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海洋中硒的双箱模式及地球化学特性 被引量:6
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作者 胡明辉 刘道礼 杨逸萍 《厦门大学学报(自然科学版)》 CAS 1988年第1期93-97,共5页
海洋浮游植物对海水硒的富集系数为228,表明硒是一种生物亲合力很强的元素。在真光层中,75%的硒为海洋生物所利用,显示硒在海洋环境是中等生物制约元素。28%的含硒生物颗粒沉溶解在深层水体,导致硒在表层水中消和浑水中富集,类似于营... 海洋浮游植物对海水硒的富集系数为228,表明硒是一种生物亲合力很强的元素。在真光层中,75%的硒为海洋生物所利用,显示硒在海洋环境是中等生物制约元素。28%的含硒生物颗粒沉溶解在深层水体,导致硒在表层水中消和浑水中富集,类似于营养盐。利用Broeeker双箱模式计算,粗略地显示了硒在大洋中的循环图象,初步确立各界面硒的通量。 展开更多
关键词 Selenium Sca Water PHYTOPLANKTON TWO -box model marine geochemistry Oceanic in terfaces Flux.
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Fluid Inclusion and Geochemistry Studies of Calcite Veins in Shizhu Synclinorium,Central China:Record of Origin of Fluids and Diagenetic Conditions 被引量:6
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作者 Xiao Wang Jian Gao +5 位作者 Sheng He Zhiliang He Yan Zhou Ze Tao Jiankun Zhang Yi Wang 《Journal of Earth Science》 SCIE CAS CSCD 2017年第2期315-332,共18页
Calcite veins in carbonate fracture have been investigated by petrographic, fluid inclusion, geochemical analyses and coupled with basin modeling techniques to provide useful insights into fluid activity and deformati... Calcite veins in carbonate fracture have been investigated by petrographic, fluid inclusion, geochemical analyses and coupled with basin modeling techniques to provide useful insights into fluid activity and deformation conditions of the Cambrian to Triassic Shizhu synclinorium from the western region of Mid-Yangtze, central China. The results of the fluid inclusion microthermometry show a wide range of homogenization temperatures(78.6–215.5 °C) and salinities(0.18–23.11 wt.% NaCl equivalent), indicating the formation under diverse fluid conditions. All the calcite veins have negative Ce anomalies, which are the typical characteristic of marine carbonate sediments; it is therefore plausible that calcite veins were precipitated from the marine basin fluid. The stable carbon isotopic compositions of calcites(δ^(13)CV-PDB=-2.5‰–4.26‰) and host limestones(δ^(13)CV-PDB=-3.56‰–5.80‰) are very similar with a correlation coefficient of 0.86, however, four calcites from the Lower Permian and Lower Triassic show lower δ^(13)C values relative to the host limestones, and they are depleted in total REE concentrations(∑REE ratio varies from 0.74 to 2.06), suggesting the derivation of dissolved carbon from marine carbonates hosting the calcite veins and, less commonly, from the degradation of organic matter. Calculated δ^(18)O of the fluids-precipitating calcites(δ^(18)OV-SMOW=-0.41‰–14.42‰), ^(87)Sr/^(86)Sr ratios varying in the range of coeval seawater and the distinct REE pattern simultaneously suggest calcite-forming fluids in each stratigraphic unit could have formed from the involvement of fluids that originated from coeval seawater and evolved through different degrees of water rock interaction. However, the presence of more radiogenic ^(87)Sr/^(86)Sr ratios than coeval seawater and pronounced positive Eu anomalies in calcites of Lower to Middle Ordovician rocks indicate that terrestrial input from upper strata mudstone and siliciclastic rocks could be involved in the precipitation of the Ordovician calcite. Fluid-inclusion data combined with burial and thermal history modeling indicate there was large-scale flow of evolved basinal fluids through the carbonate formation fractures spanning a time frame from 135 to 50 Ma(Early Cretaceous–Eocene). Therefore, the geochemical characteristics of calcite veins can provide the basis for deformation events in Late Yanshanian and Early Himalayan orogeny. 展开更多
关键词 Mid-Yangtze marine carbonate fluid flow calcite veins fluid inclusions geochemistry
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