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新疆克孜尔河流经南天山造山带南缘,其河流沉积物中记录了流域内地质体的重要信息。为进一步约束南天山造山带的构造演化历史,探讨该造山带古生代地壳生长与演化,对克孜尔河沉积物中的碎屑锆石进行U‐Pb定年。结果表明锆石年龄主要集中分布在460~390 Ma和310~260 Ma,少量分布在前寒武纪,暗示南天山造山带在古生代期间发生了强烈的岩浆活动。物源分析表明克孜尔河沉积物中的碎屑锆石主要源于南天山造山带和塔里木克拉通北部,年龄为460~390 Ma的碎屑锆石很可能记录了南天山洋在晚奥陶—早泥盆世期间向南俯冲到塔里木克拉通之下的弧岩浆作用。南天山洋闭合以及塔里木克拉通与伊犁—中天山地块的最终碰撞可能发生在晚石炭世,随后发生同碰撞和后碰撞岩浆作用,以样品中大量310~260 Ma的碎屑锆石为代表。结合南天山造山带内已有的古生代岩浆岩锆石的Hf同位素数据分析表明,晚奥陶—早泥盆世南天山造山带的大陆地壳演化主要以古老地壳的再造和部分新生地幔物质的加入为主,晚石炭—早二叠世该造山带地壳演化则以前寒武纪古老基底岩石的改造为主,仅有限的新生组分加入到岩浆的形成过程中。 相似文献
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A.V. Prokopiev V.B. Ershova E.L. Miller A.K. Khudoley 《Russian Geology and Geophysics》2013,54(10):1195-1204
The first U–Pb dating of detrital zircons from the Lower Carboniferous sandstones in the frontal part of the northern Verkhoyansk fold-and-thrust belt showed that detrital zircon age spectra for the Lower Visean (Krestyakh Formation) and the Upper Visean–Serpukhovian (Tiksi Formation) rocks are quite different. The Early Visean sandstones contain up to 95% detrital zircons of Precambrian age, while those of Late Visean–Serpukhovian age, only 55%. The shape of age distribution plots of Precambrian zircons for both samples is similar, indicating that reworking of terrigenous sediments of the Krestyakh Formation or the same sources dominated in Early Visean time (crystalline basement of the craton, eroded Meso- and Neoproterozoic sedimentary complexes, and igneous rocks of Central Taimyr) contributed significantly to the accumulation of the Late Visean–Serpukhovian deposits. In the rocks of the Tiksi Formation, 45% of detrital zircons are of Paleozoic age, while 24% are Early Paleozoic, with prevailing Cambrian and Ordovician ages. Possible provenance areas with abundant igneous rocks of this age could be the Taimyr–Severnaya Zemlya and Central Asian fold belts extending along the northern, western or southwestern margins of the Siberia. The presence of Middle–Late Devonian zircons is thought to be related to the erosion of granitoids of the Yenisei Ridge and the Altai–Sayan region. Early Carboniferous detrital zircons probably had a provenance in igneous rocks of the Taimyr–Severnaya Zemlya fold belt, on the assumption that collision between the Kara block and the northern margin of the Siberian continent had already occurred by that time. In Early Visean time, sedimentation occurred in small deltaic fans, likely along steep fault scarps that formed as a result of Middle Paleozoic (Devonian–Carboniferous) rifting. The clastic material came from small rivers that eroded the nearby area. Late Visean–Serpukhovian time was marked by a sharp increase in the amount of clastic material and by the appearance of detrital zircons coming from new provenance regions, such as fold belts extending along the northern and southwestern margins of the Siberian continent. A large river system, which was able to transport clastic material over large distances to deposit it in submarine fans on the northern Verkhoyansk passive continental margin, had already existed by that time. 相似文献
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碎屑锆石U-Pb年代学数据获取快,物源对比精确度高,还可以估算源区剥蚀量,在定量物源分析方面具有显著优势,广受沉积学界青睐。但由于采样、实验过程中的不确定性,常常导致一些物源判别结果存在多解性,甚至产生了很多争议。从碎屑锆石U-Pb年代学定量物源分析的原理入手,综述了由于沉积水动力、母岩锆石产率、沉积再旋回、人类活动、以及数据获取与处理5方面因素对年龄谱可能产生的影响。结果表明,河流砂相比地层中的沉积岩,物源区母岩性质明确,运移路径非常清晰,可以进行锆石产率的准确测定,并能够同时开展混合模型正演和反演,是理想的定量物源分析研究对象。对开展基于现代河流砂的定量物源分析机理研究进行了展望,指出应用新技术、新方法开展小流域碎屑锆石U-Pb年代学研究是揭示锆石侵蚀、搬运和沉积过程行为机理的重要手段、也是构建定量物源分析方法的重要基础,将为规范开展沉积地层的物源研究提供重要的理论依据。 相似文献
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Delia Rösel Steven David Boger Andreas Möller Birgit Gaitzsch Matthias Barth Jeffrey Oalmann Thomas Zack 《地学学报》2014,26(1):64-71
Provenance studies from Cambro‐Ordovician sediments of the North Gondwana passive margin typically ascribe a North African source, a conclusion that cannot be reconciled with all observations. We present new U‐Pb ages from detrital rutile and zircon from Late Ordovician sediments from Saxo‐Thuringia, Germany. Detrital zircons yield age populations of 500–800 Ma, 900–1050 Ma and 1800–2600 Ma. The detrital rutile age spectra are unimodal with ages between 500 and 650 Ma and likely represent, together with the 500–800 Ma and 1800–2600 Ma zircon populations, detritus sourced predominantly from North Africa. In contrast, the c. 950 Ma zircons, which are persistently found in Cambro‐Ordovician sediments of North Gondwana, have no obvious African source. We propose that these zircons are sourced from the Rayner Complex–Eastern Ghats regions of Antarctica and India. An Indo‐Antarctic source indicates either continental‐scale sedimentary transport from central Gondwana to its peripheries or multiple cycles of sediment reworking and redeposition. 相似文献
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中国最老岩石和锆石 总被引:18,自引:12,他引:6
在中国大陆的许多地区都已发现大于3.4Ga的锆石和岩石.鞍山是全球仅有几个存在≥3.8Ga岩石的地区之一.它们以不大的规模存在于白家坟、东山、深沟寺杂岩中,由糜棱岩化奥长花岗岩、条带状奥长花岗岩和变质石英闪长岩组成.近年来,在鞍山地区还发现了许多3.7~3.6Ga岩石和锆石.锆石Hf同位素组成表明鞍山地区在3.8~3.6Ga期间存在周期性的地幔添加和陆壳形成.除鞍山外,在中国许多地区的不同类型岩石中也获得了≥3.4Ga锆石,虽然它们大多数都是碎屑和残余成因.(1)华北克拉通冀东铬云母石英岩中3.85~3.55Ga碎屑锆石:(2)华北克拉通信阳中生代火山岩长英质麻粒岩中3.66Ga岩浆锆石;(3)华南克拉通宜昌地区杨子地块新元古代砂岩中3.80Ga碎屑锆石(一颗);(4)华南克拉通华夏地块新元古代一古生代变质沉积岩中3.76~3.6Ga碎屑锆石;(5)西北地区塔里木地块阿克塔什塔格地区古元古代片麻状花岗岩中3.6Ga残余锆石;(6)西秦岭奥陶纪变质火山岩中4.08Ga捕掳锆石(一颗);(7)西藏普兰地区奥陶纪石英岩中4.1Ga碎屑锆石(一颗,有3.61Ga增生边).一些古老锆石有高达4.1~4.0Ga的Hf同位素模式年龄.在中国,>3.4Ga地壳物质的比例以往被低估了,发现冥古宙和始太古代物质的可能性仍然存在,它们将对中国早期陆壳演化提供新的制约. 相似文献
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We present a synopsis of detrital zircon U–Pb ages of sandstones from North Africa and neighboring Israel and Jordan, which allows us to identify zones with characteristic sediment provenance along the northern Gondwana margin (in present-day coordinates) in Cambrian–Ordovician times, and helps us to unravel the peri-Gondwana jigsaw puzzle. A special feature of the early Paleozoic cover sequence of North Africa is the eastward increase of 1.1–0.95 Ga detrital zircons, which become ubiquitous in the early Paleozoic sandstones of the Saharan Metacraton. Detrital zircons aged about 2.7–2.5, 2.15–1.75 and 0.75–0.53 Ga are also present. Early Paleozoic sandstones with similar provenance are known from peri-Gondwana terranes in the Eastern and Western Mediterranean and from NW Iberia. These terranes need not be transported from western Gondwana (Amazonia) as suggested previously. They were likely located to the north of the Saharan Metacraton during the early Paleozoic before they rifted off from Gondwana. Furthermore, we recognize an increase, as stratigraphic ages get younger, of ca. 1.0 Ga detrital zircons at some point between the Late Cambrian and late Middle Ordovician. We speculate that this might be linked to far-field tectonics and regional uplift in central Gondwana related to plate-tectonic reorganization along the Gondwana margin, leading to erosion of ca. 1.0 Ga basement and country rocks of the Transgondwanan supermountain and fluvial dispersal of detritus toward the Gondwana margin. 相似文献
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中国北部陆架海碎屑锆石U- Pb年龄和钾长石主微量元素物源示踪研究 总被引:2,自引:0,他引:2
渤海湾盆地每年沉积大量的河流碎屑物质,但其中的砂级物质能否迁移扩散到胶东半岛海湾内一直不清楚。锆石和钾长石分别是河流沉积物中常见的副矿物和主要造岩矿物之一,由于各自的U- Pb年龄和地球化学元素组成在不同区域内存在显著差异,是进行物源示踪研究的理想矿物。基于此,本文利用激光剥蚀电感耦合等离子质谱仪 (LA- ICP- MS) 对渤海湾盆地主要注入河流和胶东半岛的威海湾和银滩湾的海岸砂开展碎屑锆石 (n=438) 和钾长石 (n=160) 微区原位U- Pb年龄、Th/U比值和主微量元素分析,结果表明威海湾和银滩湾内的砂级沉积物的碎屑锆石以具有典型的新元古代峰值年龄 (697~735 Ma),缺乏古元古代和新太古代峰值年龄为特征,Th/U比值和胶东基岩接近,结合Kolmogorov- Smirnov 统计方法的多维判别图 (MDS),说明这些砂级碎屑物质的源区主要是以胶东半岛为源区的近源物质。而黄河口的碎屑钾长石原位(in situ) Na2O、K2O、Al2O3和Rb、Sr、Ba、Pb元素含量变化与刘公岛和银滩的海砂样品截然不同,进一步验证了上述碎屑锆石的研究结果。因而将碎屑锆石和钾长石原位地球化学分析相结合有助于精准判定物源关系,在今后中国北部陆架海物源示踪研究、渤海湾盆地盆山耦合研究中将具有良好的应用前景。 相似文献
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在河西走廊带东端牛首山地区中寒武统的沉积岩中开展碎屑锆石原位LA-ICP-MS U-Pb定年和Hf同位素研究。结果表明,所采样品U-Pb年龄谱存在3个峰值:0.6~0.8Ga(峰值为669Ma)、1.0~1.3Ga(峰值为1173Ma)、1.6~1.8Ga(峰值为1710Ma),明显区别于河西走廊带寒武系之上地层中的碎屑锆石U-Pb年龄谱。碎屑锆石U-Pb年龄谱和Hf同位素特征表明,典型的格林威尔期的物质和峰值为1710Ma的碎屑物质可能源于澳大利亚西南部,与现有的古生物学和古地磁学研究结果相吻合;中奥陶世随着北祁连洋的进一步扩张及其古地理位置的变化,碎屑物质的源区也随之变化,河西走廊带开始出现0.8~1.0Ga晋宁期的碎屑物质;晚奥陶世后由于祁连山的造山隆起、剥蚀、风化,河西走廊带记录了该地区0.4~0.5Ga的碎屑物质。 相似文献
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河西走廊带与澳大利亚的亲缘性
——来自牛首山中寒武统碎屑锆石U-Pb年龄和Hf同位素的证据 总被引:1,自引:0,他引:1
在河西走廊带东端牛首山地区中寒武统的沉积岩中开展碎屑锆石原位LA-ICP-MS U-Pb定年和Hf同位素研究。结果表明,所采样品U-Pb年龄谱存在3个峰值:0.6~0.8Ga(峰值为669Ma)、1.0~1.3Ga(峰值为1173Ma)、1.6~1.8Ga(峰值为1710Ma),明显区别于河西走廊带寒武系之上地层中的碎屑锆石U-Pb年龄谱。碎屑锆石U-Pb年龄谱和Hf同位素特征表明, 典型的格林威尔期的物质和峰值为1710Ma的碎屑物质可能源于澳大利亚西南部,与现有的古生物学和古地磁学研究结果相吻合;中奥陶世随着北祁连洋的进一步扩张及其古地理位置的变化,碎屑物质的源区也随之变化,河西走廊带开始出现0.8~1.0Ga晋宁期的碎屑物质;晚奥陶世后由于祁连山的造山隆起、剥蚀、风化,河西走廊带记录了该地区0.4~0.5Ga的碎屑物质。 相似文献
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开展现代河流沉积物的物源分析正演研究,对厘清河流搬运分选过程对不同碎屑成分的影响、不同源区对汇区沉积物的贡献机制以及物源定量分析具有重要意义。对北祁连北大河与洪水坝河现代河流沉积物的物源开展了正演研究,结合砾石成分统计、重矿物分析和碎屑锆石U-Pb测年方法,分析了流域内不同物源对现代河流不同碎屑成分贡献的差异性。结果表明,两条河流沉积物的特征显示汇区不同碎屑成分对物源区岩性的反映各有侧重。其中砾石岩性能够反映整个流域的主要岩性;砂粒中的重矿物组合也可以反映源区主要岩性,且对重矿物含量较高的岩体或地层(如铁矿)十分敏感;碎屑锆石年龄谱反映了整个流域物源端元锆石的综合贡献,各年龄峰锆石占比与源区各年龄峰锆石贡献呈较好的正相关关系,其中源区沉积岩碎屑锆石的贡献比较显著。通过河流物源正演分析进一步建立现代河流源汇模式是实现物源量化分析的一个可行方向。 相似文献
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河流沉积学研究热点与进展--第11届国际河流沉积学大会综述 总被引:1,自引:1,他引:0
第11届国际河流沉积学大会于2017年7月17日-21日在加拿大卡尔加里大学举行,每四年举行一次的国际河流沉积学学术会议,吸引了当今北美、欧洲、澳洲及亚洲从事河流沉积学及相关学科研究的众多知名学者参会,研究成果充分体现了当前国际河流沉积学研究取得的重要进展和发展方向。重要进展有:1)河流动力学及其变化过程研究。其中包括将今论古法论现代河流沉积过程与古老地层对比,河道-洪泛平原体系的越岸复合沉积动力学,河流动力学与变化过程研究展望,恢复河道迁移过程:新一代平面图演化模式的讨论,冲积河流和基岩河流的湍流、颗粒间作用和沉积作用;2)陆缘河流。包括河流入海处的地貌动力学与沉积学,河流补给边缘的沉积物搬运、地貌和地层特征,干旱地区河流、冲积扇体系与风的相互作用,植被生长前、无植物生长、或是植被发育区河流的沉积过程研究;3)河流沉积地层及其地下资源。包括源-汇系统,"河流相模式"是否有用的讨论,辫状河、网状河、曲流河概念的厘定等;4)河流地貌变化。包括气候改变、泥泞植被洪泛平原等对河流沉积物通量、河流模式等产生影响,河道中冲积岛屿的演化和稳定河流的蛇曲化,河流环境中沉积物生物作用等。基于上述资料分析,认为河流演化过程从定性向定量化研究,物理模拟与数值模拟技术是河流沉积学研究不可或缺的手段,应用定量建模、数学计算等方法进行精准研究,碎屑锆石U-Pb定年技术是新一代从源到汇研究的重要工具等诸多方面,是我国学者应该重视并开展研究的方向。 相似文献
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在新疆西南天山科桑溶洞地区,新厘定出一套斜长角闪岩-花岗岩地质单元:侵入斜长角闪岩中的新元古代白云母花岗岩(片麻状构造)、以及侵入上述古老岩石单元的早奥陶世花岗岩(块状构造)。片麻状白云母花岗岩中锆石具有热液锆石边、岩浆锆石幔和碎屑锆石核(边-幔-核结构),剔除被热液锆石和碎屑锆石混染的SHRIMP测点,获得岩浆锆石幔的加权平均年龄752.3±5.1Ma(MSWD=0.95),代表岩浆的结晶年龄。块状花岗岩的锆石具有边-核结构,热液锆石边的U-Pb年龄(419.5±5.7Ma)明显偏低。剔除热液锆石和碎屑锆石,获得岩浆锆石的平均U-Pb年龄481.1±4.4Ma(MSWD=0.88),代表花岗岩的结晶年龄。早奥陶世早期,岩浆侵入新元古代片麻状白云母花岗岩中。在晚志留世或者更晚时期,两类花岗岩共同经受了变质热液改造,变质流体交代岩浆锆石,导致锆石溶蚀再生长。 相似文献
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Hubert Miller Christopher Adams Florencio G. Aceñolaza Alejandro J. Toselli 《International Journal of Earth Sciences》2011,100(2-3):619-629
The evolution of the provenance areas for Late Neoproterozoic, Cambrian and Early Ordovician sedimentary and meta-sedimentary rocks of north central and northwest Argentina is discussed using 123 maximum ages of detrital zircons from 42 samples from this and previously published studies. Most detrital zircon ages fall into two groups: 1,200–900 Ma and 670–545 Ma. These ages are essentially identical for the non- to very low grade metamorphic late Neoproterozoic to Early Cambrian Puncoviscana Formation and the low to high grade metamorphic rocks of Eastern Sierras Pampeanas. Hence, both units are related to similar provenance areas at the same time of sedimentation. The time span from zircon crystallization in the Earth’s crust to exhumation and erosion may be very long. This is important when determining maximum ages of sedimentary rocks. Variation of zircon maxima may also be influenced by concurrent sedimentary cover of proposed provenance areas. For the late Mesoproterozoic to early Neoproterozoic zircon age group, an active mountain range of the southwest Brazilian Sunsás orogen is the most probable provenance area. The younger, late Neoproterozoic zircons are related to the continuously developing mountains of the Brasiliano orogen of southwest and south central Brazil. Young zircons, up to 514 Ma, from fossil-bearing Puncoviscana and Suncho Formation outcrops are related to late Early Cambrian volcanism contemporaneous with sedimentation. This situation continues through the Late Cambrian to the Early Ordovician, but the Sunsás orogen provenance diminishes as possible Río de la Plata craton origins become important. 相似文献
16.
The U-Pb dating of detrital zircons from Carboniferous rocks in the northern frontal zone of the Verkhoyansk Fold-and-Thrust Belt (Kharaulakh Anticlinorium) at the boundary with the Siberian Platform is carried out for the first time. The age distribution of detrital zircons from the four dated samples has much in common, indicating that the same sources of clastic material were predominant. All of the samples are dominated by Precambrian zircons; the majority of them are Paleo- and Neoproterozoic grains. Early Ordovician and Late Devonian-Early Carboniferous detrital zircons are also numerous. The igneous rocks of the Taimyr-Severnaya Zemlya and/or Central Asian foldbelts extending along the northern, western, and southwestern margins of the Siberian continent probably were the main source areas of the studied sedimentary successions. The clastic material was transferred at a great distance by large river systems similar to the present-day Mississippi River and deposited in submarine fans at the passive margin of the Siberian continent. The occurrence of the detrital zircons whose age is synchronous to the time of sedimentation of the Carboniferous successions in the northern Verkhoyansk region (320–340 Ma) allows us to suggest that they were derived from the Taimyr-Severnaya Zemlya Foldbelt and that collision of the Kara Block with the Siberian continent began in the Early Carboniferous. The performed study shows the dating of detrital zircons is very helpful for the paleogeographic and tectonic reconstructions. 相似文献
17.
R. C. Dwyer W. J. Collins A. C. Hack R. Hegarty H.-Q. Huang 《Australian Journal of Earth Sciences》2013,60(7-8):1049-1069
AbstractRe-evaluation of geochemical and geophysical datasets, and analysis of magmatic and detrital zircons from drill-core samples extracted from the Louth region of the southern Thomson Orogen (STO), augmented by limited field samples, has shown that two temporally and compositionally distinct igneous groups exist. The older Lower Devonian, calc-alkaline group corresponds to complexly folded, high-intensity curvilinear magnetic anomalies in the Louth region (Louth Volcanics) and are probable equivalents to Lower Devonian volcanics in the northern Lachlan Orogen. A younger Permo-Triassic alkaline assemblage forms part of an E–W corridor of diatremes that appears to relate to focussed lithospheric extension associated with the later stages of the Hunter–Bowen Orogeny in the New England Orogen. The alkaline group includes gabbros previously considered as Neoproterozoic, but all magmatic rocks, including alkaline basalts, contain an unusual number of xenocrystic zircons. The age spectra of the xenocrystic zircons mimic detrital zircons from Cobar Basin sedimentary rocks and/or underlying Ordovician turbidites, suggesting incorporation of upper crustal zircons into the alkaline basaltic magmas. A distinct difference of detrital zircon age spectra from central Thomson Orogen metasediments indicates the STO metasediments have greater affinities to the Lachlan Orogen, but both orogens probably began in the Early Ordovician during widespread backarc extension and deposition of turbidites in the Tasmanides. A surprising result is that Ordovician, Devonian and Permo-Triassic basaltic rocks from the STO and elsewhere in the Tasmanides, all yield the same Nd-model ages of ca 960–830 Ma, suggesting that Neoproterozoic subcontinental lithospheric mantle persisted throughout the evolution of the Tasmanide orogenic system. 相似文献
18.
Identifying granite sources by SHRIMP U-Pb zircon geochronology: an application to the Lachlan foldbelt 总被引:24,自引:1,他引:23
Sue Keay David Steele William Compston 《Contributions to Mineralogy and Petrology》1999,137(4):323-341
The potential genetic link between granites and their host sediments can be assessed using zircon age inheritance patterns.
In the Lachlan fold belt, southeastern Australia, granites and associated high-grade metasedimentary rocks intrude low-grade
Ordovician country rock. This relationship is well-exposed in the Tallangatta region, northeast Victoria (part of the Wagga-Omeo
Metamorphic Complex). In this region granites (two I-types and two S-types) have intruded during the mid-late Silurian between
approximately 410–430 Ma based on the ages of magmatic zircons. The age spectra for inherited zircons from the granites have
been compared with those of detrital zircons from the enclosing low- and high-grade metasediments. In broad terms, both for
detrital zircons in all four sediments and for inherited zircons in three of the four granites, the dominant ages are early
Paleozoic and Late Precambrian, with sporadic older Precambrian ages extending up to 3.5 Ga. The ages of the youngest detrital
zircons from the low-grade Lockhart and Talgarno terranes limit the time of sedimentation to ca. 466 Ma or younger. The youngest
detrital zircons from two samples of the high-grade Gundowring terrane are 473 Ma, making these sediments Ordovician or younger,
not Cambrian as originally suggested. However, the individual age spectra for the four selected metasediments are not well
matched when closely examined. The age spectra of the inherited zircons in the granites also do not adequately match those
in any of the metasediments. Thus, the metasediments might not be representative of the actual source rocks of the granites.
While the exact source of the granites cannot be identified from the analysed samples, the existence of a large population
of ca. 495 Ma inherited zircon grains in the S-type granites requires that the granite source contains a significant proportion
of Cambrian or younger material. This does not preclude the existence of a Precambrian basement to the Lachlan fold belt but
indicates that at the level of S-type magma generation, a Cambrian and/or younger protolith is required.
Received: 28 August 1998 / Accepted: 7 July 1999 相似文献
19.
下扬子地区从晚奥陶世开始沉积特征发生了明显转变,从浅海相转变为三角洲相沉积.这一沉积特征转变与早古生代晚期经历的强烈造山事件密切相关.通过下扬子地区晚奥陶世到志留纪沉积序列的沉积学和碎屑锆石年代学研究,揭示沉积盆地的性质及其时空演化过程,探讨沉积盆地发育与造山带隆升剥蚀之间的关系.下扬子地区早古生代晚期沉积学特征从东南向西北岩性由岩屑砂岩变为石英砂岩,粒度由粗粒变为细粒;沉积厚度等值线具有明显的不对称性,靠近东南等值线密,且沉积厚度大;往西北等值线稀疏,且沉积厚度小;沉积中心呈狭长带状分布,并从东南向西北方向迁移;具有前陆盆地的沉积特征.上奥陶统到中志留统的碎屑锆石以900~720Ma的年龄为主,指示物源以下伏新元古代晚期裂谷层序为主;从早志留世高家边组开始,450~420Ma碎屑锆石年龄出现并逐渐增多,表明同造山岩浆岩被剥露地表并开始提供物源;碎屑锆石中没有出现明显的代表华夏地块基底1.9~1.7Ga的特征年龄峰值,表明华夏地块不是下扬子地区早古生代晚期前陆盆地的主要物源区.下扬子地区前陆盆地从晚奥陶世开始沉降,晚奥陶世的构造沉降速率超过了沉积物的供给速率,前渊沉积了巨厚的浅海相泥岩夹粉砂岩和砂岩;晚奥陶世末造山带持续隆升并向西北方向扩展,沉积速率加快,沉积物粒度明显变粗,沉积相也由浅海相转变成三角洲前缘相;早志留世开始埋深较大的同造山岩浆岩开始遭受剥蚀,导致前陆盆地中450~420 Ma的碎屑锆石含量明显增加. 相似文献
20.
Zircon and whole-rock Nd-Pb isotopic provenance of Middle and Upper Ordovician siliciclastic rocks, Argentine Precordillera 总被引:1,自引:0,他引:1
JAMES D. GLEASON STANLEY C. FINNEY† SILVIO H. PERALTA‡ GEORGE E. GEHRELS§ KATHLEEN M. MARSAGLIA¶ 《Sedimentology》2007,54(1):107-136
Graptolite‐bearing Middle and Upper Ordovician siliciclastic facies of the Argentine Precordillera fold‐thrust belt record the disintegration of a long‐lived Cambro‐Mid Ordovician carbonate platform into a series of tectonically partitioned basins. A combination of stratigraphic, petrographic, U‐Pb detrital zircon, and Nd‐Pb whole‐rock isotopic data provide evidence for a variety of clastic sediment sources. Four Upper Ordovician quartzo‐lithic sandstones collected in the eastern and central Precordillera yield complex U‐Pb zircon age spectra dominated by 1·05–1·10 Ga zircons, secondary populations of 1·22, 1·30, and 1·46 Ga, rare 2·2 and 1·8 Ga zircons, and a minor population (<2%) of concordant zircons in the 600–700 Ma range. Archaean‐age grains comprise <1% of all zircons analysed from these rocks. In contrast, a feldspathic arenite from the Middle Ordovician Estancia San Isidro Formation of the central Precordillera has two well‐defined peaks at 1·41 and 1·43 Ga, with no grains in the 600–1200 Ma range and none older than 1·70 Ga. The zircon age spectrum in this unit is similar to that of a Middle Cambrian quartz arenite from the La Laja Formation, suggesting that local basement rocks were a regional source of ca 1·4 Ga detrital zircons in the Precordillera Terrane from the Cambrian onwards. The lack of grains younger than 600 Ma in Upper Ordovician units reinforces petrographic data indicating that Ordovician volcanic arc sources did not supply significant material directly to these sedimentary basins. Nd isotopic data (n = 32) for Middle and Upper Ordovician graptolitic shales from six localities define a poorly mixed signal [ɛNd(450 Ma) = −9·6 to −4·5] that becomes more regionally homogenized in Upper Ordovician rocks (−6·2 ± 1·0; TDM = 1·51 ± 0·15 Ga; n = 17), a trend reinforced by the U‐Pb detrital zircon data. It is concluded that proximal, recycled orogenic sources dominated the siliciclastic sediment supply for these basins, consistent with rapid unroofing of the Precordillera Terrane platform succession and basement starting in Mid Ordovician time. Common Pb data for Middle and Upper Ordovician shales from the western and eastern Precordillera (n = 15) provide evidence for a minor (<30%) component that was likely derived from a high‐μ (U/Pb) terrane. 相似文献