地质力学学报2026,Vol.32Issue(1):49-66,18.DOI:10.12090/j.issn.1006-6616.2025125
资阳-威远地区筇一段2亚段深色页岩元素地球化学特征及地质指示意义
Geochemical characteristics and geological implications of dark shale in the second submember of the first member of the Qiongzhusi Formation,Ziyang–Weiyuan area,China
摘要
Abstract
[Objective]The Lower Cambrian Qiongzhusi Formation,situated within the Ziyang–Weiyuan rift of the Sichuan Basin,represents a key target for deep to ultra-deep shale gas exploration and exhibits considerable resource potential.However,the high-resolution paleo-environmental evolution and the specific controlling mechanisms of organic matter(OM)enrichment within the core high-quality interval(dark shale of Bed 5,Submember 2,Member 1 of the Qiongzhusi Formation)remain insufficiently understood.This study aims to precisely reconstruct the paleo-depositional conditions—including climate,salinity,redox,water restriction,terrigenous input,and productivity—and to clarify the main factors controlling OM accumulation.[Methods]To precisely elucidate the paleo-depositional environment,productivity evolution,and controlling mechanisms of organic matter enrichment within this interval,a systematic geochemical investigation,including analyses of total organic carbon(TOC),major,trace,and rare earth elements,was conducted on black shale samples from Well Z201.[Results]The geochemical composition of the shales in Bed 5 exhibits significant vertical phasic heterogeneity.TOC abundance displays a'low–high–low'trend,peaking in Bed 5-2 with an average of 3.72%.Amongst major elements,Al2O3 and TiO2 show a distinct trough in Bed 5-2,indicating minimum terrigenous input.Redox-sensitive trace elements(e.g.,U,Mo,V,Ni)are enriched in Beds 5-2 and 5-3,with U and Mo enrichment factors(EFs)and covariation patterns indicating a strongly reducing and restricted environment.[Conclusion]Based on the integrated analysis of these geochemical proxies,this study reconstructs the paleo-environmental evolution and elucidates the mechanism of organic matter enrichment.The shale deposition occurred under a stable warm–humid to semi-humid climate within a brackish and hydrographically restricted basin.The bottom water redox conditions fluctuated significantly,evolving from dysoxic in Bed 5-1 to strongly anoxic and euxinic in Beds 5-2 and 5-3,before reoxygenating to dysoxic conditions in Beds 5-4 and 5-5.Concurrently,terrigenous detrital input dropped to a minimum in Bed 5-2 but intensified significantly from Bed 5-3 upwards,while primary productivity peaked specifically in Bed 5-2.Consequently,the formation of the core high-quality source rock in Bed 5-2 resulted from the optimal convergence of high primary productivity,strong anoxic preservation,and weak terrigenous dilution.In contrast,organic matter accumulation in other intervals was suppressed by intensified terrigenous dilution and/or the deterioration of preservation conditions.[Significance]These findings clarify the complex coupling mechanism driving organic matter accumulation in deep shelf environments,highlighting that preservation conditions and sedimentation dilution are as critical as primary productivity.关键词
四川盆地/筇竹寺组/页岩/地球化学/古环境恢复/有机质富集机制Key words
Sichuan Basin/Qiongzhusi Formation/shale/geochemistry/paleo-environment reconstruction/organic matter enrichment mechanism分类
天文与地球科学引用本文复制引用
谢圣阳,陈鑫,刘永旸,朱宁,王高翔,尹美璇,杨学锋,李博,赵圣贤,张鉴,张成林,刘佳伟,张德良,黄山..资阳-威远地区筇一段2亚段深色页岩元素地球化学特征及地质指示意义[J].地质力学学报,2026,32(1):49-66,18.基金项目
国家科技重大专项(2025ZD1405301) (2025ZD1405301)
中国石油天然气集团有限公司科技专项(2023ZZ21) This research was financially supported by the National Science and Technology Major Project of China(Grant No.2025ZD1405301)and the Science and Technology Special Project of China National Petroleum Corporation(Grant No.2023ZZ21). (2023ZZ21)
