招-莱地区金矿主要控矿条件及找矿问题

招－莱地区金矿的主要控矿条件可以用“一个背景双重控矿”来概括。“一个背景”指新太古界胶东群变质岩系构成的区域成矿地质背景，以黑云变粒岩、斜长片麻岩和斜长角闪岩为主的古变质岩系为该区的主要矿源层，并为金的成矿提供了丰富的物质基础。“双重控矿”指花岗岩形成作用和断裂作用对该区金成矿的严格控制。从工业成矿的角度看，为该区金成矿更为直接和重要的控制因素。招－莱地区金矿也是中生代地洼构造－岩浆作用成矿的典型例子。     

准噶尔西北缘前陆冲断带三叠纪-侏罗纪逆冲断裂活动的沉积响应

笔者从冲断活动的产物———各种成因扇体(冲积扇、水下扇、扇三角洲)出发,由160口单井剖面、15条联井剖面、8个层位平面渐次展开了准噶尔西北缘前陆冲断带三叠—侏罗纪逆冲断裂活动的沉积响应研究。三叠纪扇体在乌尔禾—夏子街地区发育叠置程度最好,T1b到T3b,其由盆内向盆缘老山方向退缩迁移明显,并具T1b到T2k1由盆缘向盆内、T2k2到T3b由盆内向盆缘迁移的2个进退波动变化。侏罗纪扇体在八道湾组最为发育,总体叠置关系较差,J1b到J2t,均呈由盆内向盆缘老山退缩沉积的退覆式迁移特征。三叠纪到侏罗纪,总体为由强到弱的退覆式冲断活动及扇体迁移模式,即随主要同生控扇断裂分布由盆缘向老山方向退缩迁移,冲断活动强度由盆缘向盆地方向逐渐减弱直至停息;相应地,各期扇体平面上分布规模渐小,总体呈由盆内向盆缘老山退缩迁移的沉积响应,两者耦合性良好。各类扇体的沉积分布受不同时期同生断裂活动的严格控制,其时空叠置及迁移规律的差异是红山嘴—车排子、克拉玛依—百口泉及乌尔禾—夏子街各构造带冲断作用地域性及作用强度差异性的沉积响应。进而引入“活动性指数”的概念与方法,对前陆冲断带同生断裂的冲断活动强度进行了定量化统计分析,并根据冲断推覆事件的地层、沉积标识划分出T1b-T3b、J1b-J2x、J2t三套构造层序,识别出三叠—侏罗纪的3个逆冲推覆幕、6次逆冲推覆事件。     

油气“穿断运移”模式、评价方法与应用——以珠江口盆地恩平凹陷为例

断层对油气藏的控制作用体现在油气藏的形成和演化过程中断层输导油气和封堵油气的双重作用。究竟起哪种作用主要取决于断层不同部位、不同层段封堵能力和输导能力的差异性。本文基于珠江口盆地恩平凹陷大量断层圈闭油藏的实际钻井资料,从断层活动速率、生长指数、泥岩涂抹因子(SSF)、断层泥比率(SGR)等角度建立了油气"穿断运移"模式和定量评价方法。指出对于恩平凹陷新近系圈闭而言,当控圈断层粤海组沉积期的活动速率<10m/Ma或生长指数<1.1、SSF>1.8~2.1或SGR<0.35~0.42时,油气能够横穿断层运移。基于这项研究,预测了恩平凹陷北部隆起带A1、A3、A4和南部隆起带A20等构造控圈断层的侧向开启部位和层段,推动了多个构造的钻探和3个商业油田的发现,证实了油气"穿断运移"模式和评价方法的准确性和适用性,对具有类似地质特征的地区具有良好的理论指导和实践价值。     

二连盆地吉尔嘎朗图凹陷下白垩统赛汉塔拉组层序地层及聚煤特征

二连盆地吉尔嘎朗图凹陷是一个陆相断陷聚煤盆地,下白垩统赛汉塔拉组是其主要含煤地层,作者利用岩心、钻孔资料对其岩相类型、沉积相、层序地层及聚煤作用特征进行研究。(1)赛汉塔拉组主要由砂砾岩、砂岩、粉砂岩、泥岩、碳质泥岩及厚层褐煤组成,发育扇三角洲平原相、扇三角洲前缘相、辫状河三角洲平原相、辫状河三角洲前缘相、滨浅湖相,分别属于扇三角洲沉积体系、辫状河三角洲沉积体系和湖泊沉积体系。(2)识别出2种层序界面:不整合面和下切谷冲刷面,将赛汉塔拉组划分为2个三级层序。从层序Ⅰ到层序Ⅱ,煤层厚度逐渐增大,聚煤作用逐渐增强。(3)在滨浅湖环境下厚煤层主要形成于湖侵体系域早期,在扇/辫状河三角洲环境下厚煤层主要形成于湖侵体系域晚期,煤层厚度在凹陷中部最大,向西北和东南方向均变小。聚煤作用明显受基底沉降作用影响,可容空间增加速率与泥炭堆积速率相平衡,从而形成了区内巨厚煤层。     

STAGES OF THE NEOTECTONIC MOVEMENT IN THE MENYUAN BASIN, QINGHAI PROVINCE

STAGES OF THE NEOTECTONIC MOVEMENT IN THE MENYUAN BASIN, QINGHAI PROVINCE     

Active Faulting Pattern,Present-day Tectonic Stress Field and Block Kinematics in the East Tibetan Plateau

This paper examines major active faults and the present-day tectonic stress field in the East Tibetan Plateau by integrating available data from published literature and proposes a block kinematics model of the region.It shows that the East Tibetan Plateau is dominated by strike-slip and reverse faulting stress regimes and that the maximum horizontal stress is roughly consistent with the contemporary velocity field,except for the west Qinling range where it parallels the striking of the major strike-slip...     

活动走滑断裂上断塞塘沉积特征及其构造含义——以西秦岭北缘断裂带断塞塘为例

活动断裂与地震和地质灾害紧密相关,对与其相关的沉积记录进行研究可以认识其活动习性与规律。通过揭露并分析典型断裂地貌——断塞塘的沉积建造特征,能够帮助识别活动走滑断裂作用的信息。选取青藏高原东北缘的西秦岭北缘断裂带黄香沟段,利用组合探槽对沿其发育的断塞塘及其沉积进行研究,分析其沉积特征,并建立断塞沉积序列。研究发现:断塞塘沉积层序由几个沉积韵律组成,一个沉积韵律组合分为下部的粗粒层与上部的细粒层,粒度下粗上细;粗粒层一般为细砂、粗砂和砾石层,具快速堆积的特征;细粒层均为含炭的粘土、亚粘土和粉砂,具湖塘相沉积的特点。断塞沉积层序是分期的,一个沉积韵律组合是一期断塞作用沉积。分析认为,断塞沉积粗细组合的韵律性结构是断裂周期性活动的产物。这一研究是揭示走滑断裂的构造演化与活动习性,反演断裂走滑活动历史并预测其未来行为的基础。     

Extensional tectonics and sedimentary response of the Early-Middle Cambrian passive continental margin, Tarim Basin, Northwest China

The fact that several half-grabens and normal faults developed in the Lower—Middle Cambrian of Tazhong(central Tarim Basin) and Bachu areas in Tarim Basin,northwest China,indicates that Tarim Basin was under extensional tectonic setting at this time.The half-grabens occur within a linear zone and the normal faults are arranged in en echelon patterns with gradually increasing displacement eastward.Extensional tectonics resulted in the formation of a passive continental margin in the southwest and a cratonic margin depression in the east,and most importantly,influenced the development of a three-pronged rift in the northeast margin of the Tarim Basin.The fault system controlled the development of platform-slope-bathyal facies sedimentation of mainly limestone-dolomite-gypsum rock-saline rock-red beds in the half-grabens.The NW-SE trending half-grabens reflect the distribution of buried basement faults.     

COMPLEXITY AND CHAOTIC DYNAMICS OF ROCK FAULTING

Fault is a complex dynamic system controlled by the coupling of rock texture, reaction, fluid flow, stress, and rock deformation mechanism. A coupled reaction-transport- mechanical dynamic model for fault system is established and described in this paper. An example is presented for the Shuikoushan deposit, Hunan. The results of dynamic simulation indicate that the evolution and magnitude of fracture permeability of different rocks are different, and that faulting can enhance the spatial heterogeneity of rock permeability and facilitate fluid flow and mineralization in local fault zone. The pressure for a fault usually shows a variation mode of aperiodic oscillation with time, which reflects the chaotic behavior of the evolution of a fault.