乍得BS油藏沉积微相特征及对油气分布的控制作用

结合区域沉积背景,应用BS1-1取心井资料进行泥岩颜色、岩石组合、沉积结构、构造、粒度分布、沉积韵律等相标志分析,对BS油藏沉积微相特征进行了深入研究,分析了沉积微相对油气分布的控制作用。BS油藏PI油层组为扇三角洲前缘远端沉积,水下分流河道分布范围有限,仅在断层附近发育,河道前端受湖浪作用改造明显,前缘席状砂发育,偶见远砂坝,河道间微相不发育。沉积微相类型控制了储层类型及其展布方式和储集性能,沉积微相展布对油气分布具有明显的控制作用,水下分流河道生储盖组合良好,为油气有利富集相带。     

Geological, geochemical characteristics and isotope systematics of the Longqiao iron deposit in the Lu-Zong volcano-sedimentary basin, Middle-Lower Yangtze (Changjiang) River Valley, Eastern China

The Middle-Lower Yangtze (Changjiang) River Valley metallogenic belt is located on the northern margin of the Yangtze Craton of eastern China. Most polymetallic deposits in the Changjiang metallogenic belt are clustered in seven districts where magmatism of Mesozoic age (Yanshanian tectono-thermal event) is particularly extensive. From west to east these districts are: E-dong, Jiu-Rui, Anqing-Guichi, Lu-Zong, Tong-Ling, Ning-Wu and Ning-Zhen. World-class iron ore deposits occur in the Lu-Zong and Ning-Wu ore clusters, which are mainly located in continental fault-bound volcanic-sedimentary basins. One of these deposits is the Longqiao iron deposit, discovered in the northern part of the Lu-Zong Basin in 1985. This deposit consists of a single stratabound and stratiform orebody, hosted in sedimentary carbonate rocks of the Triassic Dongma'anshan Formation. A syenite pluton (Longqiao intrusion) is situated below the deposit. The iron ore is massive and disseminated and the ore minerals are mainly magnetite and minor pyrite. Wall rock alteration mostly consists of skarn minerals, such as diopside, garnet, potassic feldspar, quartz, chlorite, phlogopite and anhydrite. Thin sedimentary siderite beds of Triassic age occur as relict laminated ore at the top and the margin of the magnetite orebody. These sideritic laminae are part of Triassic evaporite-bearing carbonate deposits (Dongma'anshan Formation).Sulfur isotopic compositions show that the sulfur in the deposit was derived from a mixture of magmatic hydrothermal fluids and carbonate–evaporite host rocks. Similarly, the C and O isotopic compositions of limestones from the Dongma'anshan Formation indicate that these rocks interacted with magmatic hydrothermal fluids. The O isotopic compositions of the syenitic rocks and minerals from the deposit show that the hydrothermal magnetite and skarn minerals were formed from magmatic fluids. The Pb isotopic compositions of sulfides are similar to those of the Longqiao syenite. Phlogopite coexisting with magnetite in the magnetite ores yielded a plateau age of 130.5 ± 1.1 Ma (2σ), whereas the LA-ICP MS age of the syenite intrusion is 131.1 ± 1.5 Ma, which is slightly older than the age of phlogopite.The Longqiao syenite intrusion may have crystallized from a parental alkaline magma, generated by partial melting of lithospheric mantle, during extensional tectonics. The ore fluids were probably first derived from magma at depth, later emplaced in the sedimentary rocks of the Dongma'anshan Formation, where it interacted with siderite and evaporite-bearing carbonate strata, resulting in the formation of magnetite and skarn minerals. The Longqiao iron deposit is a skarn-type stratabound and stratiform mineral system, genetically and temporally related to the Longqiao syenite intrusion. The Longqiao syenite is part of the widespread Mesozoic intracontinental magmatism (Yanshanian event) in eastern China, which has been linked to lithospheric delamination and asthenospheric upwelling.     

Geodynamic constraints on orebody localization in the Anqing orefield, China: Computational modeling and facilitating predictive exploration of deep deposits

The Anqing Fe–Cu skarn deposit, with an age of 134 to 142 Ma and resources of 62.4 Mt at 0.906% Cu and 32.2% Fe, is one of the most important deposits in the Yangtze River Metallogenic Belt, East China. To better understand the localization of orebodies and thus facilitate predictive exploration of deep orebodies, computational modeling is used to simulate the coupled geodynamic processes during the syn-tectonic cooling of the ore-related intrusion, based on geological and geophysical investigations in the Anqing orefield.The occurrences of the ore veins and veinlets in diorite and skarn, as well as the sharp zigzag boundary of the orebody, indicate that the Cu ores were deposited after the solidification of the diorite and skarn formation, and were located in some tensional structural spaces that are unevenly distributed along the contact zone between the felsic intrusion and sedimentary carbonates. The locations of orebodies are closely associated with the contact zone shape. The computational results of two models with two typical contact-shapes show that pore fluid flow was focused into the dilation zones from different sources. All the significant dilation zones, in which the existing orebodies were located, are distributed in some specific places of the south contact zone of the intrusion. In addition, these dilation zones are closely related to the contact zone shape of the intrusion and can control the location of orebodies through the coupled mechano-thermo-hydrological processes during cooling of the intrusion in the extension setting. The skarns are not critical for controlling the localization of orebodies. This means that exploration for deep ore should target deep dilation zones close to the contact boundary of the intrusion. Such recognition may provide a useful guide in selecting exploration targets in the Anqing orefield. As a direct result of computational modeling, an orebody has been discovered in the deep dilation zone in this orefield. It demonstrates that computational modeling is a promising tool for understanding the metallogenic processes and for facilitating the deep exploration of hidden orebodies that are related to intrusions.     

云南澜沧老厂多金属矿床矿石类型及其成因探讨

云南澜沧老厂是三江成矿带南段最重要的铅锌铜钼多金属矿床之一.根据不同的赋矿特征、含矿岩性、矿石构造及成矿元素将澜沧老厂多金属矿床矿石类型系统地划分为铅锌硫化矿石、铅锌氧化矿石、颗粒状含铜黄铁矿石、块状含铜黄铁矿石、夕卡岩型矿石及斑岩型钼矿石6种类型.矿体产状、微量元素地球化学、年代学证据均表明铅锌硫化矿石、颗粒状含铜黄铁矿石及块状含铜黄铁矿石为火山喷流沉积型成因（VMS型）,而铅锌氧化矿石、夕卡岩型矿石及斑岩型钼矿石为斑岩热液型成因.其中,铅锌硫化矿石、颗粒状含铜黄铁矿石及块状含铜黄铁矿石的主控矿因素为地层;铅锌氧化矿石为构造;夕卡岩型矿石为岩性;斑岩型钼矿石为岩体.     

江苏溧水马占山铜多金属矿床成矿特征及成因

马占山铜多金属矿床位于溧水盆地曹王山—爱景山多金属矿（化）带的南段,矿脉产于上侏罗统大王山组一套黑云母石英粗安岩、粗安质角砾凝灰熔岩等火山岩中,矿石类型有石英脉型黄铜矿石（金矿石）、方解石脉型黄铜矿石、石英重晶石脉型黄铜矿石、细脉型黄铜矿石、方解石脉型黄铁矿石、石英脉型黄铁矿石、石英重晶石脉型方铅矿石等。对马占山铜多金属矿床进行野外调查和室内研究结果表明：中至偏碱性的火山岩为主要成矿围岩,成矿热液与粗安岩两者可能是同一岩浆源的不同衍生物,Cu元素在研究区上、中侏罗统大王山组上段及龙王山组等火山岩中的含量明显高于地壳克拉克值,可为成矿提供物质来源;矿脉主要受控于区内近EW向构造破碎带,并与其产状一致;成矿期的石英、重晶石流体包裹体研究表明,成矿流体为无CO2的中低温低盐度NaCl-H2O流体,温度介于134～250 ℃之间,集中于200～230 ℃,盐度w（NaCl）介于0.9%～6.7%之间,集中于4%～5%;流体演化趋势为由较高温、较高盐度的流体向低温及低盐度流体演化。综上认为,马占山铜金矿床属于典型的浅成中低温热液矿床。     

黔西北福来厂铅锌矿床构造成生发展及其控矿作用

福来厂铅锌矿床位于黔西北垭都—蟒硐铅锌成矿带西南部,夹持于天桥与猫猫厂两个铅锌矿床之间,矿床（体）分布严格受构造控制。运用矿田地质力学理论和方法,对福来厂铅锌矿区进行大比例尺构造剖面精测和典型的控矿构造力学性质鉴定以及不同方向断裂、褶皱构造筛分,研究认为自印支晚期—喜马拉雅期以来该区主要经历了三期构造活动,其主压应力方向分别经历了北西向→北东向→近东西向的转变过程,认为矿床的导矿、配矿、容矿构造分别为矿区棋盘格式构造、北东向断裂（倾向北西）与北西西向断裂及其下盘背斜翼部的层间断裂带,此外,矿区存在北西向（倾向北东）破矿构造,明显切割、错移矿体,控制着矿体的空间定位。综合上述,文章在总结了构造控矿规律的基础上,建立了该矿床成矿构造体系,为找矿勘查和矿床成因研究奠定了基础。      

藏南马扎拉金-锑矿床:成矿流体性质和成矿物质来源

马扎拉金-锑矿床是藏南巨型金-锑成矿带的重要组成部分,其矿床成因目前仍存在不同认识.通过主要矿石和蚀变围岩的岩相学、矿相学、流体包裹体和稳定同位素分析,探讨了马扎拉金-锑矿床的成矿流体性质、矿质迁移和沉淀机制.结果表明,马扎拉金-锑矿床成矿流体主要来自岩浆水,主成矿期流体为中温(约255℃)、低盐度(2.8%~3.5%NaCleqv)、富CO2流体,成矿压力约150 MPa,流体演化过程中的CO2与水的不混溶是造成矿质沉淀的主要原因,成矿金属主要来源于地层,特别是区域广泛分布的海相火山岩地层.     

中国西北地区北部蚀源区铀含量特征及其地质、成矿意义

中国西北地区北部主要盆地蚀源区包括银额盆地周缘、北山盆地群周缘、三塘湖盆地周缘、准噶尔盆地周缘,主体位于中亚构造域中西部南缘(部)或与之毗邻区。通过对研究区1 416件中性、酸性及碱性岩浆岩样品的年龄和铀含量数据进行分区统计处理,计算其在地史上的铀迁移量和古铀含量,结果显示,研究区岩浆活动主要发生在早石炭世-早三叠世(349~248 Ma),其次在中奥陶世-早泥盆世(470~396 Ma)。这分别与古亚洲洋开始俯冲消减(O2S1)和最终关闭、中亚-蒙古碰撞褶皱带形成(C-T1)的大地构造演化阶段及重大事件相对应。各区富铀岩石主要形成于早石炭世-早三叠世(334~250 Ma),其与晚古生代岩浆活动具有时间上的一致性。在地域上, 两者有从西向东时代变新的趋势。这亦与古亚洲洋关闭、中亚构造域形成西早东晚的演化特征相一致。各蚀源区岩石的铀含量不尽相同,综合对比和评价表明：北山柳园区、准噶尔盆地东北缘阿勒泰-蕴都地区和东南部清河地区岩石铀含量与宗乃山区铀含量相当或更富;准噶尔盆地东北缘卡拉麦里区岩石铀含量偏富;银额盆地南缘雅布赖山、巴彦诺日公及庆格勒地区及其北部的沙拉扎山区,北山盐滩及马鬃山区,三塘湖盆地周缘,以及准噶尔盆地东北缘的阿勒泰西北区和西缘的北部区铀含量中等;其他地区铀含量相对较贫。研究区现今富铀蚀源区的大部地区,在晚三叠世开始隆升,此后进一步发展,为邻近中新生代盆地提供了丰富的沉积物和铀物质,成为相邻中新生代陆相盆地砂岩型、煤岩型及泥岩型铀矿床的主要成矿物质来源;盆内深部烃源岩层富含铀元素,可降低烃源岩的生烃门限温度并增加烃源岩生烃总量,具有重要的地质、成矿意义。     

湖南铲子坪金矿床地质特征及成因

湖南铲子坪金矿床位于雪峰弧形构造带西南段,是雪峰-金山巨型弧形推覆剪切金锑钨成矿带的重要组成部分,形成于碰撞或后碰撞地质背景下的走滑和逆冲构造事件中.文章通过总结前人系统的硫、铅、氧、氢同位素地球化学特征及成矿时代的研究,并进行了成矿流体特征的研究,在此基础上探讨了铲子坪金矿的成矿物质来源.研究结果显示,铲子坪金矿床矿石略富轻硫,具典型的岩浆硫+变质岩混合硫源特征,铅为壳幔混合铅,主要来自造山带.成矿期流体包裹体均一温度范围主要为140~220℃和260~300℃,盐度w(NaCleq.)范围主要为4%~10%和20%~24%,具有两个阶段成矿的特征,成矿流体为中低温、中低盐度、H2O-CO2-NaCl流体体系,存在流体沸腾现象,成矿流体主要来源于岩浆水,同时有大气降水的加入.成矿物质和成矿流体的来源为地层变质岩叠加印支期的岩浆作用.通过综合分析,初步认为铲子坪金矿床与造山型金矿相似,但具有一定特殊性.     

安徽池州地区下蜀组沉积环境及成因探讨

采用磁化率、黏土矿物测试及粒度分析等手段,结合区域第四纪地质特征,从气候演变和岩相古地理等角度探讨了安徽池州地区下蜀组的沉积环境及成因.该区下蜀组磁化率曲线呈波峰、波谷旋回特征;黏土矿物以伊利石为主,个别层位以蒙脱石、高岭石、绿泥石为主;粒度以粉砂为主,个别层位以粉砂及中粗砂为主.下蜀组沉积期间存在多次寒冷干燥到温暖潮湿的气候转换,整体为寒冷干燥气候的风成沉积,受古地理位置影响,沿江局部地区夹温暖潮湿气候条件下的长江水系冲积沉积.