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特提斯域关键构造转换期地质事件控制下的白云石化作用OA

Dolomitization controlled by geological events during the critical tectonic transition of the Tethyan domain:A case study from the Permian Maokou Formation in eastern Sichuan Basin,SW China

中文摘要英文摘要

以四川盆地东部(简称川东)地区二叠系茅口组白云岩为研究对象,综合岩相学观察、地球化学分析与激光原位U-Pb定年,厘定研究区茅口组白云石化作用期次,示踪白云石化流体来源,分析古—新特提斯洋构造转换期地质事件、走滑断裂活动与白云石化作用的内在联系,以揭示茅口组白云岩储层形成机制.研究表明:①川东地区茅口组发育3类基质白云岩,其U-Pb年龄指示3期白云石化作用,时间分别为距今(260.6±6.8)~(265.1±2.4),(244.0±11.0)~(247.7±6.0),(220.6±8.5)~(221.4±7.8)Ma.②地球化学特征指示3期白云石化流体来源各异,古—新特提斯洋构造转换期的3次地质事件及其引发的3期重要断裂活动,是3期白云石化作用的核心控制因素:中二叠世,峨眉岩浆活动导致厚坝—蓬安—丰都走滑断裂带活化并产生热异常,促使同时期海水与下志留统粉砂岩含水层之间的热对流加速循环,触发第1期白云石化;中三叠世,勉略洋斜向闭合导致张扭性断裂活动,密度差促使中—下三叠统残余蒸发海水和蒸发岩卤水下渗,形成第2期白云岩;晚三叠世,华南—华北板块碰撞引发压扭性断裂活动,驱动下志留统中的卤水向上运移,混入中—下三叠统残余蒸发海水,为第3期白云石化提供镁源.研究建立了走滑断控白云石化成因模式,深化了对特提斯域白云岩储层形成机制的认识.

Focusing on the dolomites within the Permian Maokou Formation in eastern Sichuan Basin,this study integrates petrographic observation,geochemical analysis and in-situ U-Pb dating to constrain the timing of dolomitization and trace the sources of dolomitizing fluids,analyze the intrinsic links among geological events during the tectonic transition of the Paleo-Tethys to Neo-Tethys oceans,strike-slip faulting and dolomitization,so as to reveal the dolomitization mechanism of the Maokou Formation.Three types of matrix dolomites occur in the Maokou Formation in eastern Sichuan Basin,with U-Pb ages indicating three dolomitization phases at(260.6±6.8)-(265.1±2.4),(244.0±11.0)-(247.7±6.0),and(220.6±8.5)-(221.4±7.8)Ma,respectively.Geochemical data indicate distinct fluid origins for each phase of dolomitization.Three geological events and the resulting three episodes of faulting during the tectonic transition from Paleo-to Neo-Tethys Ocean are key controlling factors of three phases of dolomitization.Specifically,the Middle Permian Emeishan magmatism activated the Houba-Peng'an-Fengdu strike-slip fault zone and induced thermal anomalies,promoting thermal convection between contemporaneous seawater and the Lower Silurian siltstone aquifer,and initiating the first phase of dolomitization.During the Middle Triassic,oblique closure of the Mianlüe Ocean induced transtensional faulting,and density-driven downward migration of residual evaporitic seawater and brines from evaporates in the Lower-Middle Triassic facilitated the second phase of dolomitization.The Late Triassic continental collision between the South China Block and North China Block induced transpressional faulting,driving the upward migration of brines within the Lower Siluria to mix with residual evaporitic seawater in the Lower-Middle Triassic,thus supplying the magnesium source for the third phase of dolomitization.A strike-slip fault-controlled dolomitization model is established,providing new insights into the formation mechanisms of dolomite reservoirs in the Tethyan domain.

朱彦先;何治亮;郭小文;张昊;李龙

阿尔伯塔大学地球与大气科学学院,埃德蒙顿T6G2R3,加拿大||中国地质大学(武汉)构造与油气资源教育部重点实验室,武汉 430074中国地质大学(武汉)构造与油气资源教育部重点实验室,武汉 430074中国地质大学(武汉)构造与油气资源教育部重点实验室,武汉 430074北京大学能源研究院,北京 100871阿尔伯塔大学地球与大气科学学院,埃德蒙顿T6G2R3,加拿大

能源科技

激光原位U-Pb定年白云石化作用二叠系茅口组四川盆地峨眉岩浆活动勉略洋斜向闭合古—新特提斯洋构造转换

laser in-situ U-Pb datingdolomitizationPermian Maokou FormationSichuan BasinEmeishan magmatismoblique closure of the Mianlue Oceantectonic transition from Paleo-to Neo-Tethys Ocean

《石油勘探与开发》 2026 (2)

345-356,12

国家自然科学基金项目"特提斯演化控制下的油气差异富集机理与勘探领域"(92255302)

10.11698/PED.20250511

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