内蒙古迪彦庙蛇绿岩辉长岩岩石学特征

迪彦庙蛇绿岩位于中朝古板块与西伯利亚古板块之间的兴蒙造山带,主要由蛇纹石化斜辉辉橄岩、辉长岩、玄武岩、细碧角斑岩组成.岩相学研究表明,迪彦庙辉长岩分为层状辉长岩（具堆晶结构）和均质辉长岩（具辉长结构）两类,且均经历了低-中级变质改造.在详细的野外工作基础上,通过对迪彦庙辉长岩的地质特征、岩相学特征和岩石化学研究,认为其为活动大陆边缘或岛弧环境下小规模单旋回封闭系统内形成的.     

东昆仑夏日哈木铜镍矿床Ⅱ号岩体辉长岩形成年龄与找矿潜力

东昆仑夏日哈木铜镍矿床以赋存110万吨Ni金属成为全球镍床近二十年来最重要的发现之一,也是仅次于金川岩浆铜镍矿床的中国第二大铜镍矿床。矿区发育5个镁铁-超镁铁质岩体,目前仅Ⅰ号镁铁-超镁铁岩体内发现了具有经济价值的超大矿体,110万吨Ni金属均赋存Ⅰ号岩体内;其他4个岩体中仅Ⅱ号岩体发现了矿化,是多种构造体制叠加岩浆活动的结果。调查发现Ⅱ号岩体的主要岩性是辉长岩,LA ICP-MS锆石U-Pb测试获得Ⅱ号岩体辉长岩的成岩年龄为385.2 Ma,比Ⅰ号岩体成岩成矿时代稍年轻,属于早泥盆世岩浆活动的产物。岩浆铜镍矿体多赋存于辉石岩与橄榄岩中,辉长岩内一般无经济价值的矿体存在。在夏日哈木矿区,辉长岩基本是含矿辉石岩及橄榄岩的围岩,辉长岩中所见的铜镍矿化也是后期岩浆活动贯入的表现。结合区域年代学综合分析认为,夏日哈木超大型岩浆铜镍硫化物矿床的形成,是早泥盆世早期岩浆活动于柴达木盆地边缘东昆仑造山带夏日哈木地区具体的成矿表现。目前所发现的Ⅱ号岩体以辉长岩为主,不具备成镍矿良好条件,较难发现有经济价值的铜镍矿体。     

甘肃北山红柳疙瘩钛铁矿含矿岩体特征及找矿意义

红柳疙瘩岩体位于塔里木板块北缘的北山裂谷带,岩体侵位于下石炭统红柳园组,主要岩石类型为含橄榄石角闪辉长岩和角闪方辉橄榄岩,岩石中赋存钛铁矿,具有全岩矿化特点。岩体出露长度6 km,宽度0.5 km,呈NE向展布,岩体经逆断层作用推覆至中生代碎屑岩之上。本文对矿区橄榄岩开展主要元素分析,研究结果显示岩石m/f比值为0.16~0.33,为富铁质超基性岩,具有低碱(Na_2O+K_2O)、MgO,高TiO_2、Al_2O_3和TFe(Fe_2O_3+FeO)特征。AR-SiO_2和FAM图解显示岩体原始岩浆属亚碱性拉斑玄武系列;岩体具有较低的Mg#(0.30~0.49),说明岩浆演化过程中发生了明显的结晶分异作用,钛铁矿的富集与岩浆的结晶分异作用相关。红柳疙瘩钛铁矿经深部钻探工程控制,圈定钛铁矿36条,主要矿体有7条,长度200 m~700 m,控制斜深75 m~150 m,平均厚度4.02 m~13.97 m,呈层状、不规则透镜状,TiO_2平均品位6.37%~7.19%,TFe品均品位为14.60%。对该岩体含矿性分析,有助于北山地区的勘查找矿。     

西藏拉萨地块南缘雄村矿集区首次发现早石炭世辉长岩:古特提斯洋的残留?

拉萨地块是研究特提斯洋形成演化和青藏高原陆内汇聚作用的关键地区,前人对拉萨地块中新生代构造演化过程进行了大量的研究,而对于古生代演化阶段研究较为薄弱。本文以拉萨地块南缘雄村矿集区新发现的辉长岩为研究对象,对雄村辉长岩进行锆石LA-ICP-MS U-Pb定年,探讨其反映的构造意义。雄村辉长岩中锆石LA-ICP-MS U-Pb年龄为(341.55±0.89)Ma,表明其形成于早石炭世。结合区域地质演化过程,认为早石炭世雄村辉长岩可能是古特提斯洋的残留,新的年龄数据将为研究拉萨地块和特提斯洋的演化过程提供重要的约束。     

The effect of a hydrous phase on P‐wave velocity anisotropy within a detachment shear zone in the slow‐spreading oceanic crust: A case study from the Godzilla Megamullion,Philippine Sea

We studied the contributions of plagioclase, clinopyroxene, and amphibole to the P‐wave velocity properties of gabbroic mylonites of the Godzilla Megamullion (site KH07‐02‐D18) in the Parece Vela Rift of the central Parece Vela Basin, Philippine Sea, based on their crystal‐preferred orientations (CPOs), mineral modes, and elastic constants and densities of single crystals. The gabbroic mylonites have been classified into three types based on their microstructures and temperature conditions: HT1, HT2 and medium‐temperature (MT) mylonites. The P‐wave velocity properties of the HT1 mylonite are dominantly influenced by plagioclase CPOs. Secondary amphibole occurred after deformation in the HT1 mylonite, so that its effect on P‐wave velocity anisotropy is minimal due to weak CPOs. Although the HT2 mylonite developed deformation microstructures in the three minerals, the P‐wave velocity properties of the HT2 mylonite are essentially isotropic, resulting from the destructive interference of different P‐wave velocity anisotropy patterns produced by the distinct CPOs of the three constituent minerals (i.e., plagioclase, clinopyroxene, and amphibole). The P‐wave velocity properties of the MT mylonite are influenced mainly by amphibole CPOs, whereas the effect of plagioclase CPOs on P‐wave velocity anisotropy becomes very small with a decrease in the intensity of plagioclase CPOs. As a result, the gabbroic mylonites tend to have weak P‐wave velocity anisotropy in seismic velocity, although their constituent minerals show distinct CPOs. Such weakness in the whole‐rock P‐wave velocity anisotropy could result from the destructive contributions of the different mineral CPOs with respect to the structural framework (foliation and lineation). These results show that amphibole has a high potential for P‐wave velocity anisotropy by aligning both crystallographically and dimensionally during deformation in the hydrous oceanic crust. The results also suggest that the effect of a hydrous phase on P‐wave velocity anisotropy within the detachment shear zone in a slow‐spreading oceanic crust varies depending on the degree of deformation and on the timing of hydrothermal activity.     

东昆仑喀雅克登塔格辉长岩体地球化学研究及大地构造意义

对东昆仑喀雅克登塔格地区的辉长岩所进行的时代及地球化学研究发现,该辉长岩为早泥盆世,属钙碱性系列,有向富镁方向演化的特点,岩石稀土总量根据测试精度在28.9×10-6～154×10-6,（La/Yb）N比值大于1,在4.1～5.1之间,表现为岩石显轻稀土富集特征（LREE/HREE在3.52～5.60）,岩石的Sm/Nd在0.23～0.25间,指示来源区可能与亏损地幔有关。δCe值在0.87～1.00,表现为负Ce异常,辉长岩来源于壳幔接合部位或富集型地幔源区.结合玄武岩构造环境判别图解可知,该辉长岩构造环境应是祁漫塔格加里东造山带造山后伸展环境下的产物。     

Geochemical Characteristics and Geological Significance of Early Permian Baya’ertuhushuo Gabbro in South Great Xing’an Range

Field geological investigation and geochemical analysis are carried out on Baya’ertuhushuo Gabbro in South Great Xing’an Range. Field investigation reveals that the gabbro is a magmatic intrusion rather than a component of an ophiolite suite as previously thought. Zircon laser ablation inductively coupled plasma mass spectroscopy (LA-ICP-MS) U-Pb dating indicates the gabbro was formed in 274–275?Ma, just as the widespread volcanic rocks of Dashizhai Formation (P1d), monzogranites and miarolitic alkali-feldspar granites in the study area. The gabbro has SiO2 content between 47.23 wt% and 50.17 wt%, high MgO and FeOT contents of 6.95–11.29 wt% and 7.32–12.24wt%, respectively, and it belongs to low-K tholeiitic series in the SiO2-K2O diagram. The Chondrite-normalized rare earth element (REE) patterns and primitive mantle-normalized spider diagrams of the gabbro are similar to those of Normal Mid-Ocean Ridge Basalt (N-MORB) except for the enrichment of large ion lithophile elements (LILE), such as Rb, Ba and K. In trace element tectonic discriminative diagrams, the samples are mainly plotted in the N-MORB field, and Zircon in?situ Lu-Hf isotopic analysis also indicates the gabbro originated from depleted mantle. Through synthetic studies of the geochemical characteristics and petrogenesis of Baya’ertuhushuo gabbro, volcanic rocks of Dashizhai Formation and granitoids in the area, it is suggested that the early Permian magmatism in the Xilinhot-Xiwuqi area formed in the tectonic setting of asthenosphere upwelling, which was caused by breaking-off of the subducted Paleo-Asian Ocean slab.     

内蒙古北部乌日尼图地区阿仁绍布辉长岩体的形成时代、地球化学特征及成因

本文系统地报道了内蒙古北部乌日尼图地区阿仁绍布辉长岩的主量元素、微量元素和稀土元素特征,重点讨论了阿仁绍布辉长岩体的岩石成因、原始岩浆的源区特征及其地质意义。研究结果表明,阿仁绍布辉长岩体SiO2含量为49.62%,Al2O3为17.34%,CaO为8.94%,TiO2为1.44%,P2O5为0.26%;岩石富集LILE、亏损HFSE。岩体的Mg#值（0.28～0.68,平均为0.52）较高,反映原始岩浆具幔源原生玄武岩浆特征,在上升过程中经历的结晶分异程度较低。U-Pb锆石年龄测定结果为309±2Ma,代表了阿仁绍布辉长岩体的结晶年龄,为晚石炭世。计算出石英结晶温度为928℃,斜长石结晶温度为1206℃;岩浆冷凝矿物共结晶时的深度大于10km,其结晶条件代表岩体侵位时的物理环境,是在较深的岩浆房中结晶的。阿仁绍布辉长岩具有大陆边缘弧的地球化学特征,可能反映在岩浆形成之前,地幔源区发生了俯冲交代富集作用。     

一件可能的Hf同位素测定标准锆石

陕西省西乡县汉南杂岩望江山岩体辉长岩中含有丰富的锆石——从600kg辉长岩样品中分选出结晶良好、内部结构简单、成因和年龄单一、Hf同位素比值均一的锆石7g,锆石粒度多为0.2-0.3mm。分别在三个不同实验室利用三种方法对该锆石样品进行了U-Pb同位素年龄测定,获得了在误差范围内完全一致的年龄：819.8 ± 2.5 Ma（LA-ICP-MS）、821.7 ± 1.7 Ma（LA-MC-ICPMS）和822.1 ± 4.5 Ma（SHRIMP）。在国内4个权威实验室对该锆石进行了Lu-Hf同位素测定,获得了在误差范围内完全一致的176Hf/177Hf同位素比值——全部421个测试点加权平均值为0.282535 ± 0.000003（2σ）。采样点岩体规模巨大,露头良好,岩石新鲜,交通方便。该锆石样品满足作为Hf同位素测定标样的各方面的指标,可能是一个比较理想的Hf 同位素测定标样。Hf同位素测定标准物质的研制,是测定获得准确可靠的Hf同位素数据的基础,具有十分重要的实用价值和科学意义。     

Crustal structure under the Sydney Basin and Lachlan Fold Belt,determined from explosion seismic studies

The Lachlan Fold Belt has the velocity‐depth structure of continental crust, with a thickness exceeding 50 km under the region of highest topography in Australia, and in the range 41–44 km under the central Fold Belt and Sydney Basin. There is no evidence of high upper crustal velocities normally associated with marginal or back‐arc basin crustal rocks. The velocities in the lower crust are consistent with an overall increase in metamorphic grade and/or mafic mineral content with depth. Continuing tectonic development throughout the region and the negligible seismicity at depths greater than 30 km indicate that the lower crust is undergoing ductile deformation.

The upper crustal velocities below the Sydney Basin are in the range 5.75–5.9 km/s to about 8 km, increasing to 6.35–6.5 km/s at about 15–17 km depth, where there is a high‐velocity (7.0 km/s) zone for about 9 km evident in results from one direction. The lower crust is characterised by a velocity gradient from about 6.7 km/s at 25 km, to 7.7 km/s at 40–42 km, and a transition to an upper mantle velocity of 8.03–8.12 km/s at 41.5–43.5 km depth.

Across the central Lachlan Fold Belt, velocities generally increase from 5.6 km/s at the surface to 6.0 km/s at 14.5 km depth, with a higher‐velocity zone (5.95 km/s) in the depth range 2.5–7.0 km. In the lower crust, velocities increase from 6.3 km/s at 16 km depth to 7.2 km/s at 40 km depth, then increase to 7.95 km/s at 43 km. A steeper gradient is evident at 26.5–28 km depth, where the velocity is about 6.6—6.8 km/s. Under part of the area an upper mantle low‐velocity zone in the depth range 50–64 km is interpreted from strong events recorded at distances greater than 320 km.

There is no substantial difference in the Moho depth across the boundary between the Sydney Basin and the Lachlan Fold Belt, consistent with the Basin overlying part of the Fold Belt. Pre‐Ordovician rocks within the crust suggest fragmented continental‐type crust existed E of the Precambrian craton and that these contribute to the thick crustal section in SE Australia.