湖南保靖区块海相页岩气快速钻探技术

湖南保靖页岩气勘查区块黑色页岩沉积发育,是页岩气勘探开发的有利区带。由于储层埋藏深、地层高陡、地层倾角变化大、岩石可钻性差,导致钻井周期长、成本高等问题。钻前对已有的地震、测井、岩心实验等资料的处理和分析,通过优化井身结构、钻头选型、钻具组合优选和中长筒取心等,实现了保靖区块海相页岩气快速钻探。     

华北陆块北缘哈毕力格铀矿床S、Pb同位素组成及对成矿作用的指示

哈毕力格铀矿床位于华北陆块北缘中段,主要受乌兰哈达—猴儿山背斜和区内断裂控制。铀矿化主要产于新太古界乌拉山群第二岩段石英岩中,一直被认为是变质成因铀矿床。在分析该矿床成矿地质背景和矿化特征的基础上,系统研究了矿石与围岩中黄铁矿的硫、铅同位素特征。数据表明,硫同位素组成变化于-4.7‰～12.9‰之间,暗示成矿流体主要来自岩浆热液,同时遭受了地层物质的混染。铅同位素组成(²⁰⁸Pb/²⁰⁴Pb=36.147～42.968,²⁰⁷Pb/²⁰⁴Pb=15.919～34.268,²⁰⁶Pb/²⁰⁴Pb=19.488～168.032)远高于单阶段演化模式组成,不同样品的²⁰⁷Pb/²⁰⁴Pb-²⁰⁶Pb/²⁰⁴Pb线性关系良好,为典型的二阶段铅同位素演化体系,表明变质地层为成矿作用提供了铀源。通过放射性²⁰⁷Pb/²⁰⁶Pb计算,结合区...     

阿拉善地块前中生代构造归属的新认识

阿拉善地块的构造归属长期以来存在争议。我们对阿拉善地块东南部牛首山地区中—晚泥盆世砂岩的物源开展碎屑锆石U-Pb年代学与Hf同位素研究。碎屑锆石U-Pb年龄谱主要分布在5个区间:0.4—0.7 Ga,1.0—1.3 Ga,1.5—1.8 Ga,2.4—2.8 Ga和3.0 Ga,并获得一颗年龄为(4022±17)Ma的冥古宙锆石。2.4—2.7 Ga、3.0 Ga碎屑锆石和它们对应的εHf(t)值明显不同于华北板块同时代碎屑锆石,暗示着阿拉善地块与华北板块中—晚泥盆世并未相连。同时,我们还对地块东部的早石炭世、晚二叠世和早中三叠世地层开展了详细的古地磁研究,获得了相应的视极移曲线。我们结合碎屑锆石年代学和古地磁学研究,提出阿拉善地块前中生代与柴达木—塔里木地块具有亲缘性,而很可能与华北地块分离。印支运动使阿拉善地块相对于华北发生了32度的逆时针旋转,正是这一旋转运动使河西走廊—阿拉善地块最终与华北地块拼合形成了统一地块。     

攀西麻粒岩锆石U—Pb年代学：新元古代扬子陆块西缘地质演化新证据

攀枝花-西昌(攀西)麻粒岩一直被认为是扬子陆块西缘变质程度最高和最古老的结晶基底岩石。最近从麻粒岩中获得的单颗粒锆石U-Pb测年结果表明,攀西麻粒岩的原岩可能形成于古元古代晚期(1870±24 Ma)。17件锆石U-Pb的谐和年龄(858-778 Ma)可能是麻粒岩受新元古代地幔柱活动影响,在快速冷却和抬升过程中发生角闪岩相退变质作用的时代。这一时间正是全球Rodinia超大陆由汇聚转变为裂解地球动力学系统发生改变的重要时期。     

扬子地块西南缘前寒武纪铜多金属矿床及成矿系列

文章在分析扬子地块西南缘与前寒武纪铜多金属矿床成矿特征及与有关的重大地质事件的基础上,研究了区域成矿作用与重大地质事件的响应,划分了区域金属成矿系列,较详细地论述了主要成矿系列的组成及成矿规律,总结了扬子地块西南缘前寒武纪铜多金属矿床及成矿系列。认为本区成矿作用属于多期次成矿,至少可以分为前期预富集作用及两次大的成矿作用(古元古代成矿作用和中元古代成矿作用),以及若干个小的成矿作用;1.7Ga—1.5Ga、1.1Ga—1.0Ga、中新生代是3次规模、强度较大的铜矿成矿作用,形成了研究区内规模较大的诸多铜多金属矿床。     

Dating of detrital zircon grains and fossils from Late Palaeozoic sediments of the Baruo area,Tibet: constraints on the Late Palaeozoic evolution of the Lhasa terrane

ABSTRACT

To determine the Late Palaeozoic evolution of the Lhasa terrane, we report the results of field mapping, petrological and fossil investigations, and U–Pb dating of detrital zircon grains (n = 474) from lower-greenschist-facies clastic rocks of the Lagar Formation in the Baruo area, Tibet. Our results indicate that the Lagar Formation was deposited during the Late Carboniferous to Early Permian in a shallow-marine environment on the northern margin of Gondwana. Glacial marine diamictites are common within the Lagar Formation and record glaciation of Gondwana during the Late Palaeozoic. Moreover, the detrital materials of the Lagar formation originated mostly from the collision orogenic belt. The ages of detrital zircon grains from the Lagar Formation make up five main groups with ages of 410–540 Ma, 550–650 Ma, 800–1100 Ma, 1600–1800 Ma, and 2300–2500 Ma, which display three characteristic age peaks at ~1150, 2390 and 2648 Ma. We tentatively suggest that the Lhasa terrane was a shallow-marine basin under the influence of the Gondwanan glaciation during the Late Carboniferous–Early Permian.     

鄂尔多斯盆地延川南区块深部地应力状态及其对煤层气开发效果的影响

延川南区块煤储层埋深在700～1500 m,多数深于900 m.基于该区块压裂施工压降数据,计算最大、最小水平主应力和垂向应力,划分储层地应力类型,分析了地应力及其类型对渗透率和压裂效果的影响.结果表明,研究区整体处于拉张状态,最大、最小水平主应力和垂向应力与埋深呈正相关线性关系.地应力类型以Ia类为主,III类其次,...     

Joint Inversion of the 3D P Wave Velocity Structure of the Crust and Upper Mantle under the Southeastern Margin of the Tibetan Plateau Using Regional Earthquake and Teleseismic Data

The special seismic tectonic environment and frequent seismicity in the southeastern margin of the Qinghai–Tibet Plateau show that this area is an ideal location to study the present tectonic movement and background of strong earthquakes in mainland China and to predict future strong earthquake risk zones. Studies of the structural environment and physical characteristics of the deep structure in this area are helpful to explore deep dynamic effects and deformation field characteristics, to strengthen our understanding of the roles of anisotropy and tectonic deformation and to study the deep tectonic background of the seismic origin of the block's interior. In this paper, the three-dimensional(3D) P-wave velocity structure of the crust and upper mantle under the southeastern margin of the Qinghai–Tibet Plateau is obtained via observational data from 224 permanent seismic stations in the regional digital seismic network of Yunnan and Sichuan Provinces and from 356 mobile China seismic arrays in the southern section of the north–south seismic belt using a joint inversion method of the regional earthquake and teleseismic data. The results indicate that the spatial distribution of the P-wave velocity anomalies in the shallow upper crust is closely related to the surface geological structure, terrain and lithology. Baoxing and Kangding, with their basic volcanic rocks and volcanic clastic rocks, present obvious high-velocity anomalies. The Chengdu Basin shows low-velocity anomalies associated with the Quaternary sediments. The Xichang Mesozoic Basin and the Butuo Basin are characterised by lowvelocity anomalies related to very thick sedimentary layers. The upper and middle crust beneath the Chuan–Dian and Songpan–Ganzi Blocks has apparent lateral heterogeneities, including low-velocity zones of different sizes. There is a large range of low-velocity layers in the Songpan–Ganzi Block and the sub–block northwest of Sichuan Province, showing that the middle and lower crust is relatively weak. The Sichuan Basin, which is located in the western margin of the Yangtze platform, shows high-velocity characteristics. The results also reveal that there are continuous low-velocity layer distributions in the middle and lower crust of the Daliangshan Block and that the distribution direction of the low-velocity anomaly is nearly SN, which is consistent with the trend of the Daliangshan fault. The existence of the low-velocity layer in the crust also provides a deep source for the deep dynamic deformation and seismic activity of the Daliangshan Block and its boundary faults. The results of the 3D P-wave velocity structure show that an anomalous distribution of high-density, strong-magnetic and high-wave velocity exists inside the crust in the Panxi region. This is likely related to late Paleozoic mantle plume activity that led to a large number of mafic and ultra-mafic intrusions into the crust. In the crustal doming process, the massive intrusion of mantle-derived material enhanced the mechanical strength of the crustal medium. The P-wave velocity structure also revealed that the upper mantle contains a low-velocity layer at a depth of 80–120 km in the Panxi region. The existence of deep faults in the Panxi region, which provide conditions for transporting mantle thermal material into the crust, is the deep tectonic background forthe area's strong earthquake activity.     

Esk Trough—Yarraman Block contact,an unconformity: Its nature and implications for regional tectonics

Detailed field study in southeast Queensland has resulted in the interpretation of an unconformity at the base of the Esk Trough sequence at its contact with the Yarraman Block (Maronghi Creek beds and associated intrusions). Previously this contact had been considered to be faulted. The nature of the unconformity is very variable with the Esk Formation resting on freshly eroded surfaces, on mature palaeosols and on an immature palaeosol. Immediately above the unconformity, the Esk Formation variably comprises scree breccia, fluvial conglomerate and arenite, and alluvial fan conglomerate and arenite. North‐northwest‐south‐southeast‐striking faults are associated with the unconformity. Where the unconformity parallels these faults, it retains a relatively constant character, but where it is cut by these faults, it shows greater variability, a relationship interpreted to result from contemporaneous tectonism. The Glen Howden Fault extends into structurally disturbed areas previously described as ‘fractured anticlines’ and ‘complex anticlines’, which are here interpreted as flower structures and associated features. The south‐southeast extension of the Glen Howden Fault strikes obliquely across the Esk Trough to finally pass into the South Moreton Anticline previously interpreted as a positive flower structure, and resolves structural and stratigraphic observations that previously appeared anomalous. Inferred strike‐slip movement in the Esk Trough resulted from Early to Middle Triassic north‐northwest‐south‐southeast oblique transtension followed by Late Triassic transpression, and similar tectonism probably affected adjacent portions of the Yarraman Block.     

华南陆块岩石圈有效弹性厚度及其构造意义

华南陆块受多阶段超大陆聚合、裂解,碰撞、陆内造山,及伸展等作用影响,造成其深部结构和构造极其复杂。岩石圈有效弹性厚度(Te)是表征地质时间尺度上岩石圈力学强度的定量指标,可为深入认识岩石圈力学结构及演化提供有效约束。本文基于导纳和相关函数联合方法对地壳布格重力异常和地形数据进行计算,获得华南陆块Te的空间分布。Te高值(>20 km)区域主要分布于扬子地块的四川盆地周边区域,而Te低值(<20 km)区域集中于华夏地块和江南造山带区域。由于Te分布特征与地热场、地震关系密切。通过分析研究区Te与地热场(地表热流、居里面深度)、地震之间的关系,本文得到如下认识:(1)Te与地热场参数具有较好的相关性,但受浅部地壳被破坏,深部仍为克拉通地壳影响,导致龙门山断裂带和江南造山带区域的Te与地表热流或居里面深度之间的部分对应关系相反。(2)Te与地震关系复杂,Te较薄区域并不代表着地震频发区域,地震活动性与其所处的深部环境相关。龙门山断裂带强震频发的原因是受周边两块体中上地壳刚性地层长期相互作用,致使应力和能量积累较强;华夏地块区域地震较少是因为深部热物质上涌对华夏地块的壳幔进行强烈...