机构地区:[1]School of Environment Studies, China University of Geosciences [2]State Key Laboratory of Biogeology and Environmental Geology, China University of Geosciences [3]Tianjin Institute of Geology and Mineral Resources
出 处:《Journal of Earth Science》2015年第3期445-452,共8页地球科学学刊(英文版)
基 金:financially supported by the National Natural Sciences Foundation of China (No. 41272258);the National Basic Research Program of China (No. 2010CB428802)
摘 要:The record of paleo-environment in clayey aquitard pore water is much more effective relative to aquifer groundwater owing to the low permeability of clayey aquitard. Oxygen-18(18O), deuterium(D), and chemical patterns were determined in pore water samples extracted from two 500 m depth boreholes, G1 and G2, in western Bohai Bay, China. Shallow pore water samples(depth〈102 m) are saline water, with the TDS(total dissolved solids) of 3.69–30.75 g/L, and deeper ones(depth=102–500 m) are fresh water, with the TDS〈1 g/L. Content of major ions(i.e., Cl-, Na+, K+, Mg2+, SO2-4, Ca2+) is high in marine sediment pore water samples and gradually decrease towards to terrestrial sediment pore water, together with the Cl/Br and Sr/Ba ratios changing significantly in different sedimentary facies along the study profile, indicating that pore water may be paleo-sedimentary water and not replaced by modern water. δ18O profile and positive correlation between δ18O and Cl- of shallow saline pore water indicated diffusion as the main transport mechanism, and distinguished four transgressive layers since Late Quaternary(i.e., Holocene marine unit, two Late Pleistocene marine units and Middle Pleistocene marine unit), further supporting the finding that pore water retained the feature of paleo-sedimentary water. Climate was identified as the main influence on the isotopic signature of aquitard pore water and four climate periods were determined by δ18O profile.The record of paleo-environment in clayey aquitard pore water is much more effective relative to aquifer groundwater owing to the low permeability of clayey aquitard. Oxygen-18(18O), deuterium(D), and chemical patterns were determined in pore water samples extracted from two 500 m depth boreholes, G1 and G2, in western Bohai Bay, China. Shallow pore water samples(depth〈102 m) are saline water, with the TDS(total dissolved solids) of 3.69–30.75 g/L, and deeper ones(depth=102–500 m) are fresh water, with the TDS〈1 g/L. Content of major ions(i.e., Cl-, Na+, K+, Mg2+, SO2-4, Ca2+) is high in marine sediment pore water samples and gradually decrease towards to terrestrial sediment pore water, together with the Cl/Br and Sr/Ba ratios changing significantly in different sedimentary facies along the study profile, indicating that pore water may be paleo-sedimentary water and not replaced by modern water. δ18O profile and positive correlation between δ18O and Cl- of shallow saline pore water indicated diffusion as the main transport mechanism, and distinguished four transgressive layers since Late Quaternary(i.e., Holocene marine unit, two Late Pleistocene marine units and Middle Pleistocene marine unit), further supporting the finding that pore water retained the feature of paleo-sedimentary water. Climate was identified as the main influence on the isotopic signature of aquitard pore water and four climate periods were determined by δ18O profile.
关 键 词:AQUITARD pore water PALEO-ENVIRONMENT GEOCHEMISTRY Bohai Bay
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