扬子板块俯冲加积杂岩的初步研究

根据大别—苏鲁造山带浅变质岩系的地质产状,本文将其与高压—超高压岩石一起作为大陆板块俯冲的加积杂岩来考虑,发现它们在岩石类型、变质时代和原岩性质等方面具有一定的可比性,因此可看作为扬子板块大陆俯冲的加积杂岩。由此根据板块俯冲的加积楔模型,对浅变质岩系的形成和演化过程进行了地球动力学解释,结果对扬子板块俯冲及其与华北板块碰撞的俯冲带和缝合带位置提供了制约。     

东秦岭回龙湾强应变带及其地质意义

东秦岭二郎坪群和石界河群之间发现了一条强应变带（称之为回龙湾强应变带）,呈ＮＮＷ—ＳＳＥ向延伸,面理置换强烈,韧性剪切变形特征明显,糜棱岩发育。该强应变带的发现表明,二郎坪群和石界河群之间既非不整合接触,也不是整合接触,而是断层接触关系。结合原岩建造、沉积环境和变质作用特征,作者认为二郎坪群和石界河群之间并非简单的地层学上的上下关系,而是两个近乎同时异地的变质地质体。     

黔东南变质碎屑岩型金矿找矿前景分析

黔东南天柱-锦屏-黎平金成矿区,位于中国江南古陆变质碎屑岩型金矿成矿带的西端,采金历史悠久,但勘查研究程度不高,小型矿床点星罗棋布却未发现大型矿床。研究认为,黔东南金矿工业类型与韧性剪切带有关,主要为石英脉型和构造蚀变岩型,可能存在产状平缓的蚀变糜棱岩型;从成矿条件、成矿规律、成矿特征等方面分析,黔东南金矿勘查很有前景。     

PRESSURE GRADIENT FROM THE CONTRIBUTION OF BOTH GEOTHERMAL AND GRAVITY IN THE LITHOSPHERE

1 Introduction The pressure, a scalar quantity, is defined as P = F/S (F is force, S is the area for F) which can be widely used for both solid and fluid. The formula P = g ρh (g-gravitation acceleration,ρ-density, h-depth) is only used for even density static solid and fluid. The delivery of pressure in the fluid follows the law of Pascal, and the average pressure of uneven density fluid can be calculated with the formula of P = g ρh. The temperature influence on pressure is notHU Ba…     

大别-胶南高压地体变质杂岩中流体包裹体特征和形成的热动力条件

在中国陆内南北板块之间古缝合线内大别-胶南高压地体中。分布着一套变质程度不一的杂岩系,我们将其划分出三期高峰变质作用形成的不同性质变形变质岩相带,并阐述了各自所代表的矿物流体包裹体特征,计算出它们形成时的温度、压力、氧逸度、差异应力等热动力参数,为揭示地体变形变质环境和构造演化特点,提供了可靠(?)数值根据。     

THE METAMORPHIC FEATURE,AGE AND MECHANISM OF AMUGANG GROUP IN NORTHERN TIBET

THE METAMORPHIC FEATURE,AGE AND MECHANISM OF AMUGANG GROUP IN NORTHERN TIBET     

Ages of Lueliang Group and Its Metamorphism in Mt.Lueliang Region,Shanxi Province：Evidence form Single Grain Zircon U—Pb Dating

Presented in this paper are the newly obtained grain zircon U-Pb ages of volcanic rocks of the Lueliang Goup and associated Kuanping granitic migmatitic gneiss in Shanxi Province.The zircon U-Pb ages of bimodal volcanic rocks(basalt and rhyolite)of the Upper Lueliang Group indicate that the rocks erupted at about 2100 Ma.So the Lueliang Group was formed during the Early Proterozoic.In the area studied the second-stage metamorphism experienced by the Lueliang Group is the dominant one which took place at about 1806 Ma.i.e.,during the late Early Proterozoic.     

内蒙古胜利煤田共生锗矿的成因地球化学初探

用统计和作图的分析方法,对内蒙古胜利煤田中共生锗矿床的锗品位与挥发分、灰分、硫分的关系进行了研究。结果表明煤中锗品位与挥发分呈正相关、与原煤灰分负相关、与洗煤灰分正相关关系;全区煤属中硫煤,锗品位与原煤和洗煤硫分均呈正相关关系,煤的灰分指数较低(3 579);锗分布不均匀,富锗煤矿明显属于断裂坳陷边缘沉积,锗品位可以在煤层的顶部、中部、底部同时或单个部位呈现高值,大多数煤层中部出现锗高品位值,这有别于以往所报道的锗品位只在煤层顶、底部相对富集的研究结论。认为胜利煤田锗主要与有机质结合;锗的有利聚集条件是水动力较弱、地下水位较低、强还原的停滞沼泽环境;泥炭聚集阶段有机质的吸附作用是锗的主要富集机制。     

Prograde amphiboles in hematite-bearing basic and quartz schists in the Sanbagawa belt, central Shikoku: relationship between metamorphic field gradient and P-T paths of individual rocks

The prograde amphibole that coexists with chlorite, epidote, muscovite, albite, quartz and hematite in Sanbagawa schists was examined to investigate the relationship between the prograde P-T paths of individual rocks and the metamorphic field gradient in the Sanbagawa metamorphic belt, central Shikoku. The amphibole changes from actinolite, through ferri-winchite and crossite, to barroisite and hornblende with increasing grade along the metamorphic field gradient. However, the sequence of prograde amphibole compositions in each sample varies in different mineral zones. The general scheme can be summarized as: magnesioriebeckite-riebeckite crossite in the upper chlorite zone of lower-grade rocks; crossite or glaucophane barroisite in the garnet zone of medium-grade rocks; and actinolite or winchite barroisite hornblende in the albite-biotite zone of higher-grade rocks. Changes of amphibole composition indicate that the prograde P-T path recorded in the higher-grade rocks was situated on the higher-temperature side of that of the lower-grade rocks and on the lower-pressure side of the metamorphic field gradient. The systematic change of P-T paths implies an increasing d P /d T during continuous subduction. These features can be interpreted as documenting prograde metamorphism within a young subduction zone that has a non-steady-state geotherm.     

相山铀矿田变质基底的变质作用期次

相山铀矿田的变质基底,自晋宁期以来经历了长期而复杂的变质变形演化历史,至中生代为止,共经历了4个期次变质作用的叠加改造:中元古代区域热动力变质作用,中元古代后的热接触变质作用,中生代动力变质作用,中生代晚期的热接触变质作用.多期次变质作用的叠加改造,反映了本区自元古宙以来一直是一处地热异常区.相山地区铀成矿期的成矿作用,是一系列构造-岩浆-变质作用叠加的结果.