Formation Mechanism of Sr Isotopes in Groundwater of Hebei Plain
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摘要: 为了研究河北平原地下水锶同位素的来源与形成机理, 对所采水样进行了分析.研究了87Sr/86Sr比值“时间积累效应”: 随着地下水年龄和埋深的增大而增大; 与地下水中过剩4Heexc呈正相关关系, 与δ18O和δD呈负相关关系.探讨了Sr2+与87Sr/86Sr比值的关系, 将地下水分为3类: (1) 中等Sr2+含量与高87Sr/86Sr比值水(Ⅰ类水); (2) 低Sr2+含量与高87Sr/86Sr比值水(Ⅱ类水); (3) 高Sr2+含量与低87Sr/86Sr比值水(Ⅲ类水), 即热水.通过综合分析认为: (1) 河北平原第四系地下水中的放射成因Sr是由富含Na和Rb的硅酸盐矿物风化作用提供的, 主要矿物为斜长石; (2) 黄骅港热水中的放射成因Sr是由碳酸盐溶解形成的, 87Sr/86Sr比值低, Sr/Na比值大; (3) 补给区地下水是由流经火成岩和变质岩区地下水的侧向补给的, 87Sr/86Sr比值中等.第三系地下水放射成因Sr的来源及形成机理尚须进一步研究.Abstract: To analyze the genesis of Sr isotopes ingroundwater of Hebei plain, time-accumulative effect of 87Sr/86Sr ratios was studied. It is shown that 87Sr/86Sr ratio increases with the increasing age and depth of groundwater and has a positive correlation to 4Heexc and a negative correlation to δ18O and δD. The groundwater is divided into three groups to discuss the relation between 87Sr/86Sr ratio and Sr2+ content: (1) moderate Sr2+ content and higher 87Sr/86Sr (water I); (2) lower Sr2+content and higher 87Sr/86Sr (water Ⅱ); and (3) higher Sr2+ content and lower 87Sr/86Sr (water Ⅲ), that is hot water. On the basis of integrated analysis, it was considered that (1) the radiogenic Sr in the Quaternary groundwater (Q4-Q1) originates from weathering of silicate rich in Na and Rb, mainly from plagioclase; (2) the radiogenic Sr of hot water in Huanghua port is attributed to carbonate dissolution, with lower 87Sr/86Sr and higher Sr/Na; (3) the recharge area is laterally recharged by the groundwater flowing through igneous and metamorphic rocks, with moderate 87Sr/86Sr ratio. However, the genesis of Sr isotopes in Tertiary groundwater needs further studies.
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Key words:
- strontium /
- 87Sr/86Sr /
- groundwater /
- Hebei plain.
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图 1 河北平原第四纪地层轻矿物含量变化对比图(据陈望和和倪明云, 1987)
Fig. 1. Comparison by content between quartz and feldspar in Quaternary stratum of Hebei plain
图 2 河北平原地下水溶解锶浓度和其他主要离子浓度关系
Fig. 2. Relations between dissolved strontium (Sr2+) and other main ions in the groundwater of Hebei plain
图 5 δ87Sr与[Cl-] (a)和δ87Sr与[Sr2+]/[Na+] (b) 关系
Fig. 5. Relations between δ87Sr and [Cl-] (a) andδ87Sr and [Sr2+]/[Na+] (b)
表 1 沧州地区地层中元素平均含量与克拉克值的对比(据杨子赓, 1979)
Table 1. Comparison between mean element content and carat gram value from Quaternary stratum of Cangzhou
表 2 研究区深层地下水化学分析结果及取样深度(单位: mg/L)
Table 2. Groundwater chemical data and depth of study area
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