between this complex and the Quaternary alluvium aquifers. The extensive exploitation of water from the Cenomanian–Turonian aquifer for drinking water supply would shortly be reflected by a gradual decline of the groundwater table in the Damascus Ghotta basin. Amelioration of water quality in the Damascus basin still requires further management strategies and efforts to be taken within the forthcoming years. 相似文献
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Zuhair Kattan 《Hydrogeology Journal》2002,10(4):495-508
Groundwater from the Palaeogene aquifer system in north-eastern Syria has been studied using chemical and isotopic methods
to determine the effects of carbonate dissolution, sulphate reduction and geogenic CO2 incorporation in the dilution of 14C activity, and later to correct the conventional 14C water ages. The reason for this non-classical approach of correction is because the groundwater in this karstified and Nummulitic
carbonate aquifer occurs under confined and partly confined conditions, and is located in an area very close to deep faults
and fractures. Furthermore, the interconnection with the Upper Cretaceous formations, which commonly contain gypsum and hydrocarbons,
can facilitate the processes of sulphate reduction and geogenic CO2 incorporation, which should not be excluded. The dilution factor related to carbonate dissolution was estimated to be about
0.60–0.75. The dilution factor associated with sulphate reduction, which only depends on H2S content, was rather low (about 0.95). However, as a result of the local tectonic setting in this area, the influence of
geogenic CO2 incorporation was clearly high. The dilution factor associated with this effect ranges between 0.24–0.64. Consequently, the
corrected 14C ages are considerably reduced compared with those determined by classical models. Accordingly, the groundwater in the study
area can be divided into three main groups: (1) fresh, shallow and cold water of less than 1 ka age; (2) brackish, deep and
thermal water of rather old age (10.9–12.3 ka B.P.); and (3) an admixed groundwater of intermediate quality and age (1.9–6.7 ka B.P.).
Electronic Publication 相似文献
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Zuhair H. El-Isa 《Arabian Journal of Geosciences》2013,6(9):3437-3449
The historical seismicity of the last ten centuries and the instrumental data that occurred in the Gulf of Aqaba region during the period 1982–2008 are evaluated. It is found that 12 historical earthquakes have occurred with average recurrence periods 70–90 and 333–500 years for M?≥?6.0 and 7.0, respectively. Those with M?≤?6.5 appear to be incomplete and require further investigation. More than 98 % of the instrumental data has occurred in the form of swarms and sequences. The first have released about 32 % of the total energy and are most likely related to subsurface volcanic activities. Their epicentral distribution indicates that all regional faults of the gulf area are active in the present, but with clear concentration within the area bound by latitudes 28.2°–29.8° and longitudes 34.4°–35.2°. Regional strike-slip faults of the northern two basins appear to be as twice active as the normal, or more. An appreciable level of seismic hazard is envisaged as the “a” value is 6.0–6.2 while the “b” value shows a temporal variation, mostly in the range 0.8–1.05. More than 95 % of the seismic energy was released from earthquakes shallower than 22 km. This indicates a brittle upper crust and a ductile lower crust and upper mantle. Tectonic movements at depths?>?22 km appear to be aseismic. The epicentral distribution of the five swarms indicates that the lengths of the causative faults varied in the range 45–70 km. The maximum expected magnitude is Mw?=?6.8–7.2. This implies a seismic slip rate of about 0.54–0.8 Cm/year and some 20–30 % of aseismic tectonic movements. This and the sequence nature of the seismicity of this region result in a noticeable hazard reduction. Combining the seismicity data of the Gulf of Aqaba region with other geophysical, geological, tectonic, and environmental data, clearly indicate that the seismicity of this region is as old as the initiation of the gulf itself. No apparent southward or northward migration of activity is observed. 相似文献
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Zuhair Kattan 《Environmental Earth Sciences》2018,77(2):45
Hydrochemical and environmental isotope methods were used to characterize the groundwater quality in ten wells belonging to the Euphrates alluvial aquifer in Syria, with the aim to assess the origin and dynamic of groundwater salinization in this system. The Euphrates River (ER) water along its entire course in Syria is rather fresh (TDS < 0.5 g/L), and thus, it is suitable for drinking and irrigation purposes. Groundwater salinity progressively increases from north to south, changing from almost freshwater (TDS < 0.6 g/L), with a Ca–Mg and HCO3 type near the Syrian–Turkish border to brackish water (1 < TDS < 3 g/L), with a Ca–Mg or Na–Ca–Mg and SO4–HCO3 type in the vicinity of Al-Raqqa, and hence it can safely be used for irrigation. Downstream Deir-Ezzor the groundwater quality becomes fairly saline to very saline (3 < TDS < 29 g/L), with a Na–Cl type, and therefore it has an absolute hazard (SAR > 5) for irrigation uses. This pattern of chemical evolution, which is also clearly reflected in the variations of groundwater ionic ratios, completely agrees with the thermodynamic simulation results obtained by an experimental evaporation essay of a water sample taken from the ER near Deir-Ezzor. Stable isotopes permit the distinction between three main evaporation processes: under high, intermediate and low humidity conditions. Radioisotopes (3H and 14C) indicate the recent age and renewability of groundwater in this aquifer and confirm that its origin is entirely belonged to the ER water, either by direct bilateral interconnection or by vertical infiltration of the irrigation water totally taken from the ER. Relationships between major ions and δ18O values of the groundwater allow to differentiate between two main enrichment processes: either evaporation only or evaporation plus dissolution, that can explain altogether the development of groundwater salinity in such a dry area. 相似文献
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125 whole rock samples from the productive Marysville, Montana, granodiorite and the surrounding metamorphic rocks were analyzed by neutron activation analysis for gold and silver, and by atomic absorption for copper, lead and zinc. In the vicinity of known gold veins, anomalous values for gold and silver were found in both types of bedrock. Anomalies for the base metals were much less pronounced. The results indicate that systematic analysis of igneous bodies could be useful in exploration for hydrothermal ore deposits.
Zusammenfassung 125 Gesteinsproben des sogenannten produktiven Granodiorits in Marysville (Montana) wurden durch Neutronenaktivierungsanalyse auf Gold und Silber und mittels Atomabsorptionsanalyse auf Kupfer, Blei und Zink analysiert. In der Nähe bekannter Goldadern wurden in beiden Gesteinsarten ungewöhnlich hohe Gold- und Silber-Werte gefunden. Anomale Werte für Kupfer, Blei und Zink waren seltener. Die Ergebnisse zeigen, daß eine systematische Untersuchung magmatischer Gesteinskomplexe bei der Suche nach hydrothermalen Erzlagerstätten von Nutzen sein kann.相似文献
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