The quality of shallow groundwater in the West Lake watershed wasinvestigated form March to July 2000. Integrating with BlacklandGRASS GIS system, the DRASTIC model was used to compile the ground-water vulnerability m...The quality of shallow groundwater in the West Lake watershed wasinvestigated form March to July 2000. Integrating with BlacklandGRASS GIS system, the DRASTIC model was used to compile the ground-water vulnerability map. A land use factor was added to the DRASTICmodel and the modified model (LDRASTIC0 increased the accuracy ofprediction form 26.9/100 to 51.3/100. The vulnerability map showedthat the lowly, moderately and highly susceptible area predictedoccupied about 11.6/100, 70.9/100 and 17.5/100 of the wholewatershed, respectively. Compared with the observed values of nitrateand electric conductivity, the LDRASTIC index improved the Pearsoncorrelation coefficients form -0.010 to 0.237 and 0.380 to 0.503;Both the improved coefficients were significant at the 0.01 level.The modified DRASTIC analysis showed a Great potential as a screeningtool for policy decision-making in groundwater management.展开更多
Selected trace metals (Pb, Cd, Cu, Hg) and arsenic in seawater and surface sediments of Laizhou Bay were determined, to evaluate their spatial distribution, pollution risk and potential ecological risk. Concentratio...Selected trace metals (Pb, Cd, Cu, Hg) and arsenic in seawater and surface sediments of Laizhou Bay were determined, to evaluate their spatial distribution, pollution risk and potential ecological risk. Concentrations of the elements were 0.56-2.07, 0.14-0.38, 12.70-18.40, 0.014-0.094, and 1.13- 2.37 μg/L in the seawater and 8.94-32.2, 0.18-0.67, 4.51-30.5, 0.006-0.058, and 5.75-15.3 mg/kg in sediments for Pb, Cd, Cu, Hg and As, respectively. High concentrations of the trace metals and arsenic in seawater and surface sediments were generally observed near the fiver estuary. The pollution risk result of the elements showed that Cu was the prominent trace metal pollutant in seawater, followed by Hg, Pb, Cd and As. The metal complex pollution index in seawater was at a medium level. The most important trace metal pollutant in sediments was Cd, followed by As, Cu, Pb, and Hg. Our pollution assessment suggests that trace metal pollution in Laizhou Bay sediments was at a low level. The potential ecological risk was also low in surface sediment.展开更多
Lebanese marine water is exposed to multi-point source contaminants. Risk assessment associated with deteriorative water quality profile is not only affected by the disposed quantities of specific contaminant, but als...Lebanese marine water is exposed to multi-point source contaminants. Risk assessment associated with deteriorative water quality profile is not only affected by the disposed quantities of specific contaminant, but also its chemical speciated forms. The objective of this study is to quantify the Lebanese chemical marine water profile. Sea water samples were collected based on GIS map. The chemical water quality was assessed by measuring the macro water parameters and potential existing metals. The microbiological profile of water was evaluated by fecal coliform. Results showed contamination by fecal coliform and high levels of toxic metals. However, the actual projected impact of the detected metals on human health were assessed using geochemical models "FREEQCE" and "Mineq+" that predict the metal species forms, mainly, the free aqua-metal ion, most toxic form. Thus, these results necessitate the proposal of integrated intervention plans for the protection of this marine source and consistent with international treaties.展开更多
基金Project supported by the British Council (No. SHA/992/297) and the Zhejiang Provincial Science and Technology Development Found
文摘The quality of shallow groundwater in the West Lake watershed wasinvestigated form March to July 2000. Integrating with BlacklandGRASS GIS system, the DRASTIC model was used to compile the ground-water vulnerability map. A land use factor was added to the DRASTICmodel and the modified model (LDRASTIC0 increased the accuracy ofprediction form 26.9/100 to 51.3/100. The vulnerability map showedthat the lowly, moderately and highly susceptible area predictedoccupied about 11.6/100, 70.9/100 and 17.5/100 of the wholewatershed, respectively. Compared with the observed values of nitrateand electric conductivity, the LDRASTIC index improved the Pearsoncorrelation coefficients form -0.010 to 0.237 and 0.380 to 0.503;Both the improved coefficients were significant at the 0.01 level.The modified DRASTIC analysis showed a Great potential as a screeningtool for policy decision-making in groundwater management.
基金Supported by the Shandong Key Laboratory of Marine Ecological Restoration,Shandong Marine Fisheries Research Institute(No.201211)the National Natural Science Foundation of China(No.41206120)
文摘Selected trace metals (Pb, Cd, Cu, Hg) and arsenic in seawater and surface sediments of Laizhou Bay were determined, to evaluate their spatial distribution, pollution risk and potential ecological risk. Concentrations of the elements were 0.56-2.07, 0.14-0.38, 12.70-18.40, 0.014-0.094, and 1.13- 2.37 μg/L in the seawater and 8.94-32.2, 0.18-0.67, 4.51-30.5, 0.006-0.058, and 5.75-15.3 mg/kg in sediments for Pb, Cd, Cu, Hg and As, respectively. High concentrations of the trace metals and arsenic in seawater and surface sediments were generally observed near the fiver estuary. The pollution risk result of the elements showed that Cu was the prominent trace metal pollutant in seawater, followed by Hg, Pb, Cd and As. The metal complex pollution index in seawater was at a medium level. The most important trace metal pollutant in sediments was Cd, followed by As, Cu, Pb, and Hg. Our pollution assessment suggests that trace metal pollution in Laizhou Bay sediments was at a low level. The potential ecological risk was also low in surface sediment.
文摘Lebanese marine water is exposed to multi-point source contaminants. Risk assessment associated with deteriorative water quality profile is not only affected by the disposed quantities of specific contaminant, but also its chemical speciated forms. The objective of this study is to quantify the Lebanese chemical marine water profile. Sea water samples were collected based on GIS map. The chemical water quality was assessed by measuring the macro water parameters and potential existing metals. The microbiological profile of water was evaluated by fecal coliform. Results showed contamination by fecal coliform and high levels of toxic metals. However, the actual projected impact of the detected metals on human health were assessed using geochemical models "FREEQCE" and "Mineq+" that predict the metal species forms, mainly, the free aqua-metal ion, most toxic form. Thus, these results necessitate the proposal of integrated intervention plans for the protection of this marine source and consistent with international treaties.
