黄陵花岗岩基的成因

黄陵花岗岩基位于扬子地台北缘，它连同汉南和鲤鱼寨岩基一起构成扬子地台北缘的低钾花岗岩等，形成于晋宁晚期扬子地台北侧的“秦岭洋”壳向南俯冲导致的大陆边缘造山运动过程中。黄陵花岗岩基可解体为三斗坪、黄陵庙、大老岭、晓峰4个岩套和14个单元，侵位于832－750Ma之间。三斗坪和黄陵庙两个岩套主要由英云闪长岩、奥长花岗岩花岗闪地组成，是在近南北向区域挤压下于约16km深部塑性域定位的同构造花岗岩，前者主要依靠岩浆在构造弱面逐次强力楔入创造定位空间，后者主要在处于活动状态的韧性拉张剪切带内定位。钙碱性系列的大老岭和晓峰岩套则是在本区地壳迅速隆起过程中分别在5km和＜1．5km深度的脆性域定位的构造晚期花岗岩。根据岩石化学和同位素组成推断，三斗坪岩套的源岩主要是晚太古代大陆拉斑玄武岩，母岩浆相当于英安质，岩套内的成分变化主要受角闪石分离结晶作用控制；黄陵庙岩套除受分离结晶作用影响外，成分变化主要与英安质母岩浆和某种长英质岩浆的混合有关；大老岭岩套的源岩亦为早前寒武纪火山岩。     

Fluorite Deposits at Voznesenka in the Khanka Massif, Russia: Geology and Age of Mineralization

Abstract. A huge fluorite deposit at Voznesenka in the Khanka massif, Far East Russia is concluded to have formed at ca. 450 Ma in Late Ordovician time based on the K‐Ar ages for Li‐micas in the fluorite ore and greisenized leucogranite within the deposit. This conclusion is inconsistent with the current view of Devonian mineralization that stemmed from widely scattered whole‐rock Rb‐Sr isotope data for the heterogeneous leucogranite stocks influenced by strong alteration. The Voznesenka and neighboring fluorite deposits may have formed in Cambrian limestone in relation to the intrusion of the Li‐F‐rich felsic magma which has a similar chemistry to representative Li‐F‐rich felsic rocks including topaz granite and ongonite or topaz rhyolite; these rocks may be classified as a specific group of highly fractionated felsic magmas. Biotite granite plutons exposed in the Voznesenka district are divided in age into two groups based on the CHIME age data for zircon, monazite and xenotime: Ordovician and Permian. The Ordovician plutons seem to be coeval to the fluorite deposits and are characterized by F‐rich chemistry, reduced nature and association of tin mineralization with the deposition of fluorite and tourmaline. The biotite granite magmas of initially enhanced F contents could have been highly fractionated to form Li‐F‐rich leucogranite cupolas that provided fluorite deposits within the host limestone. Future prospecting for similar fluorite deposits is to be focused on areas of intersection between Ordovician Li‐F‐rich granite and Cambrian carbonate sequences. The Permian granite of southeastern margin of the Grodekovo batholith is characterized by lesser F content, oxidized nature and the lack of tin and fluorite mineralization in contrast to the Ordovician granite. The result of Permian age does not support the current view of Silurian age for the batholith and requires overall chronological reinvestigation in connection with the tectonic history of the Khanka massif because the Grodekovo is a representative of Paleozoic batholiths in Primorie.     

临沧锗矿褐煤的稀土元素地球化学

采用ICP-MS测定了临沧锗矿中51件含矿煤，5件无矿煤的稀土元素和锗含量，并与含矿煤层中热水成因燧石及其底白云母花岗岩进行对比，探讨了含矿煤与无矿煤的稀土元素地球化学及其与锗超常富集的关系。得出几点初步认识（1）无矿煤和含矿煤的稀土元素主要来自基底白云母花岗岩；（2）无矿煤属正常沉积产物，含矿煤组成叠加了热水活动产物；93）形成临沧锗矿的锗可能主要由热水活动带来。     

Mafic magmatic enclaves and mafic rocks associated with some granitoids of the central Sierra Nevada batholith, California: nature, origin, and relations with the hosts

The calc-alkaline granitoids of the central Sierra Nevada batholith are associated with abundant mafic rocks. These include both country-rock xenoliths and mafic magmatic enclaves (MME) that commonly have fine-grained and, less commonly, cumulate textures. Scarce composite enclaves consist of either xenoliths enclosed in MME, or of MME enclosed in other MME with different grain size and texture. Enclaves are often enclosed in mafic aggregates and form meter-size polygenic swarms, mostly in the margins of normally zoned plutons. Enclaves may locally divert schlieren layering. Mafic dikes, which also occur in swarms, are undisturbed, composite, or largely hybridized. In central Sierra Nevada, with the exception of xenoliths that completely differ from the other rocks, host granitoids, mafic aggregates, MME, and some composite dikes exhibit a bulk compositional diversity and, at the same time, important mineralogical and geochemical (including isotopic) similarities. MME and host granitoids display distinct major and trace element compositions. However, strong correlations between MME–host granitoid pairs indicate interactions and parallel evolution of MME and enclosing granitoid in each pluton. Identical mafic mineral compositions and isotopic features are the result of these interactions and parallel evolution. Mafic dikes have broadly the same major and trace element compositions as the MME although variations are large between the different dikes that are at distinctly different stages of hybridization and digestion by the host granitoids. The composition of the granitoids and various mafic rocks reflects three distinct stages of hybridization that occurred, respectively, at depth, during ascent and emplacement, and after emplacement. The occurrence and succession of hybridization processes were tightly controlled by the physical properties of the magmas. The sequential thorough or partial mixing and mingling were commonly followed by differentiation and segregation processes. Unusual MME that contain abundant large crystals of hornblende resulted from disruption of early cumulates at depth, whereas those richer in large crystals of biotite were formed by disruption of late mafic aggregates or schlieren layerings at the level of emplacement. MME and host granitoids are considered cogenetic, because both are hybrid rocks that were produced by the mixing of the same two components in different proportions. The felsic component was produced by partial melting of preexisting crustal materials, whereas the dominant mafic component was probably derived from the upper mantle. However, in the lack of a clear mantle signature, the origin of the mafic component remains questionable.     

PZ系列组合式牙轮钻头在大直径嵌岩桩施工中的应用效果

本文通过大口径桩孔基岩钻进，探讨了ＰＺ系列组合式牙轮钻头结构特点、合理钻进参数的确定及碎岩机理。工程实践证明，牙轮钻头是我国目前大直径桩孔嵌岩施工较为理想的工具，应用效果良好。     

黄陵岩基A型花岗岩的厘定

黄陵岩基A型花岗岩为钾长-二长花岗岩,为准铝质、富SiO2、高碱、低CaO和MgO、高FeO*/MgO;明显亏损Ba、Sr、P、Ti、Eu,富Nb、Th、Zr、Y等高场强元素,Ga/Al比值高。这些特征与该区I型花岗岩有明显的区别,是一种典型的A2型花岗岩。黄陵岩基A型花岗岩形成时代为800~770Ma,表明扬子地块北缘在新元古代处于拉张阶段,可能与Rodinia超大陆的裂解背景有关。     

云南临沧晚中新世槭属叶片和翅果研究

云南省是研究我国植物多样性,植物区系演化及被子植物迁徙路线的有利场所。文中鉴定并描述了采自云南临沧上中新统邦卖组的槭属(Acer)8块叶片和17块翅果化石,共鉴定为4个种,其中包括1个新种和1个相似种,分别为Acer lincangense sp.nov.和Acer cf.jingdongense。槭属化石在云南邦卖组的出现,证明了该植物群具有北温带和古热带的混生特征,反映了当时植物区系类型的多样化构成了云南现代植物多样性的基础。另外,通过对Acer全球大化石记录以及现生种的统计,总结得出槭属的地史演化具有3个发展高峰期:依次为始新世、中新世和全新世,从古至今呈现一种螺旋式递增趋势。     

藏南冈底斯岩基东段晚白垩世早期朗县杂岩的岩石成因和深部地球动力学过程

藏南冈底斯岩基晚白垩世早期岩浆岩保存了有关新特提斯洋的俯冲演化过程和大陆地壳生长的重要信息。本文对朗县杂岩中出露的晚白垩世早期中酸性岩（岩脉）开展了全岩元素地球化学、锆石U-Pb地质年代学、同位素（Sr、Nd和Hf）组成的研究。闪长岩和花岗闪长岩年龄为92.4~86.9Ma,花岗岩（脉）年龄为91.9~88.6Ma,均为晚白垩世早期岩浆作用的产物。闪长岩和花岗闪长岩具有高钾钙碱性偏铝质特征,具有较高的锆石Hf（ε_Hf（t）=+8.3~+13.2,平均值+10.9）和全岩Nd（ε_Nd（t）=+3.2~+2.7）同位素组成,为受俯冲板片流体和大洋沉积物熔体共同交代的地幔楔部分熔融形成,闪长岩岩浆源区形成深度较浅且受板片流体的交代程度较高,花岗闪长岩岩浆源区更深,受沉积物熔体交代程度较高。花岗岩（脉）在主量元素、稀土元素和微量元素组成上显示明显差异,可划分为两类,第一类花岗岩属于低钾钙碱性系列,Na₂O/K₂O>3.0,稀土总量较高,具有明显的Eu负异常,Sr/Y低（<7.2）。在主量元素组成上,该类花岗岩与闪长岩和花岗闪长岩形成较好的线性演化关系,表明它们可能是上述中酸性岩浆演化的产物。第二类花岗岩属于高钾钙碱性系列,Na₂O/K₂O较低（均<1.0）,铝饱和指数较高（A/CNK=1.01~1.02）,发育角闪石,稀土总量较低,具有微弱负或无Eu异常（Eu/Eu^*=0.88~1.12）,Sr/Y比值（33.8~55.4）较高,锆石Hf（ε_Hf（t）=+4.1~+10.8）和全岩Nd（ε_Nd（t）=+0.8）同位素组成都较低,为新生下地壳部分熔融形成。结合冈底斯岩基晚白垩世早期（100~87Ma）岩浆岩已有的研究结果,认为新特提斯洋板片自早白垩世以高角度俯冲,在晚白垩世早期俯冲板片发生回撤,导致软流圈物质上涌增强,诱发熔流体交代过的地幔楔较高程度的部分熔融形成镁铁质岩浆。这些镁铁质岩浆上升侵位到下地壳,发生不同程度的分离结晶作用并诱发新生下地壳部分熔融,形成晚白垩世岩石地球化学性质各异的岩浆岩。     

Geology and field relations of the Wilsons Promontory batholith,Victoria: multiple,shallow-dipping,S-type,granitic sheets

The 1200 km², Early Devonian (395 Ma) Wilsons Promontory batholith is a post-tectonic, high-level, composite body of S-type granites exposed on Wilsons Promontory and its offshore islands. Four plutons and six members are mapped and described. The rocks commonly contain magmatic garnet and cordierite, in addition to biotite, and biotite–quartz pseudomorphs after orthopyroxene. Planar fabrics abound in the batholith, which is characterised by emplacement of shallow-dipping granitic sheets, on a variety of scales. Particle size and density separation occurred during magma flow, and produced a wide variety of structures including layering, pipes and whorls rich in mafic minerals, K-feldspar phenocryst alignments and a notable swarm of enclaves. Local filter pressing may have played a role in the production of accumulations of K-feldspar crystals and the formation of late, tourmaline-bearing leucogranites and quartz veins. Batholith zonation and the distribution of component plutons are inferred to have been formed through sequential intrusion of separate magma batches rather than in situ differentiation. Overall, the batholith appears to consist of saucer-shaped plutons, and it is tilted gently to the east.     

湖南衡阳关帝庙花岗岩岩基形成时代及物质来源探讨

在详细的野外地质调查基础上,本文通过对湖南省衡阳市关帝庙花岗岩岩基的岩石地球化学、LAICP-MS锆石U-Pb定年和全岩Sr-Nd-Pb同位素地球化学等综合研究,参照前人研究成果,探讨关帝庙花岗岩岩基的岩石地球化学性质、形成时代、物质来源以及形成机制。LA-ICP-MS锆石U-Pb加权平均年龄为223.4±1.9Ma。岩石以富硅、富碱、高钾钙碱性、准铝质,轻稀土元素和大离子亲石元素(Rb、Th、U、K)富集,重稀土元素、高场强元素(Nb、Ta、Ti)和Ba、Sr等元素亏损为特征。全岩Sr-Nd-Pb同位素显示较高的Sr初始比值((87Sr/86 Sr)i=0.712005~0.713631),低的Nd初始比值(εNd(t)=-9.95~-9.59),老的二阶段模式年龄(TDM2=1.78~1.81Ga)以及相对均一的Pb同位素组成,(206Pb/204 Pb)i、(207 Pb/204 Pb)i和(208 Pb/204 Pb)i值分别介于18.161~18.316、15.686~15.743、38.622~38.772之间。印支晚期,华南地区处于造山阶段的后碰撞构造环境挤压峰期之后的伸展环境,应力减弱或挤压松弛体制之下,幔源基性岩浆底侵,诱发古元古界地壳部分熔融形成花岗质岩浆,沿着断裂构造运移侵位,形成了关帝庙花岗岩岩基。