吉林延吉开山屯地区柯岛群碎屑锆石年代学研究及地质意义   总被引：1，自引：0，他引：1  

付俊彧  杨晓平  杨帆  汪岩  那福超  钟辉  于宏斌  孙巍  宋维民 《地质通报》2018,37(6):1037-1049

柯岛群分布于长春-延吉构造带东部的开山屯—汪清地区,开山屯地区出露的柯岛群缺少化石依据,其时代归属依旧存疑。在柯岛群上部及下部分别采集代表性样品进行碎屑锆石U-Pb(LA-ICP-MS)测年,上部细碎屑岩锆石年龄介于252~2304Ma之间,下部粗碎屑岩锆石年龄介于260~713Ma之间,并分别形成2个相近的峰值年龄;前者2个峰值年龄分别为263±2Ma、460±4Ma;后者2个峰值年龄分别为266±3Ma、463±4Ma,反映沉积碎屑物主要来源于奥陶纪及二叠纪地质体;最年轻的锆石为252Ma,其余相对年轻的锆石年龄集中于晚二叠世早期。结合柯岛群沉积建造组合特征及区域对比,认为其形成时代应为早三叠世,是古亚洲洋闭合后,造山带快速隆升形成的山间类磨拉石沉积。  相似文献   

Sediment provenance of the Lulehe Formation in the Qaidam basin: Insight to initial Cenozoic deposition and deformation in northern Tibetan plateau     

Xing Jian  Ling Fu  Ping Wang  Ping Guan  Wei Zhang  Hanjing Fu  Haowei Mei 《Basin Research》2023,35(1):271-294

Unravelling early Cenozoic basin development in northern Tibetan Plateau remains crucial to understanding continental deformation mechanisms and to assessing models of plateau growth. We target coarse-grained red beds from the Cenozoic basal Lulehe Formation in the Qaidam basin by combining conglomerate clast compositions, paleocurrent determinations, sandstone petrography, heavy mineral analysis and detrital zircon U–Pb geochronology to characterize sediment provenance and the relationship between deformation and deposition. The red beds are dominated by matrix-supported, poorly sorted clastic rocks, implying low compositional and textural maturity and short transport distances. Although most sandstones have high (meta)sedimentary lithic fragment contents and abundant heavy minerals of metamorphic origin (e.g., garnet, epidote and chlorite), spatiotemporal differences in detrital compositions are evident. Detrital zircon grains mainly have Phanerozoic ages (210–280 Ma and 390–480 Ma), but Proterozoic ages (750–1000 Ma, 1700–2000 Ma and 2300–2500 Ma) are also prominent in some samples. Analysed strata display dissimilar (including south-, north- and west-directed) paleocurrent orientations. These results demonstrate that the Cenozoic basal deposits were derived from localized, spatially diverse sources with small drainage networks. We advocate that initial sedimentary filling in the northern Qaidam basin was fed by parent-rocks from the North Qaidam-South Qilian belts and the pre-Cenozoic basement within the Qaidam terrane interior, rather than southern distant Eastern Kunlun regions. Seismic and drilling well stratigraphic data indicate the presence of paleohighs and syn-sedimentary reverse faults and noteworthy diversity in sediment thickness of the Lulehe Formation, revealing that the Qaidam terrane exhibited as several isolated depocenters, rather than a coherent basin, in the early stage of the Cenozoic deposition. We suggest the Cenozoic Qaidam basin to have developed in a contractional deformation regime, which supports models with synchronous deformation throughout most of Tibet shortly after the India-Eurasia collision.  相似文献   

Reorganization of continent-scale sediment routing based on detrital zircon and rutile multi-proxy analysis     

Maximilian Dröllner  Milo Barham  Christopher L. Kirkland 《Basin Research》2023,35(1):363-386

The duration and extent of sediment routing systems are intrinsically linked to crustal- to mantle-scale processes. Therefore, distinct changes in the geodynamic regime may be captured in the detrital record. This study attempts to reconstruct the sediment routing system of the Canning Basin (Western Australia) during the Early Cretaceous to decipher its depositional response to Mesozoic-Cenozoic supercontinent dispersal. Specifically, we reconstruct source-to-sink relationships for the Broome Sandstone (Dampier Peninsula) and proximal modern sediments through multi-proxy analysis of detrital zircon (U–Pb, Lu–Hf and trace elements) and detrital rutile (U–Pb and trace elements). Multi-proxy comparison of detrital signatures and potential sources reveals that the majority of the detrital zircon and rutile grains are ultimately sourced from crystalline basement in central Australia (Musgrave Province and Arunta region) and that proximal sediment supply (i.e., Kimberley region) is negligible. However, a significant proportion of detritus might be derived from intermediate sedimentary sources in central Australia (e.g., Amadeus Basin) rather than directly from erosion of crystalline basement. Broome Sandstone data are consistent with a large-scale drainage system with headwaters in central Australia. Contextualization with other broadly coeval drainage systems suggests that central Australia acted as a major drainage divide during the Early Cretaceous. Importantly, reorganization after supercontinent dispersal is characterized by the continuation of a sediment pathway remnant of an earlier transcontinental routing system originating in Antarctica that provided a template for Early Cretaceous drainage. Review of older Canning Basin strata implies a prolonged denudation history of central Australian lithologies. These observations are consistent with the long-lived intracontinental tectonic activity of central Australia governing punctuated sediment generation and dispersion more broadly across Australia and emphasize the impact of deep Earth processes on sediment routing systems.  相似文献   

塔里木地块西北缘阿克苏地区新元古代冰碛岩年代与冰期事件     

李王鹏  王毅  李慧莉  张仲培  刘少峰  杨伟利  蔡习尧  聂海宽  钱涛  李晓剑 《现代地质》2022,36(1):27-47

塔里木地块新元古代冰期事件等时性对比存在争议,获得可靠的新元古代冰碛岩沉积时代意义重大.塔里木地块西北缘阿克苏地区出露2套新元古代冰碛岩沉积,通过对其进行岩石学、同位素年代学、岩石地球化学等分析,明确其沉积物岩石组合特征、限定其沉积时代、讨论其古气候风化条件等.化学蚀变指数(CIA)指示研究区的2套新元古代冰碛岩代表了...  相似文献   

祁连造山带东段早古生代葫芦河群变质碎屑岩中碎屑锆石LA-ICP-MSU-Pb年龄:源区特征和沉积时代的限定   总被引：4，自引：0，他引：4       下载免费PDF全文

裴先治  李佐臣  李瑞保  裴磊  刘成军  高景民  魏方辉  吴树宽  王银川  陈有炘 《地学前缘》2012,19(5):205-224

祁连造山带东段葫芦河群的形成时代长期存在争议。选择葫芦河群变质碎屑岩为研究对象,运用LA-ICP-MS锆石U-Pb同位素年代学方法,探讨葫芦河群的形成时代和物源特征。结果表明,葫芦河群的2个样品碎屑锆石同位素年龄数据以及侵入其中的花岗岩同位素年龄表明,葫芦河群沉积时代限定为447～434Ma,其主体形成时代为早志留世。葫芦河群变质碎屑锆石年龄谱明显分为4组:(1)震旦纪—早古生代年龄组,426～595Ma,峰值为479Ma;(2)新元古代年龄组,738～981 Ma,峰值为887 Ma;(3)中元古代年龄组,1000～1 913Ma,峰值为1499Ma;(4)古元古代—新太古代年龄组,2053～2 872Ma,峰值为2448Ma。其中,早古生代年龄组可进一步细分为426～493 Ma和527～595 Ma两个年龄段,峰值分别为445 Ma和559Ma,前者年龄段指示其物源可能以邻近地区的北祁连造山带和西秦岭北缘构造带为主,是加里东期中南祁连和西秦岭微地块分别向北俯冲、碰撞产生的一系列火成岩在造山剥蚀后的沉积响应;后者年龄段则与北祁连造山带和西秦岭北缘构造带中泛非造山事件中的岩浆活动有关。新元古代年龄组可细分为738～799Ma、839～862Ma和902～981Ma 3个年龄段,峰值分别为768Ma、848Ma和948Ma,以902～981Ma年龄组为主;第一年龄段(738～799Ma)与北祁连造山带新元古代晚期岩浆事件的年龄大致相对应,与Rodi-nia超大陆的裂解事件相关;第二年龄段和第三年龄段(839～862 Ma、902～981 Ma)与中祁连地区和西秦岭北缘的新元古代早期构造岩浆事件年龄大致相对应,与Rodinia超大陆汇聚事件及岛弧型岩浆作用相关。中元古代年龄组可细分为1 000～1 197Ma和1 243～1 913Ma 2个年龄段,峰值分别为1 036Ma和1 593Ma,其物源可能来自祁连造山带和华北板块基底岩系。古元古代—新太古代年龄组反映了物源来自北祁连造山带和西秦岭北缘构造带的结晶基底,部分物源也有可能来自于华北板块基底岩系。综合分析显示,葫芦河群碎屑沉积物质来源较为复杂,具有明显的多元性,存在祁连造山带、西秦岭北缘构造带和华北板块基底3个物源区,其中祁连造山带和西秦岭北缘构造带提供了大部分物源,而祁连造山带应为葫芦河群贡献最大的物源区。  相似文献   

Detrital-zircon record of major Middle Triassic–Early Cretaceous provenance shift,central Mexico: demise of Gondwanan continental fluvial systems and onset of back-arc volcanism and sedimentation     

《International Geology Review》2012,54(2):237-261

New stratigraphic and petrographic data and zircon U–Pb geochronology from sandstones and volcanic rocks in the states of Queretaro and Guanajuato in central Mexico indicate an important provenance change between Late Triassic and latest Jurassic–Early Cretaceous time. The Upper Triassic El Chilar Complex consists of pervasively deformed, deep-marine olistostromes, and debris-flow deposits of arkosic and subarkosic composition. Detrital-zircon populations range from latest Palaeoproterozoic (1.65 Ga) to Middle Triassic (240 Ma), all predating the depositional age of the strata. The detrital-zircon populations are similar to those previously reported from turbidites of the Potosi fan complex of north-central Mexico and interpreted as derived from Grenville and Pan-African (Maya block) basement and Permo-Triassic arc of continental Mexico directly to the east of the basin. A single sample with a dominant Proterozoic population at ～1.65–1.30 Ga was likely derived either from the Rio Negro-Juruena province of the Amazonian craton or from a local source in the Huiznopala Gneiss, and indicates that El Chilar strata were likely deposited in the proximal part of a submarine-fan system separate from the Potosi fan.

Uppermost Jurassic–Lower Cretaceous strata of the San Juan de la Rosa Formation unconformably overlie the El Chilar Complex and likewise consist of deep-marine olistostromes, slump deposits, debris-flow deposits, and proximal fan-channel fills, but are volcanogenic litharenites with abundant felsic and vitric volcanic lithic fragments. Detrital-zircon populations are dominated by Early Cretaceous grains (150–132 Ma) with no known sources in eastern Mexico. Abundant young grains indicate a maximum depositional age of ～134 Ma (Valanginian–Hauterivian). The San Juan de la Rosa Formation is overlain by deepwater carbonates with interbedded siliciclastic beds of the Peña Azul Formation, which contains detrital-zircon ages as young as ～130 Ma, indicating possible equivalence with similar strata of the Las Trancas Formation, with a maximum depositional age of ～127 Ma and lying to the east in the Zimapan Basin, now part of the Sierra Madre Oriental fold and thrust belt. Decreasing content of volcaniclastic strata eastward indicates a volcanic source to the west. Upper Cretaceous marine strata in the Mineral de Pozos area to the northwest in the state of Guanajuato contain litharenites with a maximum depositional age near 92 Ma, and are thus part of a younger depositional system.

Composition and detrital-zircon content of the Upper Triassic and Lower Cretaceous successions in central Mexico indicates an important shift from Gondwanan continental sediment sources in the Triassic to western volcanic sources, probably on the edge of the newly opened Arperos basin, by the end of the Jurassic. This important sediment-dispersal change records the break-up of Pangea and concomitant development of arc-related sedimentary basins on the western edge of Mexico.  相似文献   

Provenance and tectonic setting of neoproterozoic supracrustal rocks from the Ceará Central Domain,Borborema Province (NE Brazil): constraints from geochemistry and detrital zircon ages     

《International Geology Review》2012,54(4):481-500

Major- and trace-element and U–Pb analyses of detrital zircons were performed on metavolcano sedimentary sequences and igneous rocks from the Ceará Central Domain (CCD) in the Borborema Province of northeastern Brazil. No significant geochemical differences were found between these rocks, which were possibly initially deposited as parts of a very large metavolcano-sedimentary sequence. Weathering in the source area was moderate, and the sediments were deposited as both sands and clays. The sources of the sediments were likely mixtures of felsic and intermediate rocks deposited predominantly in an active-margin setting with minor contributions of both continental arc and passive margin components. Three main source ages were identified: Palaeoproterozoic (~2.2 Ga), for which potential sources include the Palaeoproterozoic Madalena-Algodões Suite; early Neoproterozoic (~850 Ma), related to felsic volcanic magmatism due to continental rifting, initial phases of the Santa Quitéria Magmatic Arc, or magmatic arc systems on the margins of the Palaeoproterozoic crust; and late Neoproterozoic (~650 Ma), associated with extensive granite generation and migmatization events accompanying Santa Quitéria Arc activity. Deposition of the CCD volcanosedimentary rocks occurred shortly before regional, collision-type metamorphism accompanying the amalgamation of the São Francisco-Congo Cratons (~ 620–630 Ma).  相似文献   

The provenance of Western Irish Namurian Basin sedimentary strata inferred using detrital zircon U–Pb LA‐ICP‐MS geochronology     

Michael A. Pointon  Robert A. Cliff  David M. Chew 《Geological Journal》2012,47(1):77-98

The Western Irish Namurian Basin (WINB) preserves classic examples of basin floor sequences through to slope deposits and deltaic cyclothems. Despite over 50 years of research into the WINB, its sediment provenance remains highly contested. Sedimentological arguments, including palaeocurrent vectors and palaeoslope indicators have been invoked to propose a sediment source from the NW or the west (i.e. from within Laurentia). These same indicators have been subsequently reinterpreted to reflect a southern provenance. It is not clear from sedimentological arguments alone which interpretation more accurately reflects the infilling of the WINB. Regional‐scale constraints on WINB provenance may be obtained with detrital zircon U–Pb geochronology. U–Pb LA‐ICP‐MS detrital zircon analysis was undertaken on samples from three sandstone units at different stratigraphic levels within the WINB siliciclastic sedimentary fill (Ross Formation, Tullig Sandstone, Doonlicky Sandstone). The samples are dominated by 500–700 Ma zircons, which can be correlated with Cadomian–Avalonian orogenic activity within terranes to the south of the WINB (Avalonia/Ganderia, Armorica and Iberia). In contrast, Eastern Laurentia, to the north of the WINB, was devoid of orogenic activity at this time. WINB samples also yield age populations younger than 500 Ma, and older than 700 Ma. These are not diagnostic of a particular source terrane and thus could be derived from terranes north and/or south of the WINB. WINB detrital zircon age spectra can be reconciled by an Avalonian or combined Avalonian–Laurentian provenance for WINB sedimentary strata. Further research is required in order to distinguish between these two possibilities. Copyright © 2011 John Wiley & Sons, Ltd.  相似文献   

Detrital zircon provenance of the Wangshi and Laiyang groups of the Jiaolai basin: evidence for Early Cretaceous uplift of the Sulu orogen,Eastern China     

《International Geology Review》2012,54(6):719-736

ABSTRACT

The Late Mesozoic Jiaolai basin preserves sediment source information that can help elucidate the tectonic history of East Shandong, China. The terrestrial Wangshi and Laiyang Groups are major components of the basin succession, but are not well studied in terms of their provenance and role in basin evolution. The Early Cretaceous Laiyang Group consists primarily of fluvial and lacustrine facies siltstones and sandstones, whereas the Late Cretaceous Wangshi Group consists of reddish fluvial siltstones and sandstones with interbedded conglomerates. This study reports detrital zircon age distributions from eight sandstones collected from the two groups. Age distributions exhibited four major populations of Palaeoproterozoic (2.5–2.4 Ga), Palaeoproterozoic (1.9–1.8 Ga), Neoproterozoic (850–700 Ma), and Jurassic to Early Cretaceous (171–107 Ma) ages. We interpret a maximum depositional age of 107 Ma for the Wangshi Group and a depositional age of 121–120 Ma for the upper Laiyang Group. Age distributions indicate that the Sulu orogenic belt of the East Shandong complex served as the primary source area. Detrital zircon age data also indicate major changes in the types of source material contributed to the Laiyang and Wangshi groups. Based on these shifts, we propose a four-stage model for Early Cretaceous evolution of the Jiaolai basin. In this model, subduction of the Pacific plate and associated transform motion on the Tan-Lu fault influenced the transition from a transpressional to an extensional tectonic setting.  相似文献   

Detrital zircon geochronology and geochemistry of metasediments from the Vorontsovka terrane: implications for microcontinent tectonics     

《International Geology Review》2012,54(9):1108-1126

ABSTRACT

The Vorontsovka terrane (VT) is an important component of the East Sarmatian Orogen (ESO) which divides the Precambrian cores of the Sarmatian and Volgo-Uralia segments of the East European Craton (EEC). The tectonic framework of the VT remains controversial due to poor constraints from geochemical and geochronological studies. In this article we present detrital zircon U–Pb ages and geochemical features of the Precambrian meta-sedimentary rocks from the VT, which occur interlayered with calc-silicate rocks and metabasites. Most of the zircons from metasediments possess oscillatory zoning and high Th/U ratios (>0.2), indicating magmatic provenance. Their ²⁰⁷Pb/²⁰⁶Pb ages cluster around 2093 ± 7, 2126 ± 7, 2158 ± 12, 2189 ± 16, and 2210 ± 31 Ma, correlating with the ages of magmatic zircon cores from the surrounding igneous suites, and reflecting a single tectono-magmatic cycle (~2200–2100 Ma) in the source area. Age of the youngest detrital zircon grain from the metasedimentary rocks and the cores of zircon grains from igneous suites show ²⁰⁷Pb/²⁰⁶Pb ages at 2094 and 2106 Ma, respectively. Together with the largest age clusters of 2126 ± 7 and 2158 ± 12 Ma of the magmatic cores of the detrital zircons, the timing of sedimentation is inferred as ~ 2100–2170 Ma.

The metapelites display strong rare earth element fractionation with variable Eu anomalies ((La/Yb)_N = 7.0–14.5, Eu/Eu* = 0.49–1.23). In contrast, the calc-silicate rocks and metabasites lack Eu anomalies ((La/Yb)_N = 5.2–11.5, Eu/Eu* = 0.87–1.00). The large-ion lithophile (LILE) and high field strength element (HFSE) concentrations of most samples are comparable with those of the upper continental crust (UCC). The rocks possess negative anomalies of Th, Nb, Sr, and Zr relative to UCC. Their high Index of Compositional Variability (0.85–1.32, up to 1.8 in metabasites) and relatively low Chemical Index of Alteration (46.1–70.4) indicate that the metapelitic sediments were immature to weakly immature and probably underwent minor chemical weathering. The protoliths of the metabasites are interpreted as interlayered volcano-sedimentary and pyroclastic material. Relict clastic textures of the VT rocks, their geochemical features, and the grain morphology of detrital zircons suggest that the sediments were derived from intermediate and felsic provenances, which were most likely deposited in an environment with active volcanism. We envisage an active continental margin setting in the southwestern part of the Volgo-Uralia segment of the EEC related to the assembly of the Palaeoproterozoic Columbia supercontinent. Combined with recent data from surrounding terranes of the ESO, our results suggest that the VT represents an accretionary prism along a continental arc within the Sarmatia and Volgo-Uralia oceanic realm in the Palaeoproterozoic.  相似文献