云南腾冲全新世火山源区性质及其岩浆演化

在对腾冲火山区进行野外考察的基础上,重点对区内3座全新世火山(黑空山、打莺山和马鞍山)的岩石学及地球化学特征、岩浆源区性质及其演化进行研究。对主量元素和微量元素研究表明,这套岩石属于高钾钙碱性系列,包括粗面玄武岩、玄武粗安岩、粗面安山岩和英安岩,从基性岩到酸性岩都有分布。这套火山岩富集大离子亲石元素和轻稀土元素,亏损Nb-Ta-Ti不相容元素,具有岛弧火山岩特征。通过微量数据模拟认为,腾冲全新世火山岩为石榴石相地幔橄榄岩在低压条件下大比例部分熔融的产物。源区富钾矿物为金云母,不含角闪石。腾冲及其邻区新生代以来的火山喷发主要受盆地内断裂控制,不受板块俯冲或者火山弧作用的控制。其活动产物为板内火山岩,表现出的岛弧火山岩特征是由于地幔源区受到古洋壳的俯冲板片的富集作用,富集作用发生在部分熔融作用之前。富集地幔部分熔融形成的富钾岩浆沿断裂上升进入地壳形成岩浆房,在岩浆房阶段经历了分离结晶作用和地壳混染作用,有钛铁氧化物、磷灰石、橄榄石、单斜辉石和斜长石的结晶分离。     

470铀矿床地球化学特征及成矿机理探讨

470火山岩型钿矿床主要有两种铀矿化类型，即铁－铀型和铀－铝型。含矿主岩主要为粗面岩，具有独特的“麻子构造”；通过对矿床岩石化学、共生及伴生元素、稀土元素、稳定同素、成矿温度、成矿年龄等地球化学特征研究，分析了矿床的成矿机理，建立了铀成矿地球化学模式。     

黑龙江省新生代火山岩构造环境与地震活动

黑龙江省是中国新生代火山岩广泛分布的地区之一。通过对该省新生代火山岩构造环境的分析指出，本省西部火山岩区为大陆板内裂谷环境，地慢上隆、底辟是裂谷形成火山与地震活动的主要原因，而东部火山岩区火山与地震活动的动力则主要来自西太平洋板块对欧亚板块的俯冲作用。     

额尔古纳地区中生代火山岩形成的动力学环境

通过对额尔古纳地区中生代火山岩新的岩石化学、微量元素、构造等方面的分析,表明该地区中生代火山岩（主要指塔木兰沟组（Ｊ３ｔ）火山岩、上库力组（Ｋ１Ｓ）火山岩是形成在明显的挤压环境中;再结合区域构造、夺浆作用、古地磁特征和稳定同位素分析,笔者得出以下认识：１．该区中生代火山岩岩浆来泊较深（幔源）;财浆是挤压背景下,“减压－剪切”作用的产物,而不是裂谷环境中的产物,从而使得岩浆在演化过程中混入了大量的壳     

延吉地区晚中生代火山岩的Ar-Ar年代学及其大地构造意义

延吉地区晚中生代-新生代火山岩的高精度Ar-Ar年代学研究表明，前人划分为三叠-侏罗系火山岩 (包括三仙岭组、屯田营组、天桥岭组、金沟岭组和火山岩组)的喷发时期为早白垩世 (118-106 Ma)，略晚于中亚造山带东段及邻区的大规模岩浆活动的主体形成时代；而与古太平洋板块 (Izanagi-Farallon 板块)俯冲作用有成因联系的泉水村组adakite岩石的喷发时间为55 Ma左右。根据新的火山岩年代学资料，我们重建了区域晚中生代-新生代的火山-沉积地层格架     

我国铁矿成矿背景与富铁矿成矿机制

我国的富铁矿主要类型包括矽卡岩型、沉积变质型、火山岩型(细分为陆相火山岩型和海相火山岩型)和岩浆型铁矿床.本文通过对不同类型铁矿床成矿地质背景的研究,发现沉积变质型铁矿的形成主要受控于大气圈的氧浓度,而其他类型铁矿床的形成均受控于特殊的地质构造环境和深部地质过程.高温高压实验和熔融包裹体研究表明,高温岩浆可以发生液态不混溶形成富铁岩浆,但难以形成纯的磁铁矿矿浆,在富水、高氧逸度条件下可以发生不混溶形成铁磷岩浆;富铁矿是贫矿经去硅富铁、去杂富铁、铁质活化再富集等多期次-多阶段复合叠加改造的结果.按照时间演化可分为不同期次叠加改造型和不同阶段叠加复合型,前者是沉积变质型富铁矿,后者则是与岩浆-热液有关的富铁矿(矽卡岩型、火山岩型和岩浆型).     

江西邹家山铀矿绿泥石形成温度及其成矿关系

本文采用电子探针分析技术，对产于邹家山火山岩型铀矿床深部的绿泥石进行蚀变特征、化学组成、形成环境研究，并初步探讨该矿床中的绿泥石的形成环境与铀矿化关系。指出绿泥石的形成温度为217.64-295.30℃。矿脉中与铀矿物共生的绿泥石主要是鲕绿泥石，而围岩中则是蠕绿泥石和铁镁绿泥石。含矿溶液沉淀时是一个还原环境，绿泥石不仅活化了火山岩中的铀，还为铀矿化提供了良好的沉淀环境。     

松辽盆地丰乐地区营城组火山岩储层预测

徐家围子断陷的主要产气层段为营城组火山岩段地层,所以研究该地层对寻找天然气藏具有非常重要的意义.本文利用丰乐地区的高分辨率地震资料、岩石物性资料、测井资料对下白垩统营城组火山岩进行构造精细解释,火山岩地震相及岩相分析从而进行储层预测,利用均方根振幅、瞬时频率能量及瞬时吸收系数能量等地震属性分析结合地震反演技术精细刻画火山岩储层.结果认为：均方根振幅、瞬时频率能量和瞬时吸收系数能量能较好预测火山岩相和储层物性;有利储层在反演剖面上表现为中低阻抗特征,中等密度;较好储层主要分布在工区的西部与中部.     

北羌塘新第三纪高钾钙碱火山岩系的成因及其大陆动力学意义

北羌塘新第三纪高钾钙碱系列火山岩主要岩石类型为安山岩、英安岩和流纹岩类, 属典型的壳源岩浆系列, 是加厚的陆壳基底脱水熔融的产物. 岩石具轻稀土富集和无负Eu异常的特殊地球化学特征, 表明其源区物质组成相当于榴辉岩相, 从而揭示了羌塘地区在新第三纪板块碰撞这一特定的构造背景下, 陆壳已经被加厚并形成了一个榴辉岩质的下地壳类型.     

延吉地区晚中生代火山岩的Ar-Ar年代学格架及其大地构造意义

延吉地区晚中生代-新生代火山岩的高精度Ar-Ar年代学研究表明,前人划分为三叠-侏罗系火山岩(包括三仙岭组、屯田营组、天桥岭组、金沟岭组和火山岩组)的喷发时期为早白垩世(118～106 Ma),略晚于中亚造山带东段及邻区的大规模岩浆活动的主体形成时代;而与古太平洋板块(Izanagi-Farallon板块)俯冲作用有成因联系的泉水村组adakite岩石的喷发时间为55 Ma左右.根据新的火山岩年代学资料,重建了区域晚中生代-新生代的火山-沉积地层格架:托盘沟组、三仙岭组/屯田营组(118～115Ma)、马鹿沟组/天桥岭组(K1)、金沟岭组/火山岩组(108～106 Ma)、长财组(K2)、泉水村组(约55 Ma)和大拉子组.这些新的火山岩Ar-Ar年代学结果暗示Izanagi-Farallon板块向延吉地区的俯冲时间发生在晚白垩世-古新世之间,与前人通过古地磁资料观察到的太平洋和欧亚板块的运动轨迹基本吻合.     

Evolution of a section of the Africa-Europe plate boundary: Paleomagnetic and volcanological evidence from Sicily

New paleomagnetic data relative to Upper Cretaceous, Neogene and Quaternary volcanic rocks from eastern Sicily definitively indicate that Sicily is a part of the African plate, which collided with the European continental plate in Middle Miocene times. These data and the tectonic evolution of Sicily as inferred from the nature, age and distribution of volcanic products, are broadly consistent with the motions of Africa relative to Europe since the Upper Trias. During the Mesozoic, eastern Sicily was affected by extensional tectonics with associated alkali basaltic volcanism, and oceanic crust was produced in the meantime between the diverging African and European plates. Near the end of Mesozoic times the two plates started to converge with consequent consumption of oceanic crust. Different times of oceanic plate consumption along the Sicily-Calabria section of the plate boundary are suggested by the occurence of andesitic volcanism of different ages. The tectonic significance of late Tertiary to present basaltic activity in eastern Sicily is also discussed.     

Tectono-thermal evolution of middle-south section of the Da Hinggan Mountains

The tectonic settings of the different stages of the magmatic activity in the middle-south section of the Da Hinggan Mts. are analyzed through measuring the isotopic ages of the Mesozoic volcano-plutonic rocks from this area, and thus the tectono-magmatic evolution series are consequently determined as the initial mantle upwelling marked by the Late Triassic invasion of basic-ultrabasic rocks containing mantle-source enclaves, middle-upper crust extension marked by intrusion of the Early-Middle Jurassic diobase dike swarms, dramatic ruption of the Late Jurassic trachitic volcanic rocks, the Early Cretaceous nonorogenic alkalic-subalkalic granite invasion and the formation of the basic dike swarms and basalts. It is thus inferred that the uprise of the Da Hinggan Mts. in the Mesozoic is closely reiated to the upwelling of the deep magma in the mantle upwarping settings. Project supported by the National Natural Science Foundation of China (Grant No. 249472143).     

青海省扎日根结扎群火山岩形成时代及构造背景分析

青海扎日根结扎群火山岩中基性岩以贫硅、钾,高钛、钙,中性岩类以低硅、中钾、钛、钙,酸性岩类以高硅、钾,中钛,低钙为特征。根据Fe＊/MgO-TiO2图解上显示出本区火山岩绝大多数火山岩落在岛弧区。微量元素中Th/Nb=0.9〉0.11,Nb/Zr〉0.04显示出其构造背景为陆-陆碰撞形成的岛弧区。扎日根结扎群火山岩时代Rb-Sr同位素等时线给出的年龄为231±28Ma和225±8 Ma,属晚三叠世。另外Sr同位素的初始比值ISr=0.70522±0.00023,小于0.719,表明岩浆（原始）来源于上地幔,并且在上升的过程中受到地壳的混染。     

下扬子天目山盆地火山岩锆石LA-ICP-MS定年及地质意义

天目山盆地是下扬子江南隆起带保存较完整的中生代火山盆地,中生代火山岩系岩性自下而上主要为流纹岩-英安岩-安山岩。对盆地内黄尖组下段流纹岩和英安岩分别进行了锆石 LA-ICP MS定年,分别获得了133．6±1．5 Ma（MSWD＝0．73）和135．0±2．1 Ma（MSWD＝0．78）的锆石U-Pb年龄,指示天目山盆地黄尖组火山岩时代为早白垩世。天目山盆地火山活动起始时间和长江中下游地区晚中生代火山活动基本一致,说明江南隆起带和长江中下游地区在早白垩世均处于强烈拉张环境。     

Petrogenesis and geodynamic significance of the Ganhe Formation lavas,eastern Great Xing'an Range,China: Evidence from geochemistry and geochronology

Mesozoic volcanic rocks are widespread throughout the Great Xing'an Range of northeastern China. However, there has been limited investigation into the age and petrogenesis of the Mesozoic volcanics in the eastern Great Xing'an Range. According to our research, the volcanic rocks of the Dayangshu Basin, eastern Great Xing'an Range are composed mainly of trachybasalt, basaltic andesite, and basaltic trachyandesite, with minor intermediate–basic pyroclastic rocks. In this study, the geochemistry and geochronology of the Mesozoic volcanic rocks are presented in order to discuss the petrogenesis and tectonic setting of the Ganhe Formation in the Dayangshu Basin. Zircon U–Pb dating by laser ablation inductively coupled plasma–mass spectrometry indicates that the Mesozoic lavas formed during the late Early Cretaceous (114.3–108.8 Ma). This suite of rocks exhibits a range of geochemical signatures indicating subduction‐related genesis, including: (i) calc‐alkaline to high‐K calc‐alkaline major element compositions; (ii) enrichment of large ion lithophile elements (e.g. Rb, Ba, K) and light rare earth elements (LREEs/HREEs =7.33–9.85); and (iii) weak depletion in high field strength elements (e.g. Nb, Ta, Ti). Furthermore, Sr–Nd–Pb isotopic data yield initial ⁸⁷Sr/⁸⁶Sr values of 0.70450–0.70463, positive ε_Nd(t) values of +1.8 to +3.3, and a mantle‐derived lead isotope composition. Combined with the regional tectonic evolution, the results of this study suggest that the Ganhe Group lavas are derived from decompression melting of a metasomatized (enriched) lithospheric mantle, related to asthenospheric upwelling, which resulted from lithospheric mantle delamination and produced extension of the continental margin following the subduction of the Paleo‐Pacific Plate.     

Geochemical characteristics of Bikou volcanic group and Sr-Nd-Pb isotopic composition: Evidence for breakup event in the north margin of Yangtze plate,Jining era

The geodynamic setting of the Bikou volcanic group is a critical question to trace the Precambrain tectonic framework and evolution for the Yangtze plate. This study has suggested that the Bikou volcanic group is composed of several residual oceanic crust units: MORB (mid-ocean ridge basalt), Alk-OIB (alkaline ocean island basalt) and Th-OIB (tholeiitic ocean island basalt) as well as subduction-related volcanic rocks. According to field observation, those distinct rocks occurred collectively in form of tectonic contact, implying that the Bikou volcanic group was an ophiolitic mélange. Coupled with geochronological data, a perished oceanic basin at the northern margin of the Yangtze block during Neoproterozoic was tested by this ophiolitic mélange. Meanwhile, the isogeochemical data suggest that the ocean occurred in the Southern Hemisphere identical to Indian, South Atlantic and South Pacific oceans in terms of their Dupal anomalies, and the original source of the rocks could be probably mixing by EMI and EMII component caused by dehydration melting of subducting oceanic crust during subduction process. On the basis of geochemical characteristics of the studied rocks, the Bikou volcanic group could imply that a partial breakup event occurred in the northern margin of Yangtze plate during the Neoproterozoic era.

     

Early Oligocene alkaline lamprophyric dykes from the Jandaq area (Isfahan Province,Central Iran): Evidence of Central–East Iranian microcontinent confining oceanic crust subduction

The Jandaq lamprophyres occur as eight mostly parallel dykes, which cross‐cut Eocene volcanic and sedimentary rocks of the Pis‐Kuh Formation in dominant north to south direction. These lamprophyres are mainly composed of kaersutite, clinopyroxene, olivine, feldspar, ilmenite, and spinel as primary minerals. The rocks studied here are enriched in alkalis, TiO₂, large ion lithophile elements, and light rare‐earth elements (LREE), with SiO₂ content between 41.7 and 46.2 wt%, and are classified as camptonite and alkaline lamprophyre according to the mineralogical and chemical characteristics. These rocks exhibit positive Eu anomalies (Eu/Eu* = 1.08–1.39) and are characterized by strong enrichment in LREE relative to heavy REEs, and also by varied Zr/Hf ratios. The geochemical features of the rocks suggest that the lamprophyre magmas were derived from low‐degree melting of an amphibole garnet lherzolite that experienced strong metasomatism by carbonate‐rich fluids in response to dehydration melting from the subducted slab. The Jandaq lamprophyric magmatism has been attributed to the former subduction of the Central–East Iranian microcontinent confining oceanic crust from the Triassic to Eocene, and decompression melting induced by the extensional basin of the Jandaq area in the early Oligocene.     

Geotectonic settings of miocene-quaternary volcanism in and around the eastern Tyrrhenian sea border (Italy) as deduced from major element geochemistry

The volcanic rocks along the south-eastern and eastern Tyrrhenian border of Italy have been classified as converging plate margin magma types by using discriminant functions based on major element patterns. These rocks belong to calc-alkaline and shoshonitic associations (shoshonites, and predominant leucitic rocks) ranging in age from Upper Miocene to, mostly, Quaternary. According to the same method of classification, the remaining Italian volcanic rocks — alkali-sodic and subordinate tholeiitic basalts — around the Tyrrhenian border are found to be rocks of the tensional type of Mesozoic to prevailingly Quaternary age. The volcanic materials of the 650 km long SE and E Tyrrhenian border can be related to the convergence of the African-Adriatic and Tyrrhenian plates.     

青藏高原冈底斯带及邻区重磁三维反演及岩浆岩特征研究

岩浆岩在青藏高原的大陆动力学研究中有着重要的作用,它既是构造演化的记录,又是重要构造-岩浆-成矿带的指示.本文主要基于冈底斯带及邻区的地面重力和航磁数据,首先进行地质-地球物理先验信息约束下的重磁2.5维交互式反演,再将2.5维反演结果作为参考模型加入到三维反演计算中,得到地下三维密度和磁化率结构.结合岩浆岩密度、磁化率统计资料和岩浆岩地球化学成果,推断研究区基性岩、I型花岗岩和S型花岗岩的三维分布图,得到如下结论:S型花岗岩主要分布在冈底斯东带和冈底斯弧背断隆带以北;北冈底斯的西部无明显的岩浆活动,而在其南侧和北侧,发现大量的隐伏基性岩和零散分布的I型花岗岩;中生代I型花岗岩在南冈底斯和冈底斯弧背断隆带广泛分布,且到新生代才出现大量的S型花岗岩.上述结果为中生代班公湖—怒江洋壳和新特提斯洋壳的双向剪刀式俯冲模式的观点提供了重要佐证,并认为班公湖—怒江洋壳在北冈底斯西部约84°E—88°E的范围内先后存在向北和向南俯冲的可能,北向羌塘地体下俯冲,南向冈底斯地体下俯冲.     

Material records for Mesozoic destruction of the North China Craton by subduction of the Paleo-Pacific slab

It is well known that the destruction of the North China Carton(NCC) is closely related to subduction of the PaleoPacific slab, but materials recording such subduction has not been identified at the peak time of decratonization. This paper presents data of whole-rock major and trace elements and Sr-Nd-Hf isotopes and zircon U-Pb ages and Hf-O isotopes for Mesozoic volcanic rocks from the Liaodong-Jinan region in the northeastern NCC, in order to trace the subduction-related materials in their source and origin. The Mesozoic volcanic rocks in the Liaodong-Jinan region are mainly composed of two series of rocks, including alkaline basaltic trachyandesite, trachyandesite and trachyte, and subalkaline trachyandesite and andesite. Zircon U-Pb dating yields eruption ages of 129–124 Ma for these rocks. The Early Cretaceous volcanic rocks are all enriched in LILEs(such as Rb, Sr, Ba and Th) and LREEs, depleted in HFSEs(such as Nb, Ta and Ti), indicating that they were originated from mantle sources that had been modified by subducted crustal materials. However, they have relatively heterogeneous and variable isotopic compositions. The alkaline basaltic trachyandesite, trachyandesite and trachyte have enriched whole-rock Sr-Nd-Hf and zircon Hf isotopic compositions and mantle-like δ~(18)O values, suggesting that they were derived from low-degree partial melting of an isotopically enriched lithospheric mantle source. In contrast, the subalkaline trachyandesite and andesite have relatively depleted isotopic compositions with zircon ε_(Hf)(t) values up to +5.2 and heavy zircon O isotopic compositions with δ~(18)O values of +8.1‰ to +9.0‰, indicating that they were originated from a lithospheric mantle source that had been metasomatized by melts/fluids derived from the recycled low-T altered oceanic basalt. All of these geochemical features suggest that the Early Cretaceous volcanic rocks in the Liaodong-Jinan region would result from mixing of mafic magmas with different compositions. Such magmas were originated from the enriched lithospheric mantle and the young metasomatized mantle, respectively, with variable extents of enrichment and depletion in trace elements, radiogenic isotopes and O isotopes. Importantly, the identification of the low-T altered oceanic crust component in the origin of Early Cretaceous volcanic rocks by the zircon Hf-O isotopes provides affirmative isotopic evidence and direct material records for Mesozoic subduction of the Paleo-Pacific slab that induced decratonization of the North China Craton.