松潘-甘孜南部放马坪-三岩龙花岗岩的成因及其构造意义

松潘-甘孜造山带内广泛出露印支期花岗岩类,目前对该区印支期花岗岩的研究主要集中于东部、中部地区,南部地区的研究相对较少.放马坪-三岩龙花岗质杂岩体位于松潘-甘孜造山带南部的九龙地区,根据主微量元素特征的不同可被划分为两大类:第一类具有C型埃达克岩的特征,Sr＞541×10,Y＜12.4×10～,Sr/Y＞55,轻重稀土...     

Geochronological and geochemical constraints on the petrogenesis of high-K granite from the Suffi abad area, Sanandaj-Sirjan Zone, NW Iran

The Sanandaj-Sirjan Zone (SSZ) trends northwestward in western Iran on the Precambrian to Paleozoic basement and exposes abundant I-type granitoids and calc-alkaline volcanic rocks that were most active during the Late Jurassic to Upper Cretaceous. The petrogenesis of the granitoids and associated volcanic rocks has been widely related to Neotethyan subduction beneath the Iranian plate. We report a geochronological and geochemical study of the Suffi abad granite (SLG) body that crops outs southeast of Sanandaj within the SSZ and is mainly composed of K-feldspar + quartz + plagioclase ± hornblende. The SLG, which shows a high-K calc-alkaline affinity, has LA-ICPMS zircon U–Pb ages ranging between 149 ± 2 and 144 ± 3 Ma and initial ⁸⁷Sr/⁸⁶Sr of ∼0.7024–0.7069 and ¹⁴³Nd/¹⁴⁴Nd of ∼0.5125–0.5127. These value correspond to an ?_Nd (145 Ma) of +1.5 and +4.9, suggesting that the SLG originated from the juvenile crust or depleted mantle with a young T_DM (650–900 Ma) over the subduction zone beneath the SSZ. Zircon saturation temperatures suggest that crystallization of the zircons, or emplacement of the host magmas, occurred at 560–750 °C, consistent with an intergrowth texture of K-feldspar and quartz that implies crystallization around the K-feldspar-quartz eutectic at lower temperatures. Overall, geochemical data suggest that crystallization of the hornblende and plagioclase played a role in magma differentiation. These data allow us to conclude that the high-K SLG did not originate directly from the juvenile mantle source as do most I-type, calc-alkaline granitoids, but more likely was produced from the partial melting of pre-existing I-type granitoids in the upper continental crust under low pressure conditions.     

华北板块北缘中段早中二叠世的构造属性：来自花岗岩类锆石U-Pb年代学及地球化学的制约

内蒙古温都尔庙南-铁沙盖黑云角闪石英闪长岩和角闪黑云花岗闪长岩位于华北板块北缘中段晚古生代构造岩浆活动带中;锆石LA-ICP-MS U-Pb定年结果显示,其形成时代分别为271.8±2.4Ma,271.4±1.3Ma、268.7±1.3Ma。主量元素SiO₂含量61.42%~71.73%,K₂O含量3.10%~5.11%,K₂O/Na₂O值介于0.93~1.96之间,Mg^#值介于42.54~49.93之间,A/CNK为0.90~1.03;副矿物为锆石、磷灰石和磁铁矿,属亚碱性高钾钙碱性系列、I型花岗岩类;富集轻稀土(LREEs)、大离子亲石元素(LILEs,Cs、Rb、K、Ba、Th和U),亏损重稀土元素(HREEs)及高场强元素(HFSEs,Nb、Ta和Ti),弱Eu负异常(δEu=0.55~0.95),形成于活动大陆边缘弧环境,是上地壳部分熔融的产物。黑云角闪石英闪长岩和角闪黑云花岗闪长岩中发育大量暗色微粒包体(黑云闪长岩),包体可能是岩石圈地幔部分熔融的产物,相对于寄主岩石贫Si、K富Fe、Mg、Ca、Ti、大离子亲石元素(LILEs,Rb、Cs、Sr和U)和高场强元素(HFSEs,Nb、Ta、Zr、Hf)。本文花岗岩类的侵位反映了早中二叠世古亚洲洋俯冲于华北板块北缘之下及岩浆混合作用的岩浆事件。     

Petrogenesis and Tectonic Significance of Shenxianshui Alkaline Granite in Gejiu, Yunnan Province, China

The Shenxianshui granites in the western Gejiu area were formed in the Late Cretaceous. Laser ablation inductively coupled plasma mass spectrometry indicates zircon U-Pb ages ranging from 90.67 ± 0.7 to 85.97 ± 0.6 Ma. The intrusive rocks are peraluminous (A/CNK = 1.03 to 1.33) and calc-alkaline, showing an affinity towards I-type granite. Large ion lithophilic elements are enriched in K and Rb, while high field strength elements are depleted. Moreover, light rare earth elements are significantly enriched, showing a slight negative Eu anomaly (Eu/Eu* = 0.39 to 0.58). Shenxianshui granite has a relatively high initial Sr isotope ratio (87Sr/86Sr)i (0.7098–0.7105), negative εNd(t) values (?7.99 to ?7.44) and negative εHf(t) values (?8.37 to ?2.58). Combined with previous studies, these characteristics suggest that the Shenxianshui alkaline granites were formed in a post-collision extensional environment. The alkaline granitic magma possibly originated from the partial melting of the lower crust during the Mesoproterozoic era and may have contained mantle source materials. Shenxianshui alkaline granite was formed from mixed magma with a high degree of crystal differentiation. The abundance of ore-forming elements indicates that Shenxianshui granite has the potential to mineralize key metals and rare earth elements.     

冈底斯带南部桑日高分异I型花岗岩的岩石成因及其动力学意义

冈底斯岩浆岩带位于西藏南部的拉萨地体南缘,它形成于特提斯洋和印度-亚洲大陆长期俯冲碰撞过程中,是青藏高原花岗岩最发育的地区。前人对冈底斯岩浆带中各类型花岗岩的成因、源区、时空分布以及其地球动力学意义进行了详细大量的研究,但是对高分异花岗岩的具体成因、演化过程以及在70~65Ma拉萨地块的地球动力学演化过程研究较少。本文选择冈底斯南缘白垩纪末桑日花岗岩进行研究,揭示了桑日花岗岩的岩石学特征、锆石U-Pb年龄、锆石Hf同位素特征和地球化学特征。本文样品LA-ICP-MS测得的锆石U-Pb年龄为67~66Ma。桑日花岗岩属于高钾钙碱性系列,具有高Si O2(74.26%~76.93%)、高K2O+Na2O(7.87%~8.56%),低P2O5(0.02%~0.04%)和Ca O(0.28%~1.00%),以及富集K、Rb、Th,亏损Nb、P、Ti的高分异I型花岗岩的特征。在锆石Hf同位素上,桑日花岗岩εHf(t)0(+4.6~+10.9),且具有Hf不均一的特征。结合前人研究,本文认为桑日花岗岩是高分异I型花岗岩,在特提斯洋板块北向俯冲过程中,板片回转,俯冲洋壳脱水产生的流体进入地幔楔,引发地幔楔发生部分熔融产生镁铁质幔源物质并底侵上涌,导致浅部地壳发生部分熔融,并与幔源岩浆混合,从而在浅部形成混源岩浆房,最终在侵位与成岩后期经历高程度的分异演化形成的。     

北祁连造山带窑洞沟地区中奥陶世花岗岩成因——锆石U-Pb年代学和岩石地球化学制约

对北祁连造山带窑洞沟地区花岗岩进行了LA-ICP-MS锆石U-Pb测年以及主量和微量元素地球化学分析,结果表明,窑洞沟花岗岩的结晶年龄为466±2 Ma。窑洞沟花岗岩具有较高的SiO_2(72.45%～80.18%)和全碱含量(Alk)(6.04%～8.12%),且K_2O含量低,K_2O/Na_2O值为0.07～0.71,里特曼指数在0.96～2.16之间,小于3.3,铝饱和指数(A/CNK)为0.94～1.01,为低钾到中钾钙碱性系列的准铝质岩石;在球粒陨石标准化的稀土元素配分模式图上表现出轻稀土元素富集的右倾型,具有中等的负Eu异常,δEu介于0.67～0.81之间,在原始地幔标准化的微量元素蛛网图上明显富集Rb、K等大离子亲石元素和Th、U等放射性元素,亏损Nb、Ta、Ti、P等高场强元素,在P_2O_5-SiO_2协变关系图上与Ⅰ型花岗岩趋势一致,在Y-Rb图上显示出分异Ⅰ型花岗岩的特征。结合区域地质背景,认为窑洞沟花岗岩的形成可能与北祁连洋盆持续向北俯冲导致弧后拉张伸展,诱发幔源岩浆岩底侵上升,致使古老地壳物质重熔形成母岩浆,再经历中等程度分离结晶作用有关,其岩浆具有岛弧岩浆属性,可能是由于弧后盆地在岛弧的基础上裂开或者其岩浆源区受到了俯冲板片流体/熔体的改造作用。     

Geochemistry and Hf Isotopes Characteristics and Geological Significance of Latest Early Permian Granodiorite of Langshan Area,Inner Mongolia

The Langshan area is located in the west of Inner Mongolia, southwest of the Solonker ophiolite belt, which is the ideal workplace to study tectonic-magmatic evolution and geodynamics background in Late Paleozoic because of the intense magmatism. LA-ICP-MS Zircon U-Pb ages yielded the formation time of granodiorite of Sharichulu and Moruogu granitic pluton (278.07±0.66) Ma and (278.05±0.69) Ma, respectively, forming in the latest early Permian. Geochemical characteristics showed that the Zhalashan granites were high-K calc-alkaline (SiO₂：63.76%～67.88%;K₂O：2.74%～4.02%) and weak peraluminous rocks (A/CNK：0.94～1.07) with moderate Mg# values (38.98～47.53). In addition,it exhibited LILE and LREEs enriched, HFSE and HREEs depleted with slight Eu anomaly, and all of the above-mentioned indicated the characteristics of I-type granites and arc-related. Zircon Hf isotope showed that the scatter εHf（t）values varied from -0.6～-7.5, which suggests a mixed magma source of old continental crust with a small involvement of mantle components. Together with regional geological background,the authors hold that the Latest early Permian granodiorite of Langshan area formed in an active continental margin setting under the background of southward subduction of the Paleo-Asian Ocean which were not close at that time.     

Geochemical and Sr–Nd isotopic constraints on the genesis of the Soheyle-PaKuh granitoid rocks (central Urumieh-Dokhtar magmatic belt,Iran)

ABSTRACT

Soheyle-Pakuh granitoid rocks, with a variety of quartz diorite, quartz monzodiorite, granodiorite, tonalite, and granite, have been emplaced into the Tertiary volcanic rocks in the Urumieh-Dokhtar magmatic arc in central Iran. Zircon U–Pb dating yields an age of 39.63 ± 0.93 Ma for the crystallization of this body. Whole-rock compositions show that SiO₂ changes from 52.31 to 65.78 wt.% and Al₂O₃ varies from 15.54 to 18.24 wt.%, as well as high concentrations of large-ion lithophile elements (LILE, e.g. Cs, Rb, Ba, and K) and quite low contents of high field strength elements (HFSE, e.g. Nb, Ti, P), as expected in I-type arc granitoids formed in an active continental margin setting. Initial ratios of ⁸⁷Sr/⁸⁶Sr and ¹⁴³Nd/¹⁴⁴Nd exhibit ranges 0.7043–0.7047 and 0.51284 to 0.51287, respectively, with positive εNd_(t) from +4.9 to +5.5 with a young TDM1 age (483–674 Ma); this tracer isotopic data suggesting that the SPG originated from juvenile basaltic crust derived from depleted mantle (~90%) with variable contributions from undepleted mantle and approximately 10% old lower crust, despite diverse processes (e.g. magma mixing and fractional crystallization) during their evolution and emplacement into a local extensional setting within the continental margin arc. The isotopic data are similar to those of other Phanerozoic granitoids of the Central Asian Orogenic Belt and corroborate melting of predominantly mantle-derived juvenile crustal protoliths and indicating extensive addition of new continental crust, during Cambrian-Neoproterozoic time, in the suprasubduction zone beneath the central Urumieh-Dokhtar magmatic arc. Generation of these types of granitoids favours a model whereby rollback and (or) break-off of a subducted slab with subsequent lithospheric extension triggered by mantle upwelling, heat advection, and underplating resulting in melting of the central UDMA mantle-derived juvenile lower continental crust in the Late Eocene.     

广东河源白石冈岩体:一个高分异的I型花岗岩

广东河源白石冈岩体位于近东西向展布的佛冈花岗岩带的东端,主体岩性为中粗粒黑云母花岗岩,主要组成矿物为石英(25%～35%)、微纹长石(45%～50%)、斜长石(An=20～30,15%～20%)和黑云母(5%～10%)。锆石U-Pb定年结果表明其形成年龄为148.5±1.6Ma,属晚侏罗世岩浆活动的产物。化学成分上,该岩体铝弱过饱和,A/NKC值主要变化于1.0～1.1之间;富硅,富钾(K2O/Na2O=1.31～1.70),全碱含量中等偏低(K2O Na2O=7.44%～8.48%),碱铝指数(AKI值)为0.75～0.88,可归为高钾钙碱性岩系。微量和稀土元素组成上,岩体富Rb、Th、U、Pb和轻稀土,贫Ba、Sr、P、Ti,Rb/Sr比值高,K/Rb比值低,铕负异常显著(δEu=0.05～0.28),Nb、Ta、Zr、Hf等高场强元素含量及104×Ga/Al比值(2.43～3.26)较之典型A型花岗岩均偏低。岩体的εNd(t)值为-5.99～-7.51,TDM值偏低(1.42～1.54Ga),综合地球化学资料指示其应属高分异的I型花岗岩。结合对区域动力地质背景的全面分析,表明白石冈岩体形成于后造山的伸展引张环境,是由底侵的幔源基性岩浆及其诱发的长英质岩浆在深部岩浆房混合,并经高程度分离结晶的产物。     

广东省I型和S型花岗岩的弹性特征及其大地构造意义

本文对采自广东台山地区和云开大山地区早古生代两类花岗岩的定向标本在常温常压、加温（最高达１０５℃）或加压（最高达５．０６×１０７Ｐａ）下对花岗岩的波速（Ｖｐ、Ｖｓｈ和Ｖｓｖ）进行了精确的测量，获得广东两类花岗岩常温常压下三种波速的平均值、Ｖｐ／Ｖｓｈ比值和油松比以及在不同温压条件下的波速变化曲线；用数理统计方法获得两类花岗岩的各向异性参数。结合岩石学、地球化学及岩石磁性的研究，分拆了广东省两类花岗岩在微观结构和成岩条件等方面的差别，并进一步揭示了两者形成时不同的大地构造背景。这一研究对花岗岩成因、岩石圈内部的结构构造研究具有十分重要的意义。