地层学杂志
地層學雜誌
지층학잡지
JOURNAL OF STRATIGRAPHY
2009年
4期
359-372
,共14页
岩石地层学%化学地层学%地层对比%碳同位素%陡山沱组%埃迪卡拉系%三峡地区%湖北
巖石地層學%化學地層學%地層對比%碳同位素%陡山沱組%埃迪卡拉繫%三峽地區%湖北
암석지층학%화학지층학%지층대비%탄동위소%두산타조%애적잡랍계%삼협지구%호북
lithostratigraphy%chemostratigraphy%carbon isotope%Doushantuo Formation%Ediacaran%Yangtze Gorges%Hubei
华南埃迪卡拉系陡山沱组上部的δ~(13)C巨大负异常事件(DOUNCE)是当前埃迪卡拉系研究最受关注的焦点之一.在对湖北宜昌茅坪泗溪剖面埃迪卡拉系开展高精度的岩石地层和碳氧同位素研究的基础上,通过与黄陵背斜周缘其他剖面的对比,表明峡区陡山沱晚期DOUNCE事件的δ~(13)C值变化由下降-负漂移-短期正漂移-回升4个阶段构成,但DOUNCE事件在不同剖面上的表现存在明显差异.详细的沉积岩相分析和地层对比表明,各剖面δ~(13)C演化差异是由岩相变化导致的岩石地层发育差异引起的.泗溪剖面DOUNCE事件主体部分缺失与该剖面位于台内盆地斜坡环境,发育多层滑塌构造造成的地层缺失有关.研究结果表明在缺乏生物地层控制的埃迪卡拉系,δ~(13)C同位素地层是揭示沉积相变化造成的岩石地层差异和地层对比的重要手段.
華南埃迪卡拉繫陡山沱組上部的δ~(13)C巨大負異常事件(DOUNCE)是噹前埃迪卡拉繫研究最受關註的焦點之一.在對湖北宜昌茅坪泗溪剖麵埃迪卡拉繫開展高精度的巖石地層和碳氧同位素研究的基礎上,通過與黃陵揹斜週緣其他剖麵的對比,錶明峽區陡山沱晚期DOUNCE事件的δ~(13)C值變化由下降-負漂移-短期正漂移-迴升4箇階段構成,但DOUNCE事件在不同剖麵上的錶現存在明顯差異.詳細的沉積巖相分析和地層對比錶明,各剖麵δ~(13)C縯化差異是由巖相變化導緻的巖石地層髮育差異引起的.泗溪剖麵DOUNCE事件主體部分缺失與該剖麵位于檯內盆地斜坡環境,髮育多層滑塌構造造成的地層缺失有關.研究結果錶明在缺乏生物地層控製的埃迪卡拉繫,δ~(13)C同位素地層是揭示沉積相變化造成的巖石地層差異和地層對比的重要手段.
화남애적잡랍계두산타조상부적δ~(13)C거대부이상사건(DOUNCE)시당전애적잡랍계연구최수관주적초점지일.재대호북의창모평사계부면애적잡랍계개전고정도적암석지층화탄양동위소연구적기출상,통과여황릉배사주연기타부면적대비,표명협구두산타만기DOUNCE사건적δ~(13)C치변화유하강-부표이-단기정표이-회승4개계단구성,단DOUNCE사건재불동부면상적표현존재명현차이.상세적침적암상분석화지층대비표명,각부면δ~(13)C연화차이시유암상변화도치적암석지층발육차이인기적.사계부면DOUNCE사건주체부분결실여해부면위우태내분지사파배경,발육다층활탑구조조성적지층결실유관.연구결과표명재결핍생물지층공제적애적잡랍계,δ~(13)C동위소지층시게시침적상변화조성적암석지층차이화지층대비적중요수단.
The unusual negative δ~(13)C excursion in the uppermost Doushantuo Formation( DOUNCE event) is one of the key events recorded in the Ediacaran, but its causality and age is under debate. High-resolution litho- and carbon isotope stratigraphy of the Ediacaran at the Sixi section and its correlation with other sections in the Yangtze Gorges region, Yichang, indicate that the DOUNCE event shows subtle differences at different sections in the Yangtze Gorges region. Lithofacies analysis and stratigraphic correlation indicate that such differences due to the varied lithostratigraphic sequences at different sections resulting from facies changes. The absence of a major part of the DOUNCE at the Sixi section is due to submarine sliding of the corresponding strata into deeper basin environments in the shelf. Present result indicates that δ~(13)C chemostratigraphy is a powerful tool for the stratigraphic correlation of Ediacaran successions, and the absence of DOUNCE in some different sections could not be a reason against its stratigraphic implication.
