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羌塘盆地晚侏罗世夏里组磁学参数指示的沉积环境及其成盐意义 被引量:5
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作者 曾永耀 何沛锋 +5 位作者 赵涛 祁红梅 赵培植 高磊 王建设 张伟 《地质学报》 EI CAS CSCD 北大核心 2018年第3期618-628,共11页
羌塘盆地位于青藏高原中部,是一个具有沉积钠盐、钾盐远景的蒸发岩盆地。最近在羌塘盆地上侏罗统夏里组中发现多处具有钾、钠异常的盐泉这一重要的找钾盐线索,然而目前对上侏罗统夏里组的古环境演变仍然不甚了解,限制了对晚侏罗世羌塘... 羌塘盆地位于青藏高原中部,是一个具有沉积钠盐、钾盐远景的蒸发岩盆地。最近在羌塘盆地上侏罗统夏里组中发现多处具有钾、钠异常的盐泉这一重要的找钾盐线索,然而目前对上侏罗统夏里组的古环境演变仍然不甚了解,限制了对晚侏罗世羌塘盆地的成盐(成钾)条件和可能的层位等重大科学问题的理解。因此本文以热磁分析为主,对羌塘盆地雁石坪地区上侏罗统夏里组沉积物进行高分辨率岩石磁学研究,并讨论其古环境意义。最后,根据成盐(成钾)理论,综合分析羌塘盆地上侏罗统夏里组成盐(成钾)的构造、气候和物源条件。κ-T曲线、磁滞回线和热退磁结果共同表明磁铁矿和赤铁矿是夏里组的主要载磁矿物;磁学参数分析表明夏里组上段赤铁矿含量相对增加,揭示夏里组上段形成于干旱气候环境;综合分析构造、气候和物源条件表明,羌塘盆地上侏罗统夏里组上段最为具备良好的成盐(成钾)条件。 展开更多
关键词 岩石磁学 晚侏罗世 羌塘盆地 夏里组 沉积环境 成盐
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Sedimentary Conditions of Evaporites in the Late Jurassic Xiali Formation,Qiangtang Basin:Evidence from Geochemistry Records 被引量:5
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作者 SONG Chunhui zeng yongyao +7 位作者 YAN Maodu FANG Xiaomin FENG Ying PAN Jiaqiu LIU Xifang MENG Qingquan HU Chunhua ZHONG Sirui 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2017年第1期156-174,共19页
The Qiangtang Basin(QB), located in the central Tibetan Plateau, is a Jurassic marine basin and one of the most important prospective salt resource belts in China. In recent decades, many outcrops of gypsiferous bed... The Qiangtang Basin(QB), located in the central Tibetan Plateau, is a Jurassic marine basin and one of the most important prospective salt resource belts in China. In recent decades, many outcrops of gypsiferous bed have been found in the Jurassic marine strata in the basin. Salt springs with abnormally high sodium(Na-+) contents had been identified in the Late Jurassic Xiali Formation(Fm.) in the basin in the last years. However, to date, no potash or halite deposits have been identified in the QB. Gypsum outcrops and salt springs are very important signs in the investigation of halite and potash deposits. Therefore, the Xiali Fm. is a potentially valuable layer to evaluate for the possible presence of halite and potash deposits in the basin. However, few studies have explored the formation conditions of evaporites in the unit. Here, we present detailed geochemical records from the Yanshiping section related to the study of the formation conditions of evaporites in the Xiali Fm. of the QB. Climate proxies based on the obviously increased anion concentrations of SO4(2-) and Cl-- and the significant correlation coefficients of Ca2+-SO42-(R = 0.985) and Na-+-Cl--(R = 0.8974) reveal that the upper member of the Xiali Fm.(the upper Xiali Fm.) formed under an arid climate and evolved into the sulfate phase or early chloride phase. Provenance proxies based on the obviously increased K-+ and Na-+ ion concentrations and the significant correlation coefficient of Na-+-Cl--(R = 0.8974) suggest that the upper Xiali Fm. featured optimal provenance conditions for the possible formation of halite deposits. The regression and the semi-closed tidal flat environment in the upper Xiali Fm. were favorable for the formation of potash and halite deposits. The low Mg-(2+) /Ca-(2+) values(mean value = 1.82) and significant Na-+-Cl-- correlation coefficient(R = 0.8974) also suggest that the upper Xiali Fm. is the layer most likely to contain potential halite deposits. In addition, the macroscopic correlations of tectonism, provenance, paleoclimate, saliferous strata and sedimentary environment between the QB and the adjoining Amu Darya Basin in Central Asia reveal that the two basins shared similar geologic settings that were favorable for the formation of evaporites during the Late Jurassic. Therefore, the upper Xiali Fm. is a valuable layer to explore for halite deposit and may be potentially valuable in the future exploration for potash deposits in the QB. 展开更多
关键词 EVAPORITES GEOCHEMISTRY Late Jurassic Xiali Formation Qiangtang Basin
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中国南方红土磁化率的古气候意义研究 被引量:6
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作者 曾永耀 高磊 +1 位作者 赵文青 赵涛 《干旱区资源与环境》 CSSCI CSCD 北大核心 2020年第5期133-139,共7页
黄土-古土壤的磁化率作为反演古气候演化的物理参数在中国、中亚、欧洲和北美等地均得到了证实,被广泛用于海陆气候对比和定量重建古气候。自此之后,不同学者尝试将磁化率反演古环境的应用范围从黄土-古土壤扩大到中国南方红土。然而对... 黄土-古土壤的磁化率作为反演古气候演化的物理参数在中国、中亚、欧洲和北美等地均得到了证实,被广泛用于海陆气候对比和定量重建古气候。自此之后,不同学者尝试将磁化率反演古环境的应用范围从黄土-古土壤扩大到中国南方红土。然而对磁化率这一物理参数能否作为反演古气候的代用指标完全适用于中国南方红土依然存在很大分歧,甚至是截然相反的认识。显然要准确理解红土磁化率是否具有明确的古气候意义,就需要研究黄土-古土壤磁化率之所以能作为古气候代用指标的物理化学机制,以及红土沉积物是否和黄土-古土壤一样具有相似的磁性矿物形成机理。因此本文在总结黄土-古土壤磁学性质(磁性矿物的形成机理、磁性矿物的种类及粒度特征)的基础上,来讨论红土磁化率参数是否具有明确的古气候意义。 展开更多
关键词 南方红土 磁化率 古气候
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