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1.
扬子克拉通北缘神农架地区中元古界神农架群叠层石十分发育。该群下部乱石沟组中叠层石类型丰富,根据形态可分为柱状、穹状、层状叠层石以及锥状、层柱状、包心菜状、墙状叠层石和叠层石丘等。研究区叠层石以中小型为主,少数为大型和巨型;多数无壁,部分具单层壁;对称性和继承性由好到一般,部分较差。研究表明,叠层石的形态和规模,与水动力条件、水体深度及陆源组分含量关系密切,其中层状叠层石主要发育于潮间带上部,柱状叠层石产于潮间带下部和浅潮下带,穹状叠层石出现在潮间带和潮下带,锥状叠层石多见于潮间带下部和潮下带,层柱状、锥柱状叠层石则集中于潮间带,叠层石丘位于潮间带和潮下带。依据各类型叠层石宏观和微观特征、垂向组合类型、沉积构造及沉积岩相相互关系,并结合碳、氧同位素测试结果,综合研究认为: 虽然叠层石的形成受生物和环境等多重因素影响,但生物因素主要影响叠层石的微观组构,水动力条件则控制叠层石的宏观形态类型,水体深度影响叠层石的规模;另外,生物繁盛、陆源物质供给少的环境更有利于叠层石发育。 相似文献
2.
湖北松滋刘家场地区寒武系覃家庙组三段发育层状、不规则层状和柱状叠层石,三游洞组发育柱状和半球状叠层石。从层状、不规则层状、柱状到半球状叠层石,内部灰泥含量不断减少,纹层特征从明显到断续,反映了水动力条件加强的变化环境。从沉积岩石学角度与叠层石分类观点讨论得出,研究区不同沉积环境的叠层石组合类型有所差异,不同类型的叠层石主要沉积相带不同:潮上带主要分布层状(包括不规则层状)和柱状叠层石,潮间带主要分布柱状、半球状叠层石;层状叠层石主要分布于水动力条件较弱的潮上带,而柱状和半球状叠层石主要分布于水动力条件较强的潮间带下部。部分后生动物的大量灭绝导致叠层石微生物生长繁殖是松滋寒武系叠层石发育的主要原因。 相似文献
3.
辽宁省兴城市夹山地区中元古界长城系白云岩中首次发现叠层石,其产出层位为前人在这一地区划分的"常州沟组"顶部,自下而上为Stratifera sp.层叠层石(未定种),Cryptozoon sp.卷心菜叠层石(未定种),Eucapsiphora sp.叠球藻叠层石(未定种)。该组合以及邻区葫芦岛等地团山子组中的叠层石类型均属于燕山、太行地区团山子组叠层石组合带分子。上述叠层石的发现为夹山地区划分出团山子组提供了重要的生物地层学证据。根据岩石组合特征、叠层石形态垂向分布规律及其与古环境演化的关系分析,认为兴城地区团山子组沉积环境演化为海退沉积序列(浅滩到潮间、潮上带)到海侵沉积序列(潮间、潮上带到潮间、潮下带)。 相似文献
4.
神农架群(约1400—1000 Ma)发育于扬子克拉通北缘鄂西北地区,自下而上发育有下亚群(大岩坪组、马槽园组、乱石沟组、大窝坑组和矿石山组)、中亚群(台子组、野马河组、温水河组和石槽河组)及上亚群(送子园组和瓦岗溪组)。每亚群均由相对较深水相碎屑岩和浅水碳酸盐岩组成。一系列岩石组合特征、宏微观沉积组构和沉积构造等表明,神农架群发育环潮坪相藻碳酸盐岩、浅海相碎屑岩、台缘浅滩颗粒碳酸盐岩和台缘斜坡砾屑碳酸盐岩等4类沉积组合,形成于远端变陡型缓坡型碳酸盐岩台地背景。环潮坪沉积分布最广,遍布于所有碳酸盐岩地层,不同类型叠层石发育,构成向上变浅沉积序列;进积作用强烈,干裂构造、蒸发岩等常见;沉积相带由浅潮下、潮坪及潮上带组成。浅海碎屑岩沉积组合主要见于台子组及大岩坪组,由砂岩、粉砂岩与泥岩组成,石英砂岩分选和磨圆较好,自生海绿石常见,平行层理、水平—波状层理发育,泥岩中自生黄铁矿发育,总体经历了滨岸浅滩—浅海陆棚—碎屑潮坪—局限台地等的高频变化。台缘浅滩颗粒碳酸盐岩以鲕粒白云岩、砾屑白云岩(及内碎屑白云岩)和斜歪锥、柱状叠层石为特征,主要见于乱石沟组、野马河组;大窝坑组及石槽河组以鲕粒和砂—砾屑白云岩及藻碎屑(团块或凝块石)为特征;大中型板状交错层理、递变—平行层理和冲刷—侵蚀构造普遍,表明浅潮下带强水动力条件环境。台缘斜坡砾屑碳酸盐岩发育在大岩坪组中上部及马槽园组,由滑塌堆积的透镜状、巨厚层状巨—粗—细砾岩和砂岩组成,砾岩成分以白云岩等为主,可见大型交错层理、波痕和侵蚀—冲刷等沉积构造。对神农架群沉积序列、沉积特征及沉积演化过程的研究,为扬子克拉通中元古代晚期的盆地演化与重建、沉积充填过程及地层—沉积对比研究提供了基础资料及依据。 相似文献
5.
S. B. Misra 《Journal of Earth System Science》1984,93(4):447-464
Depositional environment of the Krol group varied temporally from subtidal in the Manora to intertidal in the Sleepy Hollow
times. The conditions that succeeded were peritidal in the Ayarpatta and supratidal in the Narainnagar times. These conditions
were the main controlling factors in the growth and development of the algal stromatolites. The Manora formation, due to subtidal
conditions, and the Sleepy Hollow formation, due to detrital influx, are almost devoid of stromatolites. The carbonates of
the Ayarpatta formation representing a peritidal complex possess columnar and oncolitic stromatolites, while the sediments
of the Narainnagar formation characterized by supratidal features contain blistered, domal and crinkled-laminar forms. The
types and sizes of stromatolites therefore are governed by the depositional conditions prevailing in the sedimentary basin. 相似文献
6.
中国豫西寒武系馒头组叠层石的沉积特征及其古环境意义 总被引:1,自引:0,他引:1
中国豫西寒武系馒头组一、二段共出露9层叠层石,占寒武纪18层叠层石中的50%,且其特征明显、形态多样,可分为圆柱状、波状、半球状和围绕竹叶状砾屑灰岩生长的叠层石等4大类8小类。本文在逐层分析豫西寒武系馒头组一、二段叠层石相序特征的基础上,通过对不同类型叠层石的宏观、中观形态特征及伴生的其它沉积特征进行详细描述,并以巴哈马Highborne Cays现代海相叠层石的生长环境和前寒武纪叠层石的沉积环境等为佐证,建立了豫西寒武系馒头组8小类11种不同叠层石的沉积环境分布模式,其中潮上带以近水平状叠层石为主,少量为缓波状、小柱状和含水平状薄泥层的叠层石;潮间带上部以缓波状、小柱状和含水平状薄泥层的叠层石为主,少量锥柱状叠层石;潮间带中部以圆柱状叠层石为主,含扁平状核形石和竹叶状砾屑,少量为锥柱状和围绕竹叶状砾屑生长的叠层石;潮间带下部至潮下带以含圆形核形石的圆柱状和半球状叠层石为主,少量含核形石的倒锥状叠层石。海平面的变化即水动力条件是叠层石生长类型变化的决定因素。 相似文献
7.
Comparison of microbially induced sedimentary structures (MISS) and stromatolitic bearing horizons from the Proterozoic Kunihar Formation, Simla Group, Lesser Himalaya, has been scrutinised to understand the formative processes and controls on MISS and stromatolites in the context of sedimentary facies and response to sea level fluctuations. MISS structures recorded are wrinkle structures, Kinneyia ripples, load casts, domal structures, sand chips, palimpsest and patchy ripples with limited desiccation cracks. Stromatolitic morphotypes recorded are solitary, branching, wavy and domal forms of stromatolites associated with ooids, peloids and fenestral laminae. MISS structures flourished within tidal flats to shallow intertidal while stromatolites mushroomed in environments ranging from tidal to deep subtidal. MISS structures were favoured by resistant substratum, low energy conditions, consistent water supply and low terrigenous input. Stromatolites boomed when the volume of carbonate accumulation exceeded siliciclastic deposition. Fluctuating environmental conditions and sediment budget controlled morphology of stromatolites. Owing to limited siliciclastic input during deposition of dolomudstones (characterizes transgressive systems tract), microbial growth was enhanced. Calcareous shales were deposited over dolomudstones which marks the maximum flooding surface (MFS) indicating the culmination of transgression. Deposition of storm-dominated sandstone-siltstone (FA1), wave-rippled sandstones (FA2), tide-dominated sandstones (FA3), heteroliths (FA4), wackestone-packestone (FA6), boundstone (FA7) and ooid-peloid grainstone (FA8) on top of the MFS reflects initiation of highstand systems tract (HST) which is mainly characterized by stromatolitic horizons, alternation of carbonates and siliciclastics with flourishing microbial activity. Eventually, increased sedimentation in upper part of Kunihar Formation marks late stage of regression. 相似文献
8.
河南登封地区寒武系第三统馒头组二段中的核形石及其意义 总被引:1,自引:1,他引:0
河南登封地区寒武系第三统馒头组二段发育有三种类型的核形石:球状、椭球状核形石与大型柱状叠层石伴生,形成于高能的潮下带;长卵形核形石与小型柱状叠层石伴生,形成于低到中等能量的潮间带;不规则状核形石与近水平状、缓波状叠层石伴生,形成于低能的潮上带和潮间带。从核形石的成因可以看出,核形石等微生物成因构造与后生动物扰动构造存在耦合关系,水动力条件是核形石形态类型变化的决定因素,泥质(陆源物质)供应是影响核形石生长及消亡的直接因素。 相似文献
9.
Mississippian (Early Carboniferous) stromatolite mounds in a fore-reef slope setting, Laibin, Guangxi, South China 总被引:1,自引:0,他引:1
The Mississippian (Early Carboniferous) is generally a period of scarce carbonate buildups in South China. This study documents
outcrops of stromatolite mounds at Mengcun and Helv villages, in Laibin City, Guangxi Province, South China. The stromatolite
mounds contain various stromatolite morphologies including laminar, wavy-laminar, domal or hemispheroidal, bulbous, and flabellate-growth
columns. Intramound rocks are brachiopod floatstone and dark thin-bedded laminated micrite limestone. Individual stromatolites
at Mengcun village are generally 3–6 cm thick and morphologically represent relatively shallow-water laminar (planar and wavy-undulated
stromatolites) and deeper-water domal, bulbous and columnar forms. Where mounds were formed, the stromatolites continued growing
upward up to 60 cm thick. Thrombolitic fabrics also occur but are not common. Stromatolite microscopic structure shows the
bulk of the lamination to consist of wavy microbialite and discrete thin micritic laminae. These mounds are intercalated in
deep-water fore-reef talus breccia, packstone formed as a bioclastic debris flow and thin-bedded limestone containing common
chert layers of the Tatang Formation (late Viséan). Further evidence supporting the deep-water setting of the stromatolite
mounds are: (1) a laterally thinning horizon of brachiopod floatstone containing deep-water, small, thin-shelled brachiopods,
peloidal micritic sediments and low-diversity, mixed fauna (e.g., thin-shelled brachiopods, tube-like worms and algae) that
have been interpreted as storm deposits, (2) common fore-reef talus breccias, (3) lack of sedimentary structures indicating
current action, (4) preservation of lamination with sponge spicules, and (5) lack of bioturbation suggesting that the stromatolites
grew in a relatively low energy, deep-water setting. The stromatolite mounds are the first described stromatolite mounds in
Mississippian strata of South China and contain evidence that supports interpretations of (1) growth history of Mississippian
microbial buildups and (2) environmental controls on stromatolite growth and lithification. 相似文献
10.
五台山古元古代巨型叠层石的结构特征及成因意义 总被引:1,自引:0,他引:1
山西省五台山地区的古元古代滹沱群地层中发育大量各种形态和大小的叠层石,最近在东冶亚群地层中发现体量巨大的叠层石。本文在对其进行形态学分析、显微结构分析、地质剖面实测以及生长环境特征分析研究后认为,这一宏观上的穹窿形叠层石是由柱状叠层石组成的生物岩礁,柱体在底质基础上放射状生长,其表面圆形、长条形的凸起为叠层石柱体顶部横断面及斜切面形态。通过标本切片,镜下观察到组成柱体并充填柱间的均为泥晶方解石,并发现纤细的丝状微生物遗迹,这些丝状体相互交织构成暗层的重要组分。叠层石体量巨大,需要较长时间内相对稳定的深水环境;泥晶方解石结晶较好,指示水动力条件相对较弱、沉积速率较快的温暖浅海环境,可能形成于潮下带。 相似文献
11.
Anna Siedlecka 《Sedimentary Geology》1978,21(4):277-310
The Annijokka Member of the Late Precambrian Båtsfjord Formation consists of about 300 m of siliciclastic and carbonate deposits which accumulated on tidal flats, and includes several horizons of stromatolite biostromes. Seven main lithofacies are arranged in fining-up cycles a few metres thick. The cycles are terrigenous in the lower part and carbonate-rich higher up and are interpreted as reflecting shallowing-up conditions of deposition. Lithofacies distribution in the member as a whole also shows an upward decrease in the terrigenous component and grain size and increase in carbonates, thus suggesting that the Annijokka Member is regressive.The stromatolite biostromes of the member contain domal forms composed of calcite while the non-stromatolitic, though possibly in part algal-laminated, carbonate-rich beds of the member are dolomitic. This contrasting mineralogy suggests (1) penecontemporaneous supratidal dolomitization, and (2) a possibly freshwater-influenced origin of the domal stromatolites. 相似文献
12.
Robert L. McConnell 《Precambrian Research》1975,2(3):317-328
The Apache Group of central Arizona is subdivided into, from base upward, the Pioneer Formation, the Dripping Spring Quartzite and the Mescal Limestone. Radiometric age determinations by Silver, and Livingston and Damon indicate an age of 1.2–1.4 billion years. Within the Mescal Limestone, algal stromatolites form a conspicuous biostrome, commonly 20–25 m thick. The basal 1–5 m of the biostrome consists of up to three zones of digitate stromatolites, which often form discrete bush-like bioherms. These forms are interpreted as Baicalia baicalica, Parmites sp. and Tungussia sp.; the latter form previously reported by Cloud and Semikhatov (1969). The form Parmites is interpreted as a modification of digitate stromatolites probably by decrease in current velocity within the shallow marine environment, which allowed discrete heads to coalesce. Basal digitate forms are replaced upward in the biostrome by domal and undulatory laminated (stratiform) stromatolites, interpreted to represent gradual upward shoaling, with lower intertidal and subtidal forms (digitate morphology) being replaced by upper intertidal and possibly supratidal forms (stratiform types).The digitate form B. baicalica is suggested by Soviet workers to be indicative of Middle Riphean time (1350-950 m.y.). While many empirical data suggest the possibility of gross subdivision of Late Proterozoic time on the basis of algal stromatolite “zones”, the intercontinental applicability and the ultimate validity of this concept in unresolved. 相似文献
13.
PETER N. SOUTHGATE 《Sedimentology》1989,36(2):323-339
Stromatolite biostromes and bioherms in the lower two units of the Late Proterozoic Loves Creek Member of the Bitter Springs Formation represent shallowing upward and deepening upward sequences. In the central unit stromatolite form is governed by relative position in an asymmetric shallowing upward sequence. Ooid and/or peloid-intraclast grainstones and small, irregular bulbous and columnar stromatolites characterize the basal, transgressive portion of cycles. Domal, columnar and stratiform stromatolites comprise the bulk of the cycle. These forms accreted in a gradually shallowing epeiric sea. Domal stromatolites predominate in the deeper parts of cycles. Here synoptic relief gradually increases upwards. Columnar and stratiform stromatolites predominate in the shallower parts of cycles, where synoptic relief rapidly diminishes upwards. In thin-bedded dolo-mudstones at the tops of cycles the co-occurrence of desiccation cracks, tepee structures, scalloped dissolution surfaces, gypsum moulds and anhydrite nodule pseudomorphs provides evidence for subaerial exposure. In contrast, stromatolites in a unit at the base of the Loves Creek Member accreted during a gradual rise in sealevel. Stratiform, columnar and domal stromatolitic building blocks of the shallowing upward cycle are present in this deepening sequence, but only the lower half of the shallowing upward cycle is represented. Synoptic relief of the stromatolitic laminae gradually increases upward throughout the basal stromatolitic unit. Recognition of a deepening upward stromatolite sequence at the base of the Loves Creek Member, and a disconformity surface between this sequence and the underlying Gillen Member, permits palaeoenvironmental re-interpretation of the Loves Creek Member as a single ‘large scale’ sea-level cycle. 相似文献
14.
叠层石被广泛认为是地球上的一些最古老的生命痕迹,是研究地球早期生命的重要窗口。作为前寒武纪地层中的唯一常见化石,可以作为地层对比的标志,特别是中、新元古代盆地间的地层对比。青海省中祁连地层分区东岔沟村花石山群克素尔组以白云质碳酸盐岩组合为主,赋存大量叠层石。依据曹瑞骥和袁训来总结的分类方法,在研究区识别出9种不同的叠层石属,分别为:Baicalia、Chihsienella、Anabaria、Tielingella、Conicodomenia、Tungussia、Colonnella、Stratifera和Cryptozoon。研究区叠层石组合与中元古界上部蓟县系铁岭组叠层石组合具有明显的可比性,与国内其他地区的中元古代晚期—新元古代早期叠层石组合也有很强的相似性,据此推测花石山群克素尔组的年代大致为中元古代晚期。青海叠层石的报道将为我国和世界范围内中、新元古代叠层石的分布提供新产地的数据,常见叠层石属、种的垂直分布延限也有新的化石证据,对提升地层对比的精度具有重要意义。 相似文献
15.
Tadeusz M. Peryt M.Sc. 《International Journal of Earth Sciences》1975,64(1):143-158
When interpreting the depositional environment of the Buntsandstein sequence, thin stromatolite layers, if present, were often overlooked or given short shrift. The present paper provides evidence of value of stromatolites for the environmental interpretation of the Buntsandstein rocks. Algal stromatolites found in western Poland occur in form of thrombolites, LLH-type structures, SH-type structures, and rarely as oncolites. Stromatolites are usually associated with oolites. Very often stromatolites show important traces of scouring and channelling action of water. Since stromatolites occurred in the zone of clastic-carbonate deposition they were covered up by continuous sheet of detrital grains. Periodic catastrophic erosion and deposition was produced by hurricanes and severe storms in the peritidal and shallow subtidal zone. It is possible to distinguish the peritidal and subtidal stromatolites. In the vicinity of stromatolites are of frequent occurrence spirorbids, conchostracs, gastropods, and rare foraminifers. Besides, spirorbids are associated with stromatolites — they constituted the initial hard substratum for the stromatolitic structures and sometimes they also occur inside stromatolites. The not-hypersaline sedimentary environment of the Buntsandstein rocks can be compared with modern environments of the Persian Gulf and the Gulf of Aqaba. 相似文献
16.
PETER A. DRUSCHKE GANQING JIANG THOMAS B. ANDERSON† ANDREW D. HANSON 《Sedimentology》2009,56(5):1275-1291
Well-preserved siliciclastic domal stromatolites, up to 2 m wide and 1·5 m high, are found in a 10 to 15 m thick interval within the Late Ordovician Eureka Quartzite of Southern Nevada and Eastern California, USA. These stromatolites appear as either isolated features or patchy clusters that contain more than 70% by volume quartz grains; their association with planar, trough and herringbone cross-bedding suggests that they were formed in an upper shoreface environment with high hydraulic energy. In this environment, sand bars or dunes may have provided localized shelter for initial microbial mat colonization. Biostabilization and early lithification of microbial mats effectively prevented erosion during tidal flushing and storm surges, and the prevalence of translucent quartz sand grains permitted light penetration into the sediment, leading to thick microbial mat accretion and the formation of domal stromatolites. Decimetre-scale to metre-scale stromatolite domes may have served as localized shelter and nucleation sites for further microbial mat colonization, forming patchy stromatolite clusters. Enrichment of iron minerals, including pyrite and hematite, within dark internal laminae of the stromatolites indicates anaerobic mineralization of microbial mats. The occurrence of stromatolites in the Eureka Quartzite provides an example of microbial growth in highly stressed, siliciclastic sedimentary environments, in which microbial communities may have been able to create microenvironments promoting early cementation/lithification essential for the growth and preservation of siliciclastic stromatolites. 相似文献
17.
中元古代时期,神农架位于华南古陆,与澳大利亚古陆及西伯利亚古陆相邻,同处于罗迪尼亚超级大陆(Rodinia supercontinent)北部。其沿海的叠层石组合与澳大利亚古陆及西伯利亚古陆沿海的叠层石组合相似,显示了炎热气候下的碳酸盐岩台地潮坪浅水环境特征。常见的叠层石形态类型包括穹状、柱状、层柱状和层状等。主要有神农架大圆顶叠层石(Megadomia shennongjiaensis)、加尔加诺锥叠层石(Conophyton garganicum)、树桩圆柱叠层石(Colonnella cormosa)、简单包心菜叠层石(Cryptozoon haplum)、喀什喀什叠层石(Kussiella kussiensis)、圆柱朱鲁莎叠层石(Jurusania cylindrica)、地窖印卓尔叠层石(Inzeria intia)、瘤通古斯叠层石(Tungussia nodosa)、贝加尔贝加尔叠层石(Baicalia baicalica)、育卡贝加尔叠层石(Baicalia unca)、奥姆泰奥姆泰叠层石(Omachtenia omachtensis)和波层叠层石(Stratifera undata)等。 相似文献
18.
The significance of stromatolites as depositional environmental indicators and the underlying causes of lamination in the lacustrine realm are poorly understood. Stromatolites in a ca 600 m thick Miocene succession in the Ebro Basin are good candidates to shed light on these issues because they are intimately related to other lacustrine carbonate and sulphate facies, grew under variable environmental conditions and show distinct lamination patterns. These stromatolites are associated with wave‐related, clastic‐carbonate laminated limestones. Both facies consist of calcite and variable amounts of dolomite. Thin planar stromatolites (up to 10 cm thick and less than 6 m long) occurred in very shallow water. These stromatolites represented first biological colonization after: (i) subaerial exposure in the palustrine environment (i.e. at the beginning of deepening cycles); or (ii) erosion due to surge action, then coating very irregular surfaces on laminated limestones (i.e. through shallowing or deepening cycles). Sometimes they are associated with evaporative pumping. Stratiform stromatolites (10 to 30 cm high and tens of metres long) and domed stromatolites (10 to 30 cm high and long) developed in deeper settings, between the surge periods that produced hummocky cross‐stratification and horizontal lamination offshore. Changes in stromatolite lamina shape, and thus in the growth forms through time, can be attributed to changes in water depth, whereas variations in lamina continuity are linked to water energy and sediment supply. Growth of the stromatolites resulted from in situ calcite precipitation and capture of minor amounts of fine‐grained carbonate particles. Based on texture, four types of simple laminae are distinguished. The simple micrite and microsparite laminae can be grouped into light and dark composite laminae, which represent, respectively, high and low Precipitation/Evaporation ratio periods. Different lamination patterns provide new ideas for the interpretation of microbial laminations as a function of variations in climate‐dependent parameters (primarily the Precipitation/Evaporation ratio) over variable timescales. 相似文献
19.
在收集前人及野外采集资料基础上,利用薄片鉴定、岩石密度分析,对冀北坳陷中新元古界雾迷山组的岩石类型与特征、沉积相标志、剖面相研究了其沉积相类型。结果认为研究区属于典型的陆表海碳酸盐台地沉积环境,根据岩性及叠层石特征可细分为潮下、潮间和潮上带。其中一、二段由近35个小型韵律层组成了一个完整的由海侵到海退的沉积序列,具有自潮下至潮间再至潮上的潮坪相为主的沉积样式,为典型的雾迷山韵律沉积。第三段小型叠层石只见于三段的下部,而从第12层开始出现大型叠层石。第四段灰质白云岩中含沥青质块体,层理一般平直,或微波状,有时可见斜层理和波痕,为潮间带一潮下带沉积。 相似文献
20.
扬子克拉通神农架群锆石和斜锆石U-Pb年代学及其构造意义 总被引:11,自引:5,他引:6
出露于扬子北缘神农架地区的神农架群是扬子地区保留比较完整的中元古代地层,其上部被青白口系马槽园群不整合覆盖.本文报导了神农架群砂屑白云岩、凝灰岩及侵入神农架群中的基性岩墙锆石及斜锆石U-Pb年龄.测年表明,神农架群下部大岩坪组碎屑锆石在1.4Ga、1.8Ga、2.0Ga、2.7Ga出现统计峰值;神农架群野马河组凝灰岩锆石U-Pb年龄为~1220Ma;侵入于石槽河组的基性岩墙斜锆石及锆石U-Pb年龄分别为1115Ma和1083Ma.根据新的测年结果,结合区域地质分析,我们得出以下几点主要结论:(1)可以将神农架群的沉积时代严格限定在1.4~1.1Ga之间,并推测神农架群碎屑物主体来自扬子克拉通古老基底,另有部分碎屑物质可能来自华夏地块或劳伦的前寒武纪基底;(2)神农架群和马槽园群之间的角度不整合面大致确定在1.1~1.0Ga之间,这一不整合面可能代表了扬子与华夏之间最早发生拼合的构造事件,是Rodinia超大陆汇聚事件的构造响应;(3)侵入于石槽河组的基性岩墙侵入时代为1115~1083Ma,这一期基性岩侵入事件在劳伦、非洲、澳大利亚以及南极洲都有记录.神农架地区的这一时期基性岩侵入事件是Rodinia超大陆汇聚过程中的产物还是和该时期全球性的超级地幔柱有关尚需要进一步研究;(4)神农架群沉积时代的确定,为建立我国1.4~1.1Ga期间的标准地层剖面提供了可能的候选剖面.(5)神农架群大岩坪组~1.45Ga碎屑锆石年龄峰为华夏地块在Columbia超大陆中位于劳伦和南极之间的观点提供了新依据. 相似文献