新疆西天山尼勒克二叠纪火山岩的地球化学特征及构造意义

尼勒克二叠纪火山岩位于伊犁盆地北缘阿吾拉勒山西段,该地区发育一套完整的陆相二叠纪地层。本文对该区二叠纪中下统哈米斯特组和乌郎组火山岩进行了系统的岩相学、岩石地球化学和Sr-Nd同位素研究。尼勒克火山岩岩石类型多样,有玄武岩、安山岩、粗面岩、流纹岩等,地球化学特征复杂。上火山岩哈米斯特组火山岩具有典型的钾玄岩特征,高K₂O(2.81%~3.91%)、Sr(>1000×10^-6)、稀土(ΣREE>200×10^-6)和(La/Yb)_N比值(9.7~11.7),低Nb/La比值(大多<0.2)。下火山岩乌郞组可分为二组,一组具最低SiO₂,最高MgO,较低Sr(<500×10^-6)、稀土(50×10^-6<ΣREE<80×10^-6)和(La/Yb)_N比值(1.6~2.2),相对较高的Nb/La比值(>0.35),类似富集型洋中脊(E-MORB)特征,暗示其岩浆是浅部源区高程度部分熔融的产物;另一组火山岩有着相对较大的变化,总体特征介于哈米斯特组与第一组火山岩两者之间。尼勒克火山岩有高度亏损的Sr-Nd同位素组成,类似MORB,表明它们源自长期亏损的地幔源区。然而,火山岩高度亏损的Nb-Ta、分异且富集大离子亲石元素的特征暗示,地幔源区受到近期俯冲带流体的交代作用,并受部分熔融程度及结晶分异作用的控制,是不同批次岩浆作用在不同演化阶段的产物。尼勒克大规模玄武质火山岩的形成可能和塔里木二叠纪地幔柱活动有关。     

Late Mesozoic magmatism in the East Qinling Orogen,China and its tectonic implications

The Qinling Orogen in Central China records the history of a complex geological evolution and tectonic transition from compression to extension during the Late Mesozoic,with concomitant voluminous granitoids formation.In this study,we present results from petrological,geochemical,zircon U-Pb-Lu-Hf isotopic studies on the Lengshui felsic dykes from Luanchuan region in the East Qinling Orogen.We also compile published geochronological,geochemical,and Hf isotopic data from Luanchuan region and present zircon Hf isotopic contour maps.The newly obtained age data yield two group of ages at～145 Ma and 140 Ma for two granite porphyries from the Lengshui felsic dykes,with the ～145 Ma interpreted as response to the peak of magmatism in the region,and the ～140 Ma as the timing of formation of the felsic dykes.The corresponding Hf isotopic data of the granite porphyries display negativeeHit)values of-16.67 to-4.61,and Hf crustal model ages(T_(DM~C_)of 2255-1490 Ma,indicating magma sourced from the melting of Paleo-to Mesoproterozoic crustal materials.The compiled age data display two major magmatic pulses at 160-130 Ma and 111-108 Ma with magmatic quiescence in between,and the zircon Hf isotopic data display/ε_(Hf)(t)values ranging from-41.9 to 2.1 and T_(DM)~c values of3387-1033 Ma,suggesting mixed crustal and mantle-derived components in the magma source,and correspond to multiple tectonic events during the Late Mesozoic.The Luanchuan granitoids are identified as 1-type granites and most of these are highly fractionated granites,involving magma mixing and mingling and crystal fractionation.The tectonic setting in the region transformed from the Late Jurassic syn-collision setting to Early Cretaceous within-plate setting,with E-W extension in the Early Cretaceous.This extension is correlated with the N-S trending post-collisional extension between the North China Craton and Yangtze Craton as well as the E-W trending back-arc extension triggered by the westward Paleo-Pacific Plate subduction,eventually leading to lithospheric thinning,asthenospheric upwelling,mafic magma underplating,and crustal melting in the East Qinling Orogen.     

Sanukite（赞岐岩）的地球化学特征、成因及其地球动力学意义

赞岐岩 (サヌカイト ,sanukite)是指发现于日本四国北部的一种富Mg的火山岩 ,主要产于日本中新世 (11～14Ma)Setouchi火山岩带 ,是一种黑色玻璃质的火山岩。其化学成分以富Si质 (安山英安质 )、具很高的Mg# 值 (>0 .6 )、高的Cr、Ni丰度和K/Na值 (0 .33～ 0 .5 2 )为特征。赞岐岩的形成与菲律宾海板块年轻的热的岩石圈俯冲和四国盆地的张开有关 ,产于岛弧的弧前或弧后盆地环境。赞岐岩不只代表火山岩 ,也包括侵入岩。Shirey和Hanson(1984 )将该术语引入太古宙 ,将太古宙具上述赞岐岩特征 (Si过饱和、Mg# 高和Ni、Cr、LILE含量高 )的深成岩和火山岩称为sanukite岩套。赞岐岩与埃达克岩具有大体类似的地球化学特征 ,但前者更富Mg、Cr和Ni,表明赞岐岩可以直接由地幔岩部分熔融形成 ,而埃达克岩只能由玄武岩部分熔融形成。现代的赞岐岩很少见 ,而太古宙的赞岐岩比较常见 ,暗示太古宙导致板片熔融的消减的岩石圈本身或上地幔可能具有更高的温度。赞岐岩集中出现在晚太古代 (<3.0Ga) ,表明板块消减作用可能在 3.0Ga之后才成为一个重要的过程 ,晚太古代赞岐岩的出现可能标志着现代类型板块构造的开始     

东昆仑五龙沟矿集区中三叠世辉绿岩脉的岩石成因:年代学、地球化学特征及其构造意义

本文对五龙沟矿集区4条辉绿岩脉中的锆石进行LA-ICP-MS U-Pb定年研究,发现其中大部分锆石为捕获锆石,而拥有最新年龄的锆石可代表岩浆结晶时的锆石,其加权平均年龄为（242.8±2.1）Ma,属于中三叠世。这些辉绿岩脉的w（SiO₂）为42.82%~52.94%,w（Na₂O）为1.98%~4.51%,w（K₂O）为0.70%~2.04%,属于钙碱性和高钙碱性系列;4条岩脉中V、Cr、Ni等质量分数与MgO质量分数均呈正相关,且质量分数较小,表明其岩浆演化过程中经历了以橄榄石、辉石为主的分离结晶作用;其微量元素具有相对富集大离子亲石元素（Rb、Ba、Eu）和轻稀土元素,亏损高场强元素的特征,Nb/La为0.39~0.50,Nb/Ta为12.16~16.69,Zr/Hf为45.82~47.06,明显和亏损软流圈地幔来源的岩浆不同。综合分析认为,五龙沟矿集区的中三叠世辉绿岩脉大地构造背景为俯冲环境,是受俯冲板片流体改造的岩石圈地幔部分熔融的产物,并经受了一定的地壳混染。     

Proterozoic evolution and tectonic setting of the northwest Paterson Orogen,Western Australia

The Proterozoic igneous, deformation and metamorphic histories of the Palaeoproterozoic Rudall Complex in the northwestern Paterson Orogen can be linked to those of the Arunta Inlier in central Australia, and in part with the Capricorn Orogen in central Western Australia. The similarities in deformation and metamorphic histories for these widely separated regions indicate a Palaeoproterozoic continent–continent collisional event between the Palaeoproterozoic West Australian and North Australian cratons between c. 1830 and 1765 Ma. In the Paterson Orogen this Palaeoproterozoic collisional event resulted in the Yapungku Orogeny, which included thrust stacking of clastic sedimentary and volcanic rocks, deposition of the protoliths for the c. 1790 Ma siliciclastic paragneiss succession contemporaneous with granitic intrusion, and metamorphism up to granulite facies. During this 65-million-year period, the Arunta Inlier and Capricorn Orogen were deformed, metamorphosed at medium to high grades and intruded by granitoids during the Strangways Orogeny in the Arunta Inlier and the Capricorn Orogeny in the Capricorn Orogen.The Neoproterozoic Tarcunyah, Throssell and Lamil groups are clastic sedimentary sequences that were deposited after 1070 Ma in the northwestern Paterson Orogen, and deformed by the Miles Orogeny before 678 Ma. The Miles Orogeny produced a northwesterly trending fold and fault system of tight to isoclinal upright and overturned folds and thrust faults. The orogeny may have been coincident with the c. 750–720 Ma Areyonga tectonic movement affecting the Arunta Inlier and the lower Neoproterozoic part of the Amadeus Basin in central Australia. At c. 550 Ma the Paterson Orogeny, which is most likely equivalent to the Petermann Orogeny in the Musgrave Complex of central Australia, deformed the northwestern Paterson Orogen and was preceded by local intrusion of granites.The similarities of styles and timing of deformation in the northwestern Paterson Orogen, Arunta Inlier and Capricorn Orogen indicate that these three regions were probably linked during most of the Proterozoic.     

Ordovician metagranitoid from the Anatolide‐Tauride Block,northwest Turkey: geodynamic implications

We report a Middle Ordovician metagranitoid from the northern margin of the Anatolide‐Tauride Block, the basement of which is generally characterized by voluminous Latest Proterozoic to Early Cambrian granitoids. The Ordovician metagranitoid forms an ～400‐m‐thick body in the marbles and micaschists of the Tav?anl? Zone. The whole sequence was metamorphosed in the blueschist facies during the Late Cretaceous (c. 80 Ma). Zircons from the metagranitoid give a Middle Ordovician Pb‐Pb evaporation age of 467.0 ± 4.5 Ma interpreted as the age of crystallization of the parent granitic magma. The micaschists underlying the metagranitoid yield Cambro‐Ordovician (530–450 Ma) and Carboniferous (c. 310 Ma) detrital zircon ages indicating that the granitoid is a pre‐ or syn‐metamorphic tectonic slice. The Ordovician metagranitoid represents a remnant of the crystalline basement of the Anatolide‐Tauride Block and provides evidence for Ordovician magmatism at the northern margin of Gondwana. Prismatic Carboniferous detrital zircons in the micaschists indicate that during the Triassic, the northern margin of the Anatolide‐Tauride Block was close to Variscan terranes.     

Ages,Sources and Tectonic Settings of the Triassic Igneous Rocks in the Easternmost Segment of the East Kunlun Orogen,Central China

U–Pb analysis of zircons from igneous rocks in the Elashan Mountain, easternmost segment of the East Kunlun Orogen yielded 252–232 Ma. Geochemically, these rocks are mainly high in SiO_2, K_2O and K_2O+Na_2O contents, low in P_2O_5 and TiO_2 contents, depleted in Ba, Sr, P, Ti and enriched in U, Hf, Zr, showing features of I–type granite. The zircon εHf(t) values of the Early Triassic Jiamuge'er rhyolite porphyry(252±3 Ma) are positive(+1.6 to +12.1), suggesting a juvenile crustal source mixing with little old crustal component, and the zircon εHf(t) values of the Middle Triassic Manzhang'gang granodiorite(244±3 Ma) and Dehailong diorite(237±3 Ma) are predominately negative(-8.4 to +1.0), indicating an older crustal source. In comparison, the zircon εHf(t) values of the Late Triassic syenogranites from Suigen'ergang(234±2Ma), Ge'ermugang(233±2 Ma) and Yue'ergen(232±3 Ma) plutons vary from-3.8 to +5.0, suggesting a crust-mantle mixing source. From Early–Middle Triassic(252–237 Ma) to Late Triassic(234–232 Ma), the geochemical characteristics of these rocks show the change from a subduction–collision setting to a post-collision or within-plate setting. By comparing of these new age data with 77 zircon U–Pb ages of igneous rocks of the eastern part of East Kunlun orogen from published literatures, we conclude that the igneous rocks of Elashan Mountain and these of the eastern part of East Kunlun Orogen belong to one magmatic belt. All these data indicate that the Triassic magmatic events of the eastern part of East Kunlun Orogen can be divided into three stages: 252–238 Ma, 238–226 Ma and 226–212 Ma. Statistically, the average εHf(t) values of the threestage igneous rocks show a tendency, from the old to young, from-0.75±0.25 to lower-2.65±0.52 and then to-1.22±0.25, respectively, which reveal the change of their sources. These characteristics can be explained as a crust-mantle mixing source generated in a subductional stage, mainly crust source in a syn–collisional stage and a crust-mantle mixing source(lower crust with mantle-derived underplating magma) in a post-collisional stage. The identification of these three magmatic events in the Elashan Mountain, including all the eastern part of East Kunlun Orogen, provides new evidence for better understanding of the tectonic evolution of the northward subduction and closure of the Paleo-Tethyan(252–238 Ma), the collision of the Songpan–Ganzi block with the southern margin of Qaidam block(238–226 Ma), and the post–collisional setting(226–212 Ma) during the Early Mesozoic period.     

The Western Mediterranean lamproitic magmatism: origin and geodynamic significance

Ultrapotassic lamproitic rocks in the Western Alps, Tuscany‐Corsica and SE Spain (c. 30 to 1 Ma) show high MgO, Ni and Cr denoting a mantle origin, but also have incompatible element and radiogenic isotope abundances that resemble upper crustal rocks, such as local metapelites and global subducting sediments. The coexistence of mantle and crustal signatures in lamproites indicates a genesis in a lithospheric mantle, which had been contaminated by crustal rocks. The occurrence of lamproitic magmatism along the Alpine collision front suggests that mantle contamination occurred during east‐verging Cretaceous‐Oligocene subduction of the European plate beneath the African margin. We suggest that crustal material originated from the overriding continental margin, which was eroded by the low‐angle subducting European slab. Mantle melting and generation of lamproites took place later, during diachronous opening of Western Mediterranean basins, contemporaneously with a new cycle of magmatism, which was genetically related to the west‐north‐dipping Apennine‐Maghrebian subduction.     

冀西北早白垩世岩浆岩的地球化学特征及其地球动力学背景

冀西北张家口地区晚中生代发生了大规模的中酸性岩浆活动,通过精确的锆石 U-Pb 年代学研究,获得东坪金矿东侧北栅子碱性花岗岩的侵位年龄为(130.5±1.5) Ma,其周围出露的张家口组粗面质火山岩的喷发年龄为(127.8±3.9) Ma,为早白垩世同期岩浆作用的产物.这些岩浆岩总体属于高钾钙碱性-钾玄质系列,富碱,低 Mg#(30~43);微量元素组成上具有大离子亲石元素(LILE)、轻稀土元素(LREE)相对富集(ΣLREE/ΣHREE =14.1~23.0,(La/Yb)N =20.8~42.2), Eu 弱负异常(δEu =0.62~0.97),高场强元素(Nb、Ta、Ti和 P)不同程度亏损的地球化学特征,显示出同源岩浆演化的趋势.火山岩和花岗岩(87Sr/86Sr)i 平均值分别为0.7075和0.7078,全岩εNd(t)和锆石εHf(t)值差别明显,火山岩εNd(t)=–15.9~–13.6,εHf(t)=–18.7~–13.5,而花岗岩εNd(t)及εHf(t)则显著低于火山岩,分别为–16.8~–15.9和–24.7~–18.4.地球化学以及同位素特征表明它们是经历过强烈改造的前寒武纪下地壳与中生代底侵形成的玄武质下地壳部分熔融的产物,花岗岩岩浆主要源于经历过强烈改造的前寒武纪下地壳部分熔融,而张家口组粗面质火山岩的源区可能含有相对较多的年轻地幔物质,两者可能存在源区混合作用.北栅子碱性长石花岗岩和大面积张家口组火山岩的喷发,反映了该地区在早白垩世构造体制从挤压-伸展的转折,这种构造体制转变可能与早白垩世燕山构造带开始垮塌以及岩石圈强烈伸展减薄有关     

西昆仑库地基性脉岩地球化学及构造意义

西昆仑北带库地一带广泛发育基性岩墙群(辉绿岩),其化学成分为拉斑质玄武岩系列.岩脉的微量元素与稀土元素具典型的板内溢流玄武岩特征,富集大离子亲石元素、轻稀土,稀土元素总量较高,弱的Eu正异常, Ta、Nb、Hf、Zr无亏损现象,反映岩脉未受到地壳物质的明显混染及经历了弱的结晶分异作用;而Sr、P明显亏损,则反映了亏损的源区性质,但不相容元素的比值表现出EMI特征,推测不相容元素富集是软流圈地幔上涌过程中低程度熔融所致.综合本文的研究及野外地质特征,表明辉绿岩是古塔里木南缘新元古代大陆裂解背景下的产物.     

扬子板块西缘新元古代典型中酸性岩浆事件及其深部动力学机制:研究进展与展望

华南板块发育有巨量新元古代岩浆岩,因而是研究罗迪尼亚（Rodinia）超大陆演化期间华南板块地幔属性、地壳演化和壳幔相互作用最理想的场所。虽然在扬子西缘新元古代镁铁质和酸性岩浆作用方面已有大量的研究,但是在系统研究中酸性花岗岩类所代表的不同深部动力学意义的方面还较为薄弱。文章基于团队近期对于扬子板块西缘新元古代典型花岗岩类的研究成果,系统揭示不同深度层次的岩浆作用。最新研究支持扬子西缘新元古代受控于俯冲构造背景,除发生俯冲流体和板片熔体交代地幔作用外,最新识别的ca.850~835 Ma高Mg#闪长岩指示俯冲沉积物熔体也参与了地幔交代作用。Ca.840~835 Ma过铝质花岗岩的发现说明扬子西缘新元古代时期不仅存在新生镁铁质下地壳的熔融,也发生了俯冲背景下成熟大陆地壳物质的重熔。Ca.780 Ma Ⅰ型花岗闪长岩-花岗岩组合揭示了俯冲阶段后期板片回撤断离后软流圈地幔瞬时上涌引发的不同地壳层次的岩浆响应。从ca.800 Ma的增厚下地壳来源的埃达克质花岗岩到ca.750 Ma的酸性地壳来源的A型花岗岩的出现,表明扬子西缘新元古代时期经历了俯冲有关的地壳增厚到俯冲后期弧后扩张背景下的区域性地壳减薄。     

Crustal recycling through intraplate magmatism: Evidence from the Trans-North China Orogen

The North China Craton (NCC) preserves the history of crustal growth and craton formation during the early Precambrian followed by extensive lithospheric thinning and craton destruction in the Mesozoic. Here we present evidence for magma mixing and mingling associated with the Mesozoic tectonic processes from the Central NCC, along the Trans-North China Orogen, a paleo suture along which the Eastern and Western Blocks were amalgamated at end of Paleoproterozoic. Our investigations focus on two granitoids – the Chiwawu and the Mapeng plutons. Typical signatures for the interaction of mafic and felsic magmas are observed in these plutons such as: (1) the presence of diorite enclaves; (2) flow structures; (3) schlierens; (4) varying degrees of hybridization; and (5) macro-, and micro-textures. Porphyritic feldspar crystals show numerous mineral inclusions as well as rapakivi and anti-rapakivi textures. We present bulk chemistry, zircon U–Pb geochronology and REE data, and Lu–Hf isotopes on the granitoids, diorite enclaves, and surrounding basement rocks to constrain the timing of intraplate magmatism and processes of interaction between felsic and mafic magmas. Our LA-ICP-MS zircon U–Pb data show that the pophyritic granodiorite was emplaced at 129.7 ± 1.0 Ma. The diorite enclaves within this granodiorite show identical ages (128.2 ± 1.5 Ma). The basement TTG (tonalite–trondhjemite–granodiorite) gneisses formed at ca. 2.5 Ga coinciding with the major period of crustal accretion in the NCC. The 1.85 Ga age from zircons in the gabbro with positive Hf isotope signature may be related to mantle magmatism during post-collisional extension following the assembly of the Western and Eastern Blocks of the NCC along the Trans-North China Orogen. Our Hf isotope data indicate that the Neoarchean–Paleoproterozoic basement rocks were derived from complex sources of both juvenile magmas and reworked ancient crust, whereas the magma source for the Mesozoic units are dominantly reworked basement rocks. Our study provides a window to intraplate magmatism triggered by mantle upwelling beneath a paleosuture in the North China Craton.     

Geochemistry of basic dikes in the Lanzo massif (Western Alps): Petrogenetic and geodynamic implications

The Alpine peridotite massif of Lanzo (Italy) contains three generations of basic dikes (gabbros and basalts). The older gabbros are plagioclase-rich mantle segregates while the younger gabbro dikes are cumulates very similar in chemical composition to recent oceanic gabbros and gabbros from ophiolitic complexes. They both were derived from the N-type mid-ocean ridge basalt (MORB) magmas which were progressively more depleted in incompatible elements and were probably generated during a dynamic melting of a rising mantle diapir. The basaltic dikes are the N-type MORB and closely resemble the Alpine-Apennine ophiolitic basalts. They were derived from a different upper mantle source than the parental magmas of the gabbros. The source of the basalts was less depleted in light REE. The presence of basic magmas with N-type MORB affinities in the Lanzo massif is consistent with the close genetic relationship between the Alpine peridotite body and the ophiolites of the Liguro-Piemontese basin.     

Geology and geochemistry of the Triassic Wenquan Mo deposit and Mo-mineralized granite in the Western Qinling Orogen,China

The recently-discovered Wenquan porphyry Mo deposit hosted in the Wenquan granite of the West Qinling Orogen has been recognized as a product of the Indosinian metallogenesis. Three generations of mineral assemblage for the deposit are identified as follows: (1) quartz–biotite–K-feldspar; (2) quartz–sulfide and (3) sulfide–calcite. Geochemical study shows that the mafic microgranular enclaves (MMEs) in the ore-bearing Wenquan granite have lower SiO₂, and higher Mg# and Nb/Ta ratios than the host granite itself. Different from the granite which have zircon ε_Hf(t) values of − 3.6–3.0 and T_DM2 of 1234–890 Ma, the MMEs are characterized by the ε_Hf(t) values of − 10.1–10.8 and T_DM1 of 865–441 Ma. This can be interpreted to indicate a mixture origin of the Meso- and Neoproterozoic crust-derived component and Neoproterozoic SCLM-derived materials for the formation of the Wenquan granite, which played an essential role in the Mo mineralization. Comparative Pb isotopic data between ores and K-feldspar suggest that the Wenquan granitic magma originated from the middle-lower crust of the South China Block and the ore-forming materials were incorporated by hydrothermal fluid differentiated from the Triassic magmatic system, with minor contribution of sedimentary rocks. The δ³⁴S values of 5.0–11.7‰ with a pronounced mode at 5.0 to 6.1‰ for the ores probably represent the sulfur incorporation of a typical magmatic hydrothermal fluid contaminated by heavy sulfur of Devonian sediments. The granite yielded the zircon U–Pb ages of 218 ± 2.4 Ma and 221 ± 1.3 Ma, as the same as the ages of 217 ± 2.0 Ma and 218 ± 2.5 Ma obtained for the MMEs. These ages are indistinguishable with the molybdenite Re–Os isochron age of 219 ± 5.2 Ma which is the timing for the Mo mineralization. Tectonically, the magmatic mixture processes of the Wenquan granite and the Mo mineralization to form the Wenquan Mo deposit contemporaneously occurred during the transition of tectonic regime from syn- to post-collision orogeny in the Qinling Orogen in the Late Triassic.     

Phanerozoic mafic magmatism in the southern Siberian craton: geodynamic implications

The Phanerozoic history of mafic magmatism in the southern Siberian craton included three major events. The earliest event (～500 Ma) recorded in dolerite dikes occurred during accretion and collision at the early stage of the Central Asian orogen. Injection of mafic melts into the upper crust was possible in zones of diffuse extension within the southern Siberian craton which acted as an indenter. The Late Paleozoic event (～275 Ma) produced dikes that intruded in a setting of subduction-related extension at the back of the active continental margin of Siberia during closure of the Mongolia–Okhotsk ocean, as well as slightly older volcanics (290 Ma) in the Transbaikalian segment of the Central Asian orogen. Early Mesozoic magmatism in the southern Siberian craton resulted in numerous 240–250 Ma mafic intrusions in the Angara–Taseeva basin. The intrusions (Siberian traps) appeared as the subducting slab of the Mongolia–Okhotsk ocean interacted with a lower mantle plume. The post-Late Paleozoic ages of flood basalts (290–275 Ma) correspond to progressive northwestward (in present coordinates) motion of the slab beneath the southern craton margin which likely ceased after the slab had reached the zone of the Siberian superplume. Since its consolidation after the Early Mesozoic activity, the crust in the area has no longer experienced extension favorable for intrusion of basaltic magma.     

东昆仑五龙沟地区早泥盆世双峰式侵入岩年代学、地球化学及其地质意义

东昆仑造山带东段发现一套早泥盆世双峰式侵入岩岩体组合.本文对该套双峰式侵入岩开展了岩石学、锆石U-Pb年代学、岩石地球化学、Sr-Nd及Hf同位素研究,结果显示:(1)该套双峰式侵入岩主要由橄榄辉长岩、辉长岩和碱长花岗岩组成,其定年结果分别为410.3±2.7Ma、409.3±2.7Ma和410.5±1.8Ma,表明其...     

Petrography and Geochemistry of the Upper Triassic Sandstones from the Western Ordos Basin,NW China: Provenance and Tectonic Implications

Petrographic and geochemical characteristics of the Upper Triassic sandstones in the western Ordos Basin were studied to provide insight into weathering characteristics, provenance, and tectonic implications. Petrographic features show that the sandstones are characterized by low-medium compositional maturity and textural maturity. The CIA and CIW values reveal weak and moderate weathering history in the source area. The geochemical characteristics together with palaeocurrent data show that the northwestern sediments were mainly derived from the Alxa Block with a typical recycled nature, while the provenance of the western and southwestern sediments were mainly from the Qinling-Qilian Orogenic Belt. The tectonic setting discrimination diagrams signify that the parent rocks of sandstones in the western and southern Ordos Basin were mainly developed from continental island arc, which is closely related to the evolution of the Qinling-Qilian Orogenic Belt. However, the sandstones in the northwestern Ordos Basin show complex features, which may be resulted from a typical recycling process. Overall evidence from petrography, geochemistry and sedimentology, together with previous researches suggest the Kongtongshan and Helanshan areas were the southwestern and northwestern boundary of the Ordos Basin, respectively, and there was no clear boundary between the Hexi Corridor Belt and Ordos Basin, where a large, uniform sediment dispersal system developed during the Late Triassic.     

秦岭印支期构造背景、岩浆活动及成矿作用

秦岭造山带以其独特的大地构造位置、复杂的地质演化和丰富的矿产资源而成为地质科学研究的焦点,科学家已经基本清楚了其大地构造格局和地质演化轮廓,共识其在印支期(三叠纪:251～199.6Ma)彻底实现了由海盆向大陆造山带的转变。但是,盆山转变的过程细节、洋盆闭合的时间、三叠纪大地构造属性以及相关的岩浆作用和成矿作用研究薄弱,认识分歧较多。笔者通过综合分析地质、地球物理、地球化学、矿产资源等方面的研究成果,认为三叠纪的秦岭恰似现今地中海,并存着洋陆俯冲和陆陆碰撞,并逐渐由洋陆俯冲转变为陆陆碰撞体制;秦岭古特提斯洋于230～200Ma期间自东向西拉链式缝合,扬子陆块与华北-秦岭联合大陆之间的碰撞造山作用接踵而至;三叠纪的秦岭构造背景并非单一的陆陆碰撞,更非过去认为的造山后或碰撞后。秦岭印支期岩浆作用强烈,形成了埃达克岩、钙碱性花岗岩、高钾钙碱性花岗岩、碱性岩、疑似奥长环斑花岗岩、碳酸岩等多种岩浆岩;它们自勉略缝合带向北显示分带性,依次是:阳山—胭脂坝过铝质S型或改造型花岗岩带、南秦岭高镁埃达克质的钙碱性花岗岩带、北秦岭高钾钙碱性花岗岩带、华北克拉通南缘碱性岩-碳酸岩带;印支期岩浆作用的复杂性、多样性、空间分带性和成分极性等特点无法用陆陆碰撞或碰撞后构造体制来解释,而应是勉略洋板块向北俯冲的结果。秦岭印支期成矿作用长期被忽视,但最近已发现有重要经济价值的印支期矿床类型有碳酸岩脉型、造山型和斑岩型钼矿床,卡林型-类卡林型、造山型和斑岩-爆破角砾岩型金矿床,造山型银多金属矿床,表明在洋陆俯冲向陆陆碰撞转变体制的成矿作用强烈、成矿类型多样,印支期矿床的找矿潜力较大。     

东昆仑造山带海德乌拉铝质A型流纹岩成因及其意义

东昆仑造山带古生代后碰撞岩浆岩的成因及后碰撞伸展环境的形成机制一直备受争议。本文选择东昆仑造山带古生代海德乌拉流纹岩开展锆石U-Pb-Hf同位素地质学及全岩地球化学研究,分析其成因并探讨后碰撞伸展环境的起始时间和形成机制。锆石LA-ICP-MS U-Pb同位素定年结果显示,海德乌拉流纹岩形成于426Ma,属于志留纪罗德洛世岩浆活动产物。样品显示高钾钙碱性-钾玄岩系列岩石特征;其A/CNK值为1.04-1.18,属于过铝质-强过铝质岩石。在原始地幔标准化微量元素图解上,样品显示Th、U和Pb等元素相对富集,Nb、Ta、Ti、Ba和Sr等元素相对亏损的特征;在球粒陨石标准化稀土元素图解上,海德乌拉样品显示轻稀土相对富集且具有明显Eu负异常(δEu=0.03-0.06)。海德乌拉流纹岩显示出高FeO^T/MgO和10⁴×Ga/Al比值以及高场强元素总量(Zr+Nb+Ce+Y),属于A型岩浆岩范畴。样品的锆石ε_Hf(t)为+0.60～+2.39,对应的二阶段模式年龄介于1285～1370Ma之间。元素和同位素地球化学特征显示海德乌...