低海平面干旱气候下的白云化作用——以川西坳陷中三叠统雷口坡组雷四段为例

IF 1.2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Australian Journal of Earth Sciences Pub Date : 2023-02-23 DOI:10.1080/08120099.2023.2173653
Y. Qing, S. Li, Z. Liao, Y. Li, Z. Lv, X. Song, Q. Cao
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引用次数: 0

摘要

摘要川西坳陷中三叠统雷口坡组雷4段(T2l4)白云岩的成因尚不清楚。通过偏光薄片和阴极发光、主元素和微量元素、扫描电子显微镜以及碳、氧和锶同位素分析,分析了T2l4中白云岩的发生和成因演化。研究结果总结如下。(1) 白云岩主要在1、Na三个阶段沉淀,Na明显高于共存的T2l4石灰岩,白云岩始终与石膏等蒸发矿物共存,表明白云石化流体主要来源于蒸发浓缩海水。(3) 根据微量元素分布模式以及与T2l4共存石灰岩一致的碳和氧同位素值,白云岩主要继承了前体石灰岩的物质。(4) 在同生期微生物的介导下,微晶白云岩和一些藻类白云岩是通过取代文石和方解石形成的。浅埋过程中,潮上带-潮间带富含Mg2+的浓缩海水由于重力沿平台向下流动,取代了下伏的碳酸盐岩,促进了早期白云岩的持续生长。在中期埋藏期,Mg2+贫化的白云石化流体导致早期泥晶白云岩和粉砂质结晶白云岩重结晶为具有较大晶体的粉砂质或细晶白云岩,并将组构保持白云岩变为结晶白云岩。(5) 在近地表环境中沉积的蒸发白云岩具有Fe、Sr和Na富集最大、δ18O值最高、有序度最低和Ca/Mg比值最高的特征。回流白云岩形成于浅埋环境中,其特征是Fe最低,δ18O值中等,有序度最低。在中等埋藏环境中发育的埋藏白云岩具有Fe和Mn相对富集、Na含量最低、δ18O值最低、有序度最高和Ca/Mg比值中等的特征。要点组构保持白云岩主要形成于近地表浅埋环境,结晶白云岩主要在中等埋藏条件下形成。白云岩流体主要来源于蒸发浓缩海水,白云岩继承了前体石灰岩的物质。泥质白云岩是由蒸发白云石化作用形成的;藻类白云岩和粒状白云岩是由蒸发白云石化和回流白云石化形成的;粉砂质结晶白云岩由回流白云石化和埋藏白云石化形成。
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Dolomitisation under an arid climate at low sea-level: a case study of the Lei 4 Member of the Middle Triassic Leikoupo Formation, Western Sichuan Depression, China
Abstract The origin of dolostones from the Lei 4 Member (T2l4) of the Middle Triassic Leikoupo Formation in the Western Sichuan Depression is unclear. The occurrence and genetic evolution of dolostones in T2l4 were analysed by polarised thin-sections and cathodoluminescence, major- and trace-element, scanning electron microscope, and carbon, oxygen and strontium isotope analyses. The study results are summarised as follows. (1) The dolostones were mainly precipitated in three stages of <40 °C, 40–60 °C and 60–80 °C, corresponding with three paleodepth ranges of 167–300 m, 433–1000 m and 1067–1433 m. The micritic dolostones and the fabric-retentive dolostones (algal dolostone, granular dolostone) mainly formed in a near-surface–shallow-burial environment, and the crystalline dolostones were mainly formed under intermediate burial conditions. (2) 87Sr/86Sr ratios are equivalent to that of the Middle Triassic seawater, Sr/Ba and V/Ni ratios >1, Na notably higher than that in coexisting limestones of T2l4, and the dolostones always coexist with evaporative minerals such as gypsum, indicating that dolomitisation fluids mainly originated from evaporative concentrated seawater. (3) The dolostones mainly inherit materials from precursor limestones based on trace-element distribution patterns, and carbon and oxygen isotope values that are consistent with coexisting limestones of T2l4. (4) Mediated by micro-organisms during the syngenetic period, micritic dolostones and some algal dolostones were formed by replacing aragonites and calcites. During shallow burial, concentrated seawater rich in Mg2+ from the supratidal–intertidal zone flowed downward owing to gravity along the platform and replaced the underlying carbonate rocks, promoting continuous growth of the early dolomites. In the intermediate burial period, the Mg2+-depleted dolomitisation fluid caused the early micritic and silt-crystalline dolostones to recrystallise into silt- or fine-crystalline dolostones with larger crystals and altered the fabric-retentive dolostones into crystalline dolostones. (5) The evaporative dolostones deposited in the near-surface environment are characterised by maximal enrichment of Fe, Sr and Na, the highest δ18O values, the lowest order degree and the highest Ca/Mg ratios. The reflux dolostones formed in a shallow-burial environment characterised by the lowest Fe, medium δ18O values and the lowest order degree. The burial dolostones that developed in the intermediate burial environment are characterised by relative enrichment of Fe and Mn, minimal Na, the lowest δ18O values, the highest order degree and medium Ca/Mg ratios. KEY POINTS The fabric-retentive dolostones mainly formed in a near-surface–shallow-burial environment, and the crystalline dolostones mainly formed under intermediate burial conditions. Dolomitisation fluids mainly originated from the evaporative concentrated seawater, and the dolostones inherit materials from the precursor limestones. Micritic dolostones were formed by evaporative dolomitisation; algal dolostone and granular dolostone were formed by evaporative dolomitisation and reflux dolomitisation; and silt-crystalline dolostone were formed by reflux dolomitisation and burial dolomitisation.
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来源期刊
Australian Journal of Earth Sciences
Australian Journal of Earth Sciences 地学-地球科学综合
CiteScore
2.80
自引率
8.30%
发文量
45
审稿时长
6-12 weeks
期刊介绍: Australian Journal of Earth Sciences publishes peer-reviewed research papers as well as significant review articles of general interest to geoscientists. The Journal covers the whole field of earth science including basin studies, regional geophysical studies and metallogeny. There is usually a thematic issue each year featuring a selection of papers on a particular area of earth science. Shorter papers are encouraged and are given priority in publication. Critical discussion of recently published papers is also encouraged.
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