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1.
The Carrancas Formation outcrops in east-central Brazil on the southern margin of the São Francisco craton where it comprises the base of the late Neoproterozoic Bambuí Group. It is overlain by the basal Ediacaran cap carbonate Sete Lagoas Formation and was for a long time considered to be glacially influenced and correlative with the glaciogenic Jequitaí Formation. New stratigraphic, isotopic and geochronologic data imply that the Carrancas Formation was instead formed by the shedding of debris from basement highs uplifted during an episode of minor continental rifting. Reddish dolostones in the upper Carrancas Formation have δ13C values ranging from +7.1 to +9.6‰, which is a unique C isotopic composition for the lowermost Bambuí Group but similar to values found in the Tijucuçu sequence, a pre-glacial unit in the Araçuaí fold belt on the eastern margin of the São Francisco craton. The stratigraphic position below basal Ediacaran cap carbonates and the highly positive δ13C values together indicate a Cryogenian interglacial age for the Carrancas Formation, with the high δ13C values representing the so-called Keele peak, which precedes the pre-Marinoan Trezona negative δ13C excursion in other well characterized Cryogenian sequences. Hence, The Carrancas Formation pre-dates de Marinoan Jequitaí Formation and represents an interval of Cryogenian stratigraphy not previously known to occur on the southern margin of São Francicso craton. Documentation of Cryogenian interglacial strata on the São Francisco craton reinforces recent revisions to the age of Bambuí Group strata and has implications for the development of the Bambuí basin. 相似文献
2.
The Cryogenian succession of the Northern Flinders Ranges reveals a complex sedimentary record between the Sturtian and Marinoan glacial deposits. A major unconformity separates the Sturtian and Marinoan-aged sedimentary successions in the area. This forms a subaerial erosion surface with terrestrial and marginal marine infill directly above the Angepena and Balcanoona Formations in their respective localities. This exposure surface is here correlated with the previously documented submarine unconformity between the Yankaninna Formation and the underlying deep marine Tapley Hill Formation. This erosional event provides a chronostratigraphic marker horizon that coincides approximately with thepreviously defined Sturtian–Marinoan Time Series boundary in the Northern Flinders Ranges. These stratigraphic relationships also constrain lateral facies relationships between the Oodnaminta ReefComplex (Balcanoona Formation) and the Angepena Formation. Similarly, the shallow-water Weetootla Dolomite is correlated with the deeper water carbonates of the Yankaninna Formation. 相似文献
3.
新元古代冰期及其年代 总被引:7,自引:0,他引:7
新元古代在全球范围内出现了几期冰期事件,称之为“雪球地球”事件。这种剧烈的环境变化带来此后地球上生命演化的一次飞跃。“雪球地球”事件的核心是全球冰期的同时性,需要同位素地质年代学的证据。新元古代末期两次主要的冰期事件是Marinoan冰期和Sturtian冰期,其中Marinoan冰期结束于635Ma;Sturtian冰期可能发生在710~720Ma,已发表的年龄数据限定它在670Ma之前结束。Marinoan冰期后的Gaskiers冰期发生在580~590Ma。对华南的古城、铁丝坳、长安组、江口组等进行进一步精确定年,将对限定Sturtian冰期持续时间和Cryogenian、南华系的下限年龄具有重要意义。 相似文献
4.
新元古代"雪球地球"事件代表地球经历的极端气候条件,对其后的大气和海洋氧化、生物地球化学循环和真核生物的演化都产生了深远的影响。然而同冰期化学沉积岩的缺乏,严重制约了对冰期海洋环境的了解。笔者等在贵州松桃地区一钻孔岩芯南华系南沱组中采集到一套同冰期白云岩,为南沱冰期海洋环境研究提供了理想材料。岩芯中白云岩层位于南沱组下部,夹持于两套杂砾岩、粉砂质泥岩组合中间,厚度1.61 m。偏光显微镜和扫描电镜观察表明岩性为微晶白云岩。采用Delta V Advantage稳定同位素质谱仪分析白云岩的碳、氧同位素,测定结果为:δ~(18)O_(V-PDB)在-16.97‰~-8.37‰之间,δ~(13)C_(V-PDB)在-9.68‰~-8.42‰之间,与冰期前后碳同位素组成对比,δ~(13)C_(V-PDB)具显著低负值特征。电感耦合等离子体质谱仪(ICP-MS)微量元素分析结果表明:白云岩样品中铁、锰含量很高,铁含量的平均值约为92867×10~(-6),锰含量的平均值约为10644×10~(-6);Mn/Sr值较大,平均值约为26.89。综合碳、氧同位素的相关性及微量元素特征分析表明,南沱组同冰期白云岩碳同位素组成代表了原始的沉积记录。研究结果表明:①南沱组白云岩的出现反映了南沱冰期海洋中存在着开放的水体,这些开放水体为此时真核生物提供了重要的栖息场所。②南沱冰期海洋处于富铁缺氧的环境,白云岩中碳同位素低负值主要是甲烷厌氧氧化的结果。③同位素质量平衡计算表明,冰期海洋中较高比例的有机质埋藏和极其有限的大气-海洋气体交换导致了大气中氧浓度的升高。 相似文献
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6.
Stratigraphic and sedimentological investigation of the interglacial succession within the Cryogenian-aged Umberatana Group of the Northern and Central Flinders Ranges reveals a complex array of sedimentary successions lying between the Sturtian and Marinoan glacial deposits. The Sturtian–Marinoan Series boundary was first defined from the Adelaide area at the uppermost contact of the Brighton Limestone. In the Northern Flinders Ranges the Sturtian–Marinoan Series boundary has been positioned at the uppermost contact of the Balcanoona Formation, which is thought to correlate with the Brighton Limestone. In the Northern Flinders Ranges a major unconformity separates the Sturtian and Marinoan-aged sedimentary successions (Nepouie–Upalinna Subgroups). In moderately deep marine depositional settings, this submarine unconformity is located at the base of the Yankaninna Formation where erosion has deeply incised (up to 300 m) into the underlying Tapley Hill Formation. In shallower marine settings the unconformity is found at the base of the Weetootla Dolomite. In very deep water depositional settings this unconformity is not recognised, and the Yankaninna Formation appears to conformably overlie the Tapley Hill Formation suggesting that this erosional feature is restricted to shallow and moderately deep depositional settings. This unconformity presents a regionally persistent chronostratigraphic marker horizon, which reliably marks the Sturtian–Marinoan Series boundary at the base of the Yankaninna Formation from shallow shelfal to deep-water basinal settings throughout the Northern Flinders Ranges. In the Central Flinders Ranges the post-Sturtian glacial stratigraphy records a very similar depositional record to that observed in the Northern Flinders Ranges. In the Central regions the Tapley Hill Formation is overlain by deep-marine carbonates and calcareous shales of the Wockerawirra Dolomite and Sunderland Formations, respectively. The base of the Wockerawirra Dolomite is found to be in erosional contact with the underlying Tapley Hill Formation. This stratigraphic relationship, together with lithological similarities, indicates the Wockerawirra Dolomite and Sunderland Formation of the Central Flinders Ranges are lateral correlatives of the Yankaninna Formation of the Northern Flinders Ranges. The regional nature of the Sturtian–Marinoan unconformity in the Adelaide Geosyncline suggest the possible existence of a glacio-eustatic event that may correlate with glacials/glaciation elsewhere on the Earth during the Cryogenian. 相似文献
7.
地球在新元古代经历了Rodinia超大陆的聚合和解体,并发生了Sturtian和Marinoan两期全球规模的冰川事件。华南地区南华系古城组和南沱组冰碛岩分别对应Sturtian冰期和Marinoan冰期沉积记录,大塘坡组属于其间冰期沉积。对鄂西走马地区大塘坡组顶部泥岩中的碎屑锆石进行了LA-ICP-MS U-Pb定年,锆石具有高Th/U比值(0.47~1.69),并显示明显的振荡环带,为岩浆成因;62颗锆石的62个数据点分析,获得的60个谐和年龄分布在651~2435Ma,主要峰值为~794Ma。最年轻单颗锆石U-Pb年龄651±7.7Ma,结合前人研究认为华南地区Marinoan冰期启动时间应晚于651Ma;碎屑锆石为亲扬子型,可能来自鄂中古陆和扬子北缘;分布最集中的751~851Ma年龄段内~850Ma峰值记录了扬子地台与华夏褶皱带碰撞拼合事件,而~820Ma、~800Ma、~760Ma等峰值则揭示了与Rodinia超大陆解体有关的幕式岩浆活动。 相似文献
8.
Could ‘Snowball Earth’ have left thick glaciomarine deposits? 总被引:3,自引:3,他引:0
At least two of the Cryogenian (Neoproterozoic) glacials, viz. those of the Sturtian and the Marinoan, are said to have been so severe that the entire Earth was covered with ice (Snowball Earth). The most convincing evidence consists of diamicts with some glacial striae and of other glacial signatures (striated surfaces, polished rocks) that have been found in areas that are interpreted on the basis of paleomagnetic data as being positioned, at the time, at low latitudes. The extremely low temperatures must have contributed to entirely frozen oceans. Nevertheless, diamicts of exceptional thickness were formed in a marine environment. This cannot be explained satisfactorily, as icebergs cannot have floated in an entirely frozen ocean. It is suggested that at least a considerable part of the extremely thick Neoproterozoic ‘glaciomarine’ deposits represent syntectonic mass-flow deposits rather than glacial deposits. The existence of a huge mountain range between Eastern and Western Gondwanaland provided favourable conditions for such deposits. 相似文献
9.
三峡地区震旦系碳酸盐岩碳氧同位素特征 总被引:17,自引:0,他引:17
本文对三峡地区秭归庙河陡山沱组第一段至第三段,宜昌棺材崖陡山沱组第三段上部至灯影组底部以及四溪灯影组石板滩段和白马沱段碳酸盐岩碳氧同位素组成特点的研究结果表明,三峡地区震旦系碳同位素组成与全球新元古代广布的后Martinoan冰期地层δ^13C的分布模式基本一致,本文还讨论了地层中碳同位素组成与生物演化和地层层序发展的关系,指出陡山沱组一段白云岩中δ^13C的负异常可以作为震旦系底界划分的标志,最晚Varanger冰期在三峡地区由陡山沱组三段上部出现的三级层序界面所替代,震旦系内部陡山沱组一段和三段可能形成于Marinoan冰期之后,伊迪卡拉生物分异发展之前,而陡山沱组四段及上覆灯影峡组则大致与国外伊迪卡拉期地层对比。 相似文献
10.
长江三峡地区埃迪卡拉(震旦)系锆石U-Pb新年龄对庙河生物群和马雷诺冰期时限的限定 总被引:6,自引:1,他引:6
首次报道应用高分辨率、高精度离子微探针(SHRIMPⅡ)定年方法,对采自三峡地区黄陵背斜西翼湖北省秭归县九曲脑剖面震旦系灯影组与陡山沱组界线和陡山沱组底部的凝灰岩锆石进行的U-Pb定年研究.分析结果,灯影组与陡山沱组界线的凝灰岩锆石测点形成2组,较年轻的一组由16个测点组成,舍去偏离较大的1个点,给出的206Pb/238U比值年龄加权平均值为549.9
Ma±6.1 Ma(MSWD=1.48),代表该层位的实际年龄并限定了庙河生物群的最小年龄.采自陡山沱组底部的另一样品测点同样分为2组一组由3个点组成,给出784Ma±15Ma(MSWD=0.05)的继承年龄值;另一组由15个测点组成,给出206Pb/238U比值年龄加权平均值为628.3Ma±5.8Ma(MSWD=0.86).这一定年结果是目前中国震旦(埃迪卡拉)系陡山沱组底部首次获得的SHRIMp锆石U-Pb年龄.采样点紧邻作为震旦系底界的"盖帽碳酸盐岩"之上,基本可以限定震旦系的底界年龄.该结果与国际地层委员会2004年发布的<国际地层表>中埃迪卡拉系(Ediacaran)的底界年龄630
Ma非常接近,表明中国修订后的震旦系/南华系界线年龄应为630Ma左右. 相似文献