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1.
《International Geology Review》2012,54(9):1064-1075
ABSTRACTThe Neoproterozoic Kaijianqiao Formation is one of the most important pre-Sturtian rift successions in South China and there has long been a lack of reliable geochronological constraints for its minimum depositional age. In this study, new zircon U-Pb ages of volcaniclastic rocks from the topmost Kaijianqiao Formation are presented. The youngest SHRIMP and LA-ICP-MS zircon 206Pb/238U weighted mean ages of the tuff sample are 715.0 ± 9.8 and 718.8 ± 9.4 Ma, respectively. The youngest LA-ICP-MS zircon 206Pb/238U weighted mean age of the tuffaceous siltstone sample is 720.8 ± 7.4 Ma and represents the maximum depositional age of the topmost Kaijianqiao Formation. The results show that the minimum depositional age of the Kaijianqiao Formation in the western Yangtze Block should be ca. 715 Ma, consistent with other pre-Sturtian rift successions in South China, such as the Banxi Group, Chengjiang, and Liantuo formations. Together with the published zircon U-Pb ages, it is demonstrated that the Sturtian glaciation in South China (Jiangkou glaciation) most likely initiated around 715 Ma. In other Rodinia blocks, like Laurentia and Arabia, the Sturtian glaciation probably started between 712 and 717 Ma, thus our new results further support that the Sturtian glaciation was a rapid and globally synchronous event. Other 206Pb/238U zircon ages display five distinct peaks at ca. 751, 780, 799, 819, and 848 Ma, which corresponded to the tectonic-magmatic events related to the break-up of Rodinia. 相似文献
2.
New U-Pb age constraints on the upper Banxi Group and synchrony of the Sturtian glaciation in South China 总被引:1,自引:0,他引:1
The Nanhua basin in South China hosts well-preserved middle–late Neoproterozoic sedimentary and volcanic rocks that are critical for studying the basin evolution, the breakup of the supercontinent Rodinia, the nature and dynamics of the “snowball” Earth and diversification of metazoans. Establishing a stratigraphic framework is crucial for better understanding the interactions between tectonic, paleoclimatic and biotic events recorded in the Nanhua basin, but existing stratigraphic correlations remain debated, particularly for pre-Ediacaran strata. Here we report new Laser Ablation Inductively Coupled Plasma Mass Spectrometry (LA-ICPMS) U-Pb zircon ages from the middle and topmost Wuqiangxi Formation (the upper stratigraphic unit of the Banxi Group) in Siduping, Hunan Province, South China. Two samples show similar age distribution, with two major peaks at ca. 820 Ma and 780 Ma and one minor peak at ca. 910 Ma, suggesting that the Wuqiangxi sandstone was mainly sourced from Neoproterozoic rocks. Two major age peaks correspond to two phases of magmatic events associated with the rifting of the Nanhua basin, and the minor peak at ca. 910 Ma may correspond to the Shuangxiwu volcanic arc magmatism, which represents pre-collision/amalgamation subduction on the southeastern margin of the Yangtze Block. The youngest zircon group from the topmost Wuqiangxi Formation has a weighted mean age of 714.6 ± 5.2 Ma, which is likely close to the depositional age of the uppermost Banxi Group. This age, along with the ages reported from other sections, constrains that the Banxi Group was deposited between ca. 820 Ma and ca. 715 Ma. The age of 714.6 ± 5.2 Ma from the top of the Wuqiangxi Formation is indistinguishable with the SIMS U-Pb age of 715.9 ± 2.8 Ma from the upper Gongdong Formation in the Sibao village section of northern Guangxi, South China. It is also, within uncertainties, overlapped with two TIMS U-Pb ages from pre-Sturtian strata in Oman and Canada. These ages indicate that the Jiangkou (Sturtian) glaciation in South China started at ca. 715 Ma instead of ca. 780 Ma and support a globally synchronous initiation of the Sturtian glaciation at ca. 715 Ma. 相似文献
3.
桂北地区丹洲群是南华裂谷盆地南段的一套连续裂谷充填沉积,厘定各组沉积时限及区域地层关系,对理解华南新元古代裂谷作用期次具有重要意义。本文利用LA-ICP-MS锆石U-Pb同位素测年,获得丹洲群合桐组二段和拱洞组底部凝灰岩夹层形成年龄分别为801±4 Ma和781±5 Ma。研究表明,丹洲群白竹组和合桐组一段与下江群甲路组和乌叶组、板溪群沧水铺组和马底驿组、西乡群孙家河组及陆良组一段相当,沉积时限为820~800 Ma;合桐组二段与下江群番召组相当,沉积时限为800~780 Ma;拱洞组可与下江群清水江组、平略组和隆里组,板溪群五强溪组中上部和牛牯坪组,西乡群大石沟组中上部和三郎铺组,陆良组二段及澄江组、开建桥组、莲沱组、虹赤村组和上墅组的中上部直接对比,沉积时限为780~725 Ma。华南新元古代裂谷盆地系统的典型地层锆石年龄存在5组高峰,峰值年龄分别为818±2 Ma、802±1 Ma、780±4 Ma、756±4 Ma及728±5 Ma。综合华南新元古代岩浆活动特征及盆地沉积演化过程,确定华南新元古代裂谷作用可分为两期:820~800 Ma和800~725 Ma。此外,华南新元古代岩浆活动与裂谷作用之间存在明显的耦合关系,但各期岩浆活动对各裂谷盆地的影响程度存在差异。 相似文献
4.
文章通过碎屑锆石U-Pb测年和Hf同位素研究,揭示桂北地区丹洲期与南华冰期之间沉积转换的年代学记录。分别对丹洲群合桐组、拱洞组以及南华系长安组进行碎屑锆石U-Pb年龄和Hf同位素分析。结果表明,丹洲群合桐组和拱洞组具有相似的碎屑锆石年龄谱系,U-Pb年龄集中在720~1000 Ma、1700~2300 Ma和2400~2700 Ma。而南华系长安组的U-Pb年龄集中在650~720 Ma和720~1000 Ma,明显区别于丹洲群。丹洲群合桐组和拱洞组具有相似的Hf同位素特征,其εHf(t)以负值为主,且多数锆石的二阶段Hf模式年龄(TDM2)大于2400 Ma。而南华系长安组的Hf同位素特征区别于丹洲群,其εHf(t)以正值为主,TDM2值集中于1000~1300 Ma和1400~2200 Ma。碎屑锆石U-Pb年龄谱系和Hf同位素组成的不同,以及锆石形态和物源的差异,表明“雪峰不整合面”上下的南华冰期与丹洲期沉积地层之间存在明显的沉积转换。 相似文献
5.
《International Geology Review》2012,54(16):2044-2064
The Neoproterozoic succession in the Aksu region of northwestern China forms an unconformable boundary with the lower Precambrian Aksu basement group and consists of the Qiaoenbrak, Yuermeinak, Sugetbrak, and Chigebrak Formations. The two lowermost units include distinct glaciogenic diamictites that indicate distinct episodes of glaciation. In this study, we report the LA-ICP-MS U–Pb ages of detrital zircons and geochemical data from the lower Neoproterozoic strata. The age of the detrital zircon constrains the maximum depositional age to between 769 ± 10 and 727 ± 8 Ma for the Qiaoenbrak diamictites, which are associated with the Kaigas glaciation that occurred during the early Cryogenian period. The youngest detrital zircon age of 719 ± 9 Ma corresponds to the maximum depositional age of the Yuermeinak diamictites, which are associated with the Sturtian glaciation. The detrital zircons from the lower Neoproterozoic strata in the Aksu area indicated four peak ages of 2484, 1948, 861, and 647–581 Ma, which are consistent with the major tectonic episodes in the Tarim Block. The peak age of 2484 Ma represents an Archaean basement, which participated in the worldwide continental nuclei growth event from the late Neoarchaean to the early Palaeoproterozoic. The peak age of 1948 Ma may be associated with the assembly of the Columbia supercontinent, and the 861 and 647–581 Ma are likely associated with the break-up of the Rodinia supercontinent. The combination of geological and geochemical characteristics between the Qiaoenbrak Formation and Aksu Group indicates that the Qiaoenbrak Formation may be penecontemporaneous with the Aksu Group in an active continental margin tectonic setting. Following the break-up of the Rodinia supercontinent, the margin of the Aksu evolved into a passive margin and the Yuermeinak and Sugetbrak Formations were deposited. 相似文献
6.
兰中伍 《沉积与特提斯地质》2023,43(1):180-187
华南南华系对应于国际上的成冰系,关于其沉积时限长期存在争议。近十余年来,通过高精度锆石U-Pb定年,已经基本敲定南华系的重要时间节点。长安组底界年龄被限定在ca. 717 Ma,莲沱组顶部沉积时间被限定在ca. 714 Ma。长安冰期中期暂时冰退的时间被限定在ca. 690 Ma,冰期终止时间限定在ca. 659 Ma。小行星撞击地球可能导致了长安冰期中期的暂时冰退,这期间形成的风暴沉积构造和丘状交错层理可以提供最直接的沉积学证据。结合世界其它地区报道的年龄,斯图特(长安)冰期的起止时间限定在了717~659 Ma。马力诺(南沱)冰期的启动时间被大致限定为649 Ma,终止时间被限定在ca. 635 Ma。结合世界其它地区年龄数据,马力诺冰期的启动时间可限定在649~639 Ma。随着后续工作的深入,马力诺冰期的启动时间范围应会被进一步缩小。华南南华系沉积时限的准确厘定对于理解全球成冰纪地质-生物-环境事件具有重要意义。马力诺冰期持续时间约14 Myr,远远小于长安冰期的持续时间(约58 Myr)。冰期末期大规模岩浆作用是导致这两次冰期持续时间不同的直接原因。通过模拟计算发现,扬子北缘... 相似文献
7.
华南扬子陆块成冰纪冰川作用的启动时限及其全球对比* 总被引:1,自引:1,他引:0
江口冰期和南沱冰期是华南地区引人注目的2次成冰纪冰川事件,但其确切启动时间及其全球对比关系仍未有定论。为此,对桂北地区成冰系(南华系)长安组底部和南沱组底部冰成杂砾岩开展了碎屑锆石U-Pb年代学研究。长安组碎屑锆石U-Pb年龄集中分布于958—717 Ma,显著峰值为720、753、805及848 Ma,最年轻一组 206Pb/238U 年龄的加权平均值为719.6±6.1 Ma,可解释为长安组最大沉积年龄;南沱组碎屑锆石U-Pb 年龄集中分布于987—649 Ma,显著峰值为650、720、753、779、803、823及848 Ma,最年轻一组 206Pb/238U 年龄的加权平均值为649.3±6.2 Ma,可解释为南沱组最大沉积年龄。结合已发表的相关年龄数据可知,江口冰期很可能启动于ca.715 Ma,与塔里木、阿拉伯—努比亚、劳伦等陆块的Sturtian冰川作用高度同步;南沱冰期的启动应晚于650 Ma,与西伯利亚、澳大利亚、劳伦等陆块的Marinoan冰川作用基本同步。另外,碎屑锆石U-Pb年龄谱与CL图像显示,长安组和南沱组的物质来源主要为下伏新元古界岩浆—沉积记录,揭示出冰川对下伏地层的强烈刨蚀作用和华南新元古代幕式构造岩浆热事件。扬子陆块成冰纪冰川刨蚀作用可能与Rodinia 超大陆“裂离”有关的强烈伸展活动存在联系,并可能持续至Marinoan 冰期结束。 相似文献
8.
南华冰期的底界讨论:来自沉积学与同位素年代学证据 总被引:3,自引:0,他引:3
目前国内对于我国新元古代南华系划分的分歧很大,主要原因之一在于对板溪群及其相当层位地层的构造属性及其上限年龄的认识存在较大差异,为此,在详细的沉积学调查的基础上,对湘黔桂地区典型丹州群和下江群(与板溪群相当)有关剖面上顶部地层沉凝灰岩开展了锆石年代学研究.沉积学调查表明,板溪期沉积地层与上覆南华冰期沉积地层之间的转换界面清晰,界面上下岩性、结构、构造、沉积相特征迥异,显示板溪群和上覆南华纪冰期沉积期间存在明显的沉积—构造转换过程.而板溪晚期沉凝灰岩的锆石U-Pb同位素年代学研究则表明,板溪群及其相当层位的上限年龄均趋向于720 Ma,这与Sturtian冰期的启动年龄718 Ma接近.因此,基于沉积盆地演化的阶段性、全球性重要古气候演化的区域可对比性以及同位素年代学分析,将南华冰期启动年龄设定为720 Ma是恰当的,将我国南华系底界置于江口冰期沉积层系之底也是合理的,这为我国南华系底界GSSP的选定提供了重要的年代学和沉积学约束. 相似文献
9.
《International Geology Review》2012,54(6):672-694
The Great Xing’an Range in Northeast China is located in the eastern part of the Central Asian Orogenic Belt. From north to south, the Great Xing’an Range is divided into the Erguna, Xing’an, and Songliao blocks. Previous U–Pb zircon geochronology results have revealed that some ‘Precambrian metamorphic rocks’ in the Xing’an block have Phanerozoic protolith ages, questioning whether Precambrian basement exists in the Xing’an block. We present laser ablation inductively coupled plasma mass spectrometry (LA–ICP–MS) U–Pb dating results for zircons from suspected Precambrian metamorphic rocks in the Xing’an block. Meta-rhyolites of the Xinkailing Group in Nenjiang yield magmatic ages of 355.8 Ma. Detrital zircons from phyllites of the Xinkailing Group in Duobaoshan yield populations of ca. 1505, ca. 810, and ca. 485 Ma, with the youngest peak constraining its depositional age to be <485 Ma. Zircons from amphibolitic gneisses of the Xinkailing Group in Nenjiang have magmatic ages of 308.6 Ma. Mylonitic granites of the Xinkailing Group in Nenjiang have zircon magmatic ages of 164 Ma. Detrital zircons from two-mica quartz schists of the Luomahu Group in the Galashan Forest yield ca. 2419, ca. 1789, ca. 801, ca. 536, ca. 480, and ca. 420 Ma, with the youngest peak indicating its depositional age as <420 Ma. Detrital zircons from mylonitized sericite–chlorite schist of the Ergunhe Formation in Taerqi yield populations of 982–948, ca. 519, and ca. 410 Ma, with the youngest peak demonstrating that its depositional age is <410 Ma. These zircon ages for a range of lithologies show that the Great Xing’an Range metamorphic rocks formed during the Phanerozoic (164–485 Ma) and that this crust is mostly Palaeozoic. Based on these results and published data, we conclude that there is no evidence of Precambrian metamorphic basement in the Xing’an block. In summary, the age data indicate that Precambrian metamorphic basement may not exist in the Xing’an region. 相似文献
10.
黔东地区梵净山群与下江群凝灰岩SHRIMP锆石U-Pb年龄 总被引:3,自引:0,他引:3
根据黔东地区梵净山群回香坪组第6段凝灰岩SHRIMP锆石U-Pb年龄(840Ma±5Ma),结合下江群芙蓉坝组碎屑锆石年龄谱系及下江群新寨组(板溪群马底驿组)凝灰岩SHRIMP锆石U-Pb年龄(813.5Ma±9.6Ma),将其与广西四堡群和丹州群凝灰岩年龄进行对比。梵净山群回香坪组年龄与四堡群鱼西组凝灰岩年龄一致,2个地区均发育早期基性岩和枕状熔岩、晚期浅色花岗岩。该事件的精确定年对江南造山带西南端构造演化将有重要的地质意义。依据江南古陆新元古代低变质绿片岩的最新锆石U-Pb年龄,梵净山群(贵州)、四堡群(广西)、冷家溪群(湖南)、双桥山群(江西)与仓溪岩群(湖南)、宜丰岩群(江西)、张村群(江西),甚至与双溪坞群(浙西)在沉积年代上有一定的时间差,而上覆贵州下江群甲路组(814Ma)、广西丹州群合桐组(802Ma)、湖南板溪群张家湾组(802Ma)、江西登山群邓家组(766Ma)和浙江河上镇群骆家门组(791Ma)沉积起点的时间也不一致,但是两者之间均为角度不整合接触,反映出明显的造山事件。研究认为,不断地获得精确的地层年代数据将影响整个江南古陆变质基底的地层对比,并制约江南造山带的地质背景和成矿条件。 相似文献
11.
The South China Block was built up by the assembly of the Yangtze and Cathaysia blocks along the Neoproterozoic Jiangnan Orogenic Belt. The timing of the Jiangnan Orogeny remains controversial. The widespread orogeny–related Neoproterozoic angular unconformity that separates the underlying folded Sibao (ca.1000–820 Ma) and overlying Danzhou (ca.800–720 Ma) Groups was investigated. Six sedimentary samples, below and above the unconformity in three distal localities (Fanjingshan, Madiyi, and Sibao) yield detrital zircon with UPb ages ranging from 779 ± 16 Ma to 3006 ± 36 Ma, with a prominent peak at ca. 852 Ma. The youngest ages of 832 ± 11 Ma and 779 ± 16 Ma are revealed for the underlying Sibao and overlying Danzhou Groups, respectively. The detrital zircon UPb age relative probability plot of the Jiangnan Orogen matches well with those of the Yangtze and Cathaysia blocks since ca. 865 Ma. Integrating geological, geochemical and geochronological results, we suggest that the Paleo–South China Ocean began to subduct under the Yangtze block at ca. 1000 Ma, and was partly closed at ca. 865 Ma. Afterwards, the Yangtze and Cathaysia blocks initially collide at 865 Ma, forming the Jiangnan Orogen. This collision resulted in not only the folding of the Sibao Group, but also sediment deposition in a syn-collisional setting, which makes the upper part of the Sibao Group. The youngest S-type granite dated at ca. 820 Ma that intruded in the Sibao Group marks the late stage of the Jiangnan Orogeny. 相似文献
12.
四堡群为一套出露于桂北黔东南地区、变形强烈的浅变质、陆源碎屑岩火山岩、系,厚度大于5000 m,其下未见底,上被丹洲群(下江群相当地层)所覆盖。桂北四堡群自下而上划分为九小组、文通组和鱼西组3组。样品A20140731-3采自于文通组,岩性为灰绿色熔结火山岩,首次分选出600余粒岩浆型锆石,完成SHRIMP U-Pb定年测点15个,获得加权平均年龄(860±13)Ma。这表明四堡群主体属于新元古界,进而分析、讨论了江南造山带主要地层对比关系。 相似文献
13.
对河上镇群底部骆家门组2个凝灰岩样品进行锆石测年,得到的2组SHRIMP 锆石U-Pb年龄分别为824±5Ma和832±6Ma、791±15Ma。同时,对骆家门组底部花岗岩砾石中的锆石进行了测试,获得的SHRIMP 锆石U-Pb年龄为901±9Ma。由此进一步约束了骆家门组的形成时代。骆家门组年龄的标定对于浙江地区神功运动界面上、下地层双溪坞群和河上镇群年龄的完善,进而确定江南造山带的地层格架和地层对比具有重要意义。这些地层年龄和已经获得的角度不整合于骆家门组之下双溪坞群的年龄数据,为神功运动时限的约束和对比提供了重要依据。 相似文献
14.
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
15.
三峡地区新元古代莲沱组底部凝灰岩锆石SHRIMP U-Pb年代学及其地质意义 总被引:2,自引:0,他引:2
湖北三峡地区发育一套新元古代地层,其可能记录了地球系统的一系列剧变,如莲沱组可能记录了与Rodinia超大陆的裂解以及南华冰期起始时间等相关的地质信息。然而,莲沱组的沉积年龄及区域地层对比却仍存在较大争议,限制了我们对这些地质信息的理解。本文从花鸡坡剖面莲沱组底部凝灰岩层获得两组SHRIMP U-Pb锆石年龄(810±7)、(763±10)Ma,前者可能为莲沱组下伏黄陵花岗岩剥蚀后再沉积的结果,而后者应代表莲沱组底部沉积开始的年龄。结合前人在三峡地区对莲沱组地层年代学的研究,认为莲沱组沉积年龄为780~714 Ma,区域上可与滇中、川西澄江组/开建桥组及湘北的板溪群、黔东南的下江群及桂北的丹洲群进行对比,但其缺失下江系早期—中早期(820~790 Ma)沉积地层,因此只相当于下江群、丹洲群的中上部地层。 相似文献
16.
华北克拉通南缘安沟群的SHRIMP年龄及地层对比 总被引:5,自引:3,他引:2
华北克拉通南缘安沟群的时代及地层划分对比一直存有争议.侵吞安沟群的许台花岗岩原划为古元古代,本文通过SHRIMP测试,获得其精确的形成年龄为2503±11Ma.安沟群石梯沟组变质酸性火山岩的SHRIMP锆石U-Ph年龄为2521±11Ma,安沟群寨沟组变质酸性火山岩的SHRIMP锆石U-Ph年龄为2517±12Ma,表明安沟群形成于新太古代,与登封群和五台群的形成时代基本一致.安沟群地层的原岩组合为基性火山岩-中酸性火山岩、泥质.碎屑沉积岩和少量碳酸盐岩,总体上与登封群和五台群的原岩组合类似. 相似文献
17.
《International Geology Review》2012,54(14):1754-1768
The Wudaogou Group in eastern Yanbian, Northeast China, plays a key role in constraining the timing and eastward termination of the Solonker–Xra Moron River–Changchun Suture, where the Palaeo-Asian Ocean closed. The Wudaogou Group consists of schist, gneiss, amphibolite, metasedimentary, and metavolcanic rocks, all of which underwent greenschist- to epidote–amphibolite-facies regional metamorphism, with some hornfels resulting from contact metamorphism. To determine the age of deposition, the timing and grade of metamorphism, and the tectonic setting of the Wudaogou Group, we investigated the petrography and geochronology of the metamorphic rocks in this group. Zircons from the metasedimentary rocks of this group can be divided into metamorphic zircons and detrital zircons of magmatic origin. U–Pb ages of metamorphic zircons dated by LA-ICP-MS vary from 249 ± 4 to 266 ± 4 Ma, approximating the age of regional metamorphism in the eastern Yanbian area. Detrital zircons yield U–Pb ages ranging from 253 ± 5 to 818 ± 5 Ma, and indicate that the provenance of the Wudaogou Group experienced four tectonic–thermal events between 818 and 253 Ma: Neoproterozoic (ca. 818–580 Ma), Cambro–Ordovician (ca. 500–489 Ma), Devonian–Carboniferous (ca. 422–300 Ma), and middle–late Permian (ca. 269–253 Ma). The youngest detrital zircon, with a U–Pb age of 253 ± 5 Ma, defines the maximum depositional age of the Wudaogou Group. The presence of the Cambro-Ordovician and Neoproterozoic detrital zircons implies that the source of the Wudaogou Group had an affinity with Northeast China, which leads us to conclude that the Solonker–Xra Moron River–Changchun Suture extends from Wangqing to Hunchun in eastern Yanbian, and that the Palaeo-Asian Ocean may have closed at the end of the Permian or Early Triassic period. 相似文献
18.
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
19.
扬子地块西南缘大红山群老厂河组变质火山岩的锆石U-Pb定年及其地质意义 总被引:15,自引:8,他引:7
大红山群是扬子地台西缘相对较老的地层单元,普遍经历了绿片岩相-低角闪岩相变质作用。其中部的曼岗河组、红山组已获得古元古代晚期~1.68Ga的成岩年龄,其底部的老厂河组却未有相关年龄的报道。大红山群的变质时代目前也无精确的年龄结果。本文以老厂河组厚层变质沉积岩中的薄层变质火山岩样品为研究对象,在岩相学研究的基础上,运用LA-ICP-MS方法对变质火山岩锆石进行原位U-Pb同位素定年及相关的微量、稀土元素测试,获得变质火山岩的原岩年龄和变质年龄:(1)老厂河组变质中酸性岩和变质基性岩中岩浆锆石微区的207Pb/206Pb加权平均年龄分别为1711±4Ma和1686±4Ma,限定老厂河组的形成年龄范围为1711~1686Ma;(2)变质基性岩(石榴斜长角闪岩)中变质锆石的206Pb/238U年龄为849±12Ma。本文结果表明,大红山群的形成时代可提早至1711±4Ma,又一次证明了扬子地台西缘古老结晶基底的存在;大红山群在~850Ma经历了一期新元古代变质事件,这期变质可能是与扬子地台西缘新元古代岩浆事件有关的区域变质事件。 相似文献
20.
Initial accretion of the North Qinling Terrane to the North China Craton before the Grenville orogeny: constraints from detrital zircons 总被引:2,自引:0,他引:2
Xuefei Liu Pengfei Zuo Leon Bagas Yuliang He Deshun Zheng 《International Geology Review》2019,61(1):109-128
Whether the North Qinling Terrane (NQT) was accreted to the North China Craton (NCC) in the Proterozoic is still a matter of debate. We report the first detrital zircon study from the Baishugou Formation, which forms the uppermost part of the Mesoproterozoic Guandaokou Group, at the southernmost NCC margin. Detrital zircons from carbonaceous silty phyllite in the lower part of the Baishugou Formation yield U–Pb ages peaking at ca. 2500 Ma, with minor peaks at ca. 2300–2000, 1800, and 1600 Ma, and εHf(t) values ranging from ?10.8 to +9.1. These zircons are considered to have been sourced from the NCC. In contrast, the middle-to-upper part of the formation contains detrital zircons which yield an age group ranging from 1800 to 1000 Ma, with peaks at 1800, 1500, 1300, and 1100 Ma; the zircons with ages of 1500–1300 Ma dominantly have εHf(t) values greater than +5 and the majority plot along the depleted mantle evolution curve. The striking difference between the U–Pb ages of the detrital zircons from the upper and lower parts of the formation suggests a shift in provenance. Magmatism at 1500–1300 Ma has not been reported from the southern margin of the NCC but has been discovered in the NQT. Hence, we deduce that the zircons from the upper part of the formation were primarily derived from the NQT, where an episode of crustal growth and magmatism is recorded between 1500 and 1100 million years. The variable sediment provenances imply that the NCC and NQT could be connected during the late Mesoproterozoic to early Neoproterozoic. The pattern of detrital zircon ages in the new sediments from the Baishugou Formation is distinct from those in the Kuanping Group and the Palaeozoic Erlangping Complex, which are at present sandwiched between the NCC and the NQT. The detrital zircons from these two groups are dominated by an age peak at ca. 1000 Ma, which is formed as the result of amalgamation of the NQT and the Rodinia Supercontinent during the Grenville orogeny. It is possible that the new sediments of the Baishugou Formation were deposited before Grenville orogeny. 相似文献