大兴安岭中生代火山岩地层时空分布与蒙古—鄂霍茨克洋、古太平洋板块俯冲作用响应

为了提高大兴安岭中生代火山岩地层的区域可对比性、深入研究大兴安岭中生代火山岩与古太平洋和蒙古—鄂霍茨克洋的构造关系,本文在大兴安岭地区1: 1 000 000地质图编图的基础上,依据岩石组合、古生物、接触关系、区域对比以及最新的年代学(锆石U-Pb、⁴⁰Ar/³⁹Ar测年)资料,对大兴安岭中生代火山岩地层重新进行了厘定。进一步界定了塔木兰沟组(172~161 Ma)、满克头鄂博组(162~148 Ma)、玛尼吐组(158~145 Ma)、白音高老组(145~129 Ma)、梅勒图组(143~128 Ma)、龙江组(128~120 Ma)、光华组(128~118 Ma)、甘河组(120~113 Ma)和孤山镇组(118~110 Ma)的形成时代。结合古太平洋、蒙古—鄂霍茨克洋板块对东亚大陆边缘的俯冲作用,解析了中生代火山岩形成的构造背景,认为中—晚侏罗世NE向展布的火山岩主要形成于蒙古—鄂霍茨克洋板块向南东俯冲的伸展背景,早白垩世NNE向展布的火山岩主要形成于伊泽奈岐板块向东亚大陆俯冲的伸展背景。晚侏罗世与早白垩世火山岩地层之间发育的开库康组、木瑞组等类磨拉石建造,是两个构造体系转换阶段的主要沉积记录。     

我国北方新生代玄武岩地下水化学特征及其成因——以河北省张北县为例

为了进一步了解我国北方新生代玄武岩地下水的赋存规律和形成演化机理,以河北省张北县玄武岩地下水为研究对象,在野外采集地下水样、测定水化学和同位素组成的基础上,利用统计分析、离子比例系数、氢氧同位素、反向地球化学模拟等方法,对区内玄武岩地下水的水化学形成机制进行了研究。结果表明:沿地下水径流方向,研究区内玄武岩地下水中多数离子质量浓度呈现增大趋势,补给区的地下水化学类型以HCO₃-Ca·Mg为主,TDS质量浓度多小于500mg/L,排泄区地下水中阴离子以Cl^-和SO₄^2-为主,阳离子以Na⁺为主,TDS质量浓度多大于1 400mg/L;研究区地下水补给来源为当地大气降水;硅铝酸盐、岩盐、硫酸盐的风化溶解是地下水中离子的主要来源;溶滤作用、阳离子交替吸附作用和农业施肥等人类活动影响是控制地下水化学形成的主要作用。     

Source constraints for the young basaltic rocks from the northernmost end of Cappadocian region,Turkey: Melting evidence from peridotite and pyroxenite source domains

Widespread magmatic activity developed in the Middle Miocene in the Cappadocian Region of Central Anatolia in Turkey. Despite several previous studies that focus on the geochemical features of the magmatic rocks, the source components and development of melting conditions are still a matter of debate.Recent basaltic rocks from Karaburna and Gül?ehir (1228 and 96 Ka, respectively, Dogan, 2011) are considered as a part of the Central Anatolian Volcanic Province, situated at the northernmost end of the Cappadocian Region. These lavas have similar large ion lithophile (LIL) (except Rb) and high field strength (HFS) element abundances, however, Karaburna samples are more enriched in HFS elements, and both of the rocks suites reflect HFS depletions relative to the OIB signature.Karaburna and Gül?ehir basalts have low Nb/La (0.45–0.5; 0.35–0.5), Nb/Th (2.75–4.61; 1.26–2.85) values, respectively, suggesting contributions from crustal sources, whereas Zr/Ba ratios of these samples range between 0.32–0.93 and 0.4–0.88 and imply that these rocks appear to be derived from asthenospheric sources. These incompatible element ratios can be attributed to either different geochemical processes, or are related to melting from different source component(s).The ambient mantle source of the Cappadocian region appears to be consistent with spinel peridotite, but this domain is not solely satisfactory to represent the melting conditions in the light of new elemental data. Values of Tb/Yb(N) and Zn/Fe provide new constraints suggesting the magmas were generated from the asthenosphere. Tb/Yb(N) ratio separates garnet – spinel transition Tb/Yb_(N) (>1.8) and Zn/Fe ratio displays separation between the peridotite-derived (Zn/Fe <12) and pyroxenite-derived (13?20) melts.A melting model based on REE ratios and Zn/Fe, Co/Fe, Tb/Yb(N) values indicates that basaltic rocks were not derived from a single source component (peridotite). Instead, those values suggest substantial melting contributions from a pyroxenite source domain, which has not been discussed as a source component in previous studies. Melts, from both of the source domains, with the result of asthenospheric upwelling linked to the downgoing Aegean and Cyprean slabs, are distinct from the alkaline character frequently observed as the final products of recent volcanic activity in the Cappadocian region and also explains the different trace element variations observed in such a small scale.     

Melt Pockets in Garnet Megacrysts from Cenozoic Alkali Basalts of the Shavaryn Tsaram Vicinity, Mongolia

Garnet megacryst with a multiphase inclusion from intraplate alkali basalts of the Shavaryn Tsaram(Tariat,Mongolia)was the object of the study.This unusual aggregate consists of porous glass,Ti-rich biotite,orthopyroxene,spinel,clinopyroxene,olivine,and ilmenite.Win TWQ 2.32 thermodynamic simulation of this system revealed a few intervals of equilibrium.Pressure and temperature adjustment reflected in the paragenetic minerals of the melt pocket.The capture of already crystallised garnet megacryst was at P=0.8-1 GPa and T=1120-1160℃.Mineral crystallisation inside the melt pocket,accompanied by external inputs,occurred at P=0.75-0.95 GPa;T=790-1120℃.Symplectite assemblage formed in the garnet megacryst due to decomposition at(P=0.55-0.7 GPa;T=850-930℃).The study of the oxygen isotope content in primary garnet and biotite of the melt pocket showed that the δ¹⁸O_VSMOW values are the same and correspond to that of typical mantle xenoliths.However,the chemical and microcomponent composition of the melt pocket minerals reveals a material that differs from basalts and peridotites.Thus,it has been revealed that the multiphase inclusion in the garnet megacryst formed not only on account of the garnet’s substance,but also due to the entrapped material of the Earth’s interior.     

湖南道县虎子岩碱性玄武岩及其基性捕虏体成因和地质意义

本文在湖南道县虎子岩地区采集了碱性玄武岩、橄榄辉长岩和基性麻粒岩捕虏体。碱性玄武岩的斑晶为橄榄石(10%~15%),岩石K2O含量为2.88%~3.51%,Mg#值为80,具有洋岛玄武岩的微量元素特征,岩石具有富集的氧同位素组成(7.8‰~11.0‰),可能是其上升到地表后由碳酸盐岩组分的加入及后期风化蚀变作用造成的,其相对均一且为负的εNd(t)值和靠近EMⅡ地幔端员的特点,指示了该玄武岩是拉张构造环境下富集地幔部分熔融的产物。橄榄辉长岩具有弱富集的LREE(La/Yb)N=2.5~3.0)、弱的Eu正异常(δEu=1.03~1.06),其Sr-Nd同位素组成更靠近EMⅡ地幔端员,87Sr/86Sr比值、εNd(t)值及Nd模式年龄均高于碱性玄武岩,说明橄榄辉长岩是先形成的上述玄武岩浆在未到达地表之前局部发生结晶作用后形成的。基性麻粒岩捕虏体具较强的正Eu异常(δEu=1.42~4.41),其重稀土元素含量出现明显的分组特征,强烈亏损U、Th和Nb、Ta、Zr、Hf、Ti等高场强元素,同时Sr-Nd同位素组成显示其具有壳幔混合的特征。本文结合已有研究结果,探讨了岩浆起源和演化,以及与古太平洋板片俯冲有关的构造环境转换。     

Exhumation History of the Xining Basin Since the Mesozoic and Its Tectonic Significance

The Xining Basin is located in the northeastern Qinghai–Tibetan Plateau, and its continuous Cenozoic strata record the entire uplift and outgrowth history of the Tibetan Plateau during the Cenozoic. The newly obtained apatite fission track data presented here shows that the Xining Basin and two marginal mountain ranges have experienced multiphase rapid cooling since the Jurassic, as follows. In the Middle–Late Jurassic, the rapid exhumation of the former Xining Basin resulted from collision between the Qiangtang Block and the Tarim Block. During the Early–Late Cretaceous, the former Xining Basin underwent a tectonic event due to marginal compression, causing the angular unconformity between the Upper and Lower Cretaceous. In the Late Cretaceous to the Early Cenozoic, collision between the Qiangtang Block and the Lhasa Block may have resulted in the rapid exhumation of the Xining Basin and the Lajishan to the south. In the Early Cenozoic(ca. 50–30 Ma), collision between the Indian and Eurasia plates affected the region that corresponds to the present northeastern Qinghai–Tibetan Plateau. During this period, the central Qilian Block rotated clockwise by approximately 24° to form a wedge-shaped basin(i.e., the Xining Basin) opening to the west. During ca. 17–8 Ma, the entire northeastern Qinghai–Tibetan Plateau underwent dramatic deformation, and the Lajishan uplifted rapidly owing to the northward compression of the Guide Basin from the south. A marked change in subsidence occurred in the Xining Basin during this period, when the basin was tectonically inverted.     

钦-杭结合带在中生代构造转折事件以前的板块构造机制

钦州湾—杭州湾结合带是位于扬子与华夏两大古陆块中间的巨型构造结合带,在演化成西太平洋活动大陆边缘之前,经历了多期次的构造-岩浆事件。扬子和华夏板块于新元古代通过四堡造山运动(1 000~880 Ma)沿江山—绍兴断裂,经赣东北、湘中至钦州湾地区发生碰撞-拼合事件,拼合界线大致位于钦州湾—杭州湾结合带内,形成"两陆夹一盆"的主要格局。后碰撞过程经历了造山后岩浆活动和大陆拉张裂解两个过程,在结合带形成广阔的拉张盆地,加里东期(460~410 Ma)以及印支期(250~200 Ma)发生的碰撞-拼合事件导致扬子和华夏地块多次再造,引发强烈的构造-岩浆活动,并形成了华南统一的沉积环境。受西太平洋板块俯冲影响,华南地区中生代构造转折事件(125~140 Ma)使华南地区主要构造背景由碰撞挤压调整为岩石圈减薄,成为华南最重要的岩浆活动和成矿期。根据内部结构的不均一性和演化历史差异,钦州湾—杭州湾结合带可分为北段、中段和南段3段。其中,中段与传统南岭大体一致;北段为南岭以北地区,即绍兴—江山—萍乡一带;南段为南岭以南地区,大致与云开隆起—十万大山盆地相当。年代学和地球化学研究显示,在云开地块西缘的一系列变质基性岩、超基性岩和变质基性火山岩形成于新元古代洋中脊(MORB)或者岛弧(ITA)特征的构造环境,最近在岑溪一带发现形成于加里东期(441 Ma)的变质火山岩同样具有MORB型地球化学特征。在十万大山两侧发现早中生代的酸性火山岩和流纹岩具有典型岛弧型火山岩地球化学特征。可见结合带南段曾经存在古老洋壳,先后经历了新元古代、加里东期和印支期的碰撞造山事件,与北段演化历史具有一致性。     

西准噶尔蛇绿混杂岩中洋岛玄武岩研究新进展

洋岛玄武岩(OIB)起源研究是当代固体地球岩石学及地球化学最基本问题之一,通常被认为源于地幔柱。西准噶尔位于中亚造山带的西南缘,该地区发育多条蛇绿混杂岩带,主要包括唐巴勒、玛依勒、达尔布特及克拉玛依蛇绿混杂岩带,它们组成相似,主要为蛇纹岩、蛇纹石化方辉橄榄岩、二辉橄榄岩、纯橄岩、铬铁矿、辉石岩、辉长岩、辉绿岩、玄武岩(拉斑质和碱性)、硅质岩及斜长花岗岩。随着研究的不断深入,在西准噶尔蛇绿混杂岩带中不断有不同时代OIB被识别。这些玄武岩属于碱性玄武岩系列,具有高TiO2和FeOt,低MgO,强烈富集轻稀土元素特征,没有明显Nb、Ta负异常,与日喀则及夏威夷洋岛玄武岩地球化学特征极为相似,可能形成于大洋板内的海山或洋底高原,认为其成因与地幔柱相关,表明在西准噶尔(洋)的演化过程中,不仅是洋内俯冲系统,还伴有地幔柱活动。结合前人研究,认为中亚造山带可能是洋内俯冲+地幔柱复合的演化模型。同时,对中亚造山带中的OIB及OIB型玄武岩形成时代进行系统总结发现,它们不仅时代宽度大,并且具有连续发育的特点。对正确认识地幔柱活动在显生宙中亚造山带地壳增生过程中的贡献提供新的资料和证据。     

羌塘地块中生代时期的漂移演化及其成钾条件

通过研究地块的古纬度,可以为我们认识该地块在地质历史时期的古地理位置和南北向漂移演化提供定量约束。本文通过收集、整理、评判中生代时期羌塘地块已发表的古地磁数据,建立了该地块在中生代时期的漂移演化历史。羌塘地块在中—晚三叠世期间,可能发生大规模快速北向漂移,并与羌塘北部的构造单元体发生碰撞;中侏罗世时期位于北半球21.4°N,晚侏罗世期间已北向到达31.8°N。中晚侏罗纪期间,羌塘地块古纬度值逐步升高,发生约1154±223km(△λ=10.4°±2.1°)的北向漂移。白垩世期间羌塘地块相对稳定,在古纬度30°N左右。综合上述羌塘地块的漂移演化历史,结合其它地质证据,如古气候、构造和从古地理位置等,中晚侏罗世夏里组时期羌塘地块具备较好的成钾条件。     

Ore-forming fluid and mineralization of Caijiaying and Dajing polymetallic ore deposits

Fluid inclusions from the Dajing and Caijiaying deposits have nearly the same ho-mogenization temperature. Correlation between temperature and salinity shows that both Sn-and Cu-bearing fluids Sn and Cu were present in the Dajing deposit but only one kind of fluids continuously evolved in the Caijiaying deposit. Study on rare earth elements (REE) in ancient fluid from the inclusions indicates that the fluid of Sn mineralizing stage in Dajing was derived from remelting magma of the continental crust, and the fluid of Cu-Pb-Zn mineralizing stage in the Dajing deposit and the fluid of Cu-Pb-Zn mineralization in the Caijiaying deposit were derived from the mantle. It is concluded that the Cu-Pb-Zn mineralizations in the Dajing and Caijiaying deposits resulted from the identical tectono-thermal event of magma-fluids induced by Mesozoic tectonic transition and extension in the eastern part of North China Craton.