Characteristics and distribution patterns of reef complexes on the carbonate platform margin in deep water areas:the western South China Sea

As a potential oil and gas reservoir, reef complexes have been a research focus from petroleum geologists for a long time. There are favorable conditions for the development of reef complexes in the South China Sea; however, their internal structures, evolution and distribution are still poorly understood. Based on 2D and 3D seismic data, the internal structures and evolution patterns of the reef complexes on the carbonate platform margin in the deep water areas over the western South China Sea were studied in detail. The result shows that two types of reef complexes, i.e., fault controlling platform margin reef complexes and ramp reef complexes have been developed in the study area. The reef complexes have independent or continuous mound or lenticular seismic reflections, with three internal structures （i.e., aggrading, prograding and retrograding structures）. There are different growth rates during the evolution of the reef complexes, resulting in the formation of catch-up reefs, keep-up reefs and quick step reefs. The study also reveals that different platform margin reef complexes have different internal structures and distributions, because of the different platform types. These results may be applied to the exploration and prediction of carbonate platform margin reef complexes in other areas that are similar to the study area.

Chronology,Geochemistry and Tectonic Settings of the Hadamiao Granodiorite on the Northern Margin of the North China Platform

The Hadamiao granodiorite,located on the northern margin of the North China platform and acting as the country rock of gold deposits in the Hadamiao region,was formed in the same age and similar tectonic settings with the Hadamiao gold deposit and the large-scale Bilihe gold deposit in the same area.By using the LA-ICP-MS method,the U-Pb age obtained is 267±1.3 Ma,which represents the crystallized age of the granodiorite,and that of the xenolithic zircon is 442.8±5 Ma. Base on the main elements,it exhibits the features of calc-alkaline to high-potassium calc-alkaline series,low silicon,and quasi-aluminous I-type granites,and with high magnesium（Mg~#=0.45-0.57） and high sodium contents（Na_2O/K_2O=0.98-2.29）.The SREE values（81.6-110.15 ppm） are relatively low,the fractionations between LREE and HREE are obvious,showing a right-inclined dispersion in the REE distribution diagram.Compared with the primitive mantle,the rock is relatively rich in LREE（La and Ce）,LILE（K,Sr,and Th）,and intensively depleted in HFSE（Ti,P,Nb and Ta）.The ratios of Sr/Y and（La/Yb）_N and the contents of Rb,Nb and Y are relatively low,the Sr values are high （436.35-567.26 ppm）,and the Yb contents of most samples are low（1.25-1.8）,which indicate the features of typical continental margin arc and adakitic rocks.According to the values ofε_（Nd）（t）（-2.4 to ＋0.2） and I_（Sr）（0.7028-0.7083）,and variations of the La/Sm ratios,the Hadamiao granodiorite was formed from mixing of the thickened molten lower crust and the mantle wedge substances.The rock was related to the southward subduction and accretion of the Paleo-Asia Ocean in the Late Paleozoic, being Late Paleozoic magma of the continental margin arc formed on the basement of the Early Paleozoic accretion complexes,and showing a trend of turning into adakitic rocks,which indicates their great metallogenic（Au） potential.

LA-ICP-MS Zircon U-Pb Age of Longtou Syenite body in South Songxian County, Southern Margin of the North China Craton

Objective Indosinian magmatic rocks mainly locate in west Qinling Orogen, which are, however, extremely rare in east Qingling Orogen （Lu Xinxiang, 2000; Zhang Guowei et al., 2001; Guo Xianqing et al., 2017）. The Zhifang Huangzhuang （ZH） area in south Songxian County is located in the southern margin of the North China Craton （Fig. l a）, which is an important lndosinian alkaline magmatic occurrence including 32 syenite bodies and syenitic dykes in east Qinling Orogen. There are five syenite bodes in the ZH area, i.e., the Lang＇aogou, Mogou, Longtou, Jiaogou and Wusanggou from west to east （Fig. l b）.

A New Fauna——Qinghezhen Fauna——from the Northern Margin of the North China Platform

In the Inner Mongolia axis and Jiaoliao anteclise along the northern margin of the North China Platform.it has been found that the strata formerly considered as Archaean and Proterozoic are in fact an ophiolite suitesimilar to the Early Palaeozoic Ondor Sum Group in the Northern Geosyncline region of China. The stratahave been named in northern Liaoning as the Qinghezhen Group. The emphasis of this paper is on the discus-sion of the simall shelly fossils found in the siliceous rocks in the upper part of the Qinghezhen Group. Thisophiolite suite stretches in an E-W direction for about 1000 km along the northern margin of the North ChinaPlatform. in which 15 fossil localities with stable stratigraphic horizons have been discovered. In this paper. 4types. 7 genera (including 5 new ones) and 10 species (including 8 new ones and 1 new subspecies) aredescribed, which are collectively referred to as the Qinghezhen Fauna. The characteristics of these fossils are:shell form simple. the maximum length not exceeding 4 mm. with obvious shell wall and wall ornaments. TheQinghezhen Fauna is comparable in shell structure of some genera and species with the Meishucun Fauna inSouth China, but differs from the latter in having only monotonous fossil groups developed in a distinctly va-ried ecological environment. The two faunas may belong to the same evolutionary stage of the Early Cambrianbut have developed parallelly in different regions. The existence of the Qinghezhen Fauna represents an impor-tant biological event in the Early Cambrian in the Northern Geosyncline region of China. The discovery of theQinghezhen Fauna will bring new knowledge and profound influence to a series of problems on basic geologyand mineral deposit prospecting such as the Cambrian faunas. biogeographical povincialism in China and thegeotectonic features of the northern margin of the North China Platform.

Hydrothermal Mineralization on the Mesoproterozoic Passive Continental Margins of China: A Case Study of the Langshan-Zha'ertaishan Belt,Inner Mongolia, China

Most ore-forming characteristics of the Langshan-Zha'ertaishan hydrothermal exhalation belt, which consists of the Dongshengmiao, Huogeqi, Tanyaokou and Jiashengpan large-superlarge Zn-Pb-Cu-Fe sulfide deposits, are most similar to those of Mesoproterozoic SEDEX-type provinces of the world. The characteristics include: (1) All deposits of this type in the belt occur in third-order fault-basins in the Langshan-Zha'ertaishan aulacogen along the northern margin of the North China Platform; (2) these deposits with all their orebodies hosted in the Mesoproterozoic impure dolomite-marble and carbonaceous phyllite (or schists) have an apparent stratabound nature; ores display laminated and banded structures, showing clear depositional features; (3) there is some evidence of syn-sedimentary faulting, which to a certain extent accounts for the temporal and spatial distribution and the size of the orebodies in all deposits and the formation of intrabed conglomerates and breccias; (4) they show lateral and vertical zonation of sulfides; (5) The Cu/(Pb+Zn+Cu) ratio of the large and thick Pb+Zn+Cu orebodies gradually decreases from bottom to top; and (6) barite is interbedded with pyrites and sometimes with sphalerite. However, some characteristics such as the Co/Ni radio of the pyrites, the volcanism, for example, of the Langshan-Zha'ertaishan metallogenic belt, are different from those of the typical SEDEX deposits of the world. The meta-basic volcanic rock in Huogeqi, the sodic bimodal volcanic rocks in the Dongshengmiao and potassic bimodal-volcanic rocks with blastoporphyritic and blasto-glomeroporphyritic texture as well as blasto-amygdaloidal structure in the Tanyaokou deposits have been discovered in the only ore-bearing second formation of the Langshan Group in the past 10 years. The metallogeny of some deposits hosted in the Langshan Group is closely related to syn-sedimentary volcanism based on the following facts: most of the lead isotopes in sphalerite, galena, pyrite, pyrrhotite and chalcopyrite plot on both sides of the line for the mantle or between the lines for the mantle and lower crust in the lead isotope composition diagram; cobalt content of some pyrites samples is much higher than the nickel content (Co/Ni=11.91-12.19). Some volcanic blocks and debris have been picked out from some pyritic and pyrrhotitic ores. All Zn-Pb-Cu-Fe sulfide orebodies in these deposits occur in the strata overlying metamorphic volcanic rocks in the only ore-bearing second formation. In the Jiashengpan deposit that lacks syn-sedimentary volcanic rocks in the host succession only Pb and Zn ores occur without Cu ore, but in the Dongshengmiao, Tanyaokou and Huogeqi deposits with syn-sedimentary volcanic rocks in the host succession Cu ores occur. This indicates a relatively higher ore-forming temperature. The process of syn-sedimentary volcanic eruption directly supplied some ore-forming elements, and resulted in secular geothermal anomaly favorable for the circulation of a submarine convective hydrothermal system, which accounts for the precipitation of deep mineralizing fluids exhaling into anoxidic basins along the syn-sedimentary fault system in the Langshan-Zha'ertai rift. The Dongshengmiao, Tanyaokou, and Huogeqi deposits hosted in the Langshan Group appear to be a transitional type of mineral deposit between SEDEX and VMS-types but with a bias towards SEDEX, while the Jiashengpan deposit hosted in the Zha'ertai Group is of a characteristic SEDEX type. This evidence, together with other new discoveries of Mesoproterozoic volcanic rocks and the features of lithogeny and metallogeny of the Bayun Obo deposit in the neighborhood emphasize the diversity, complexity and uniqueness of the Mesoproterozoic Langshan-Zha'ertai-Bayun Obo ore belt.

Lithospheric Thermal Isostasy of North Continental Margin of the South China Sea

Accompanied with rifting and detaching of the north continental margin of the South China Sea, the crust and the lithosphere become thinner away from the continental margin resulting from the tectonic activities, such as tensile deformation, thermal uplift, and cooling subsidence, etc.. Integrated with thermal, gravimetric, and isostatic analysis techniques, based on the seismic interpretation of the deep penetration seismic soundings across the northern margin of the South China Sea, we reconstructed the lithospheric thermal structure and derived the variation of the crust boundary in the east and west parts of the seismic profile by using gravity anomaly data. We mainly studied the thermal isostasy problems using the bathymetry of the profiles and calculated the crust thinning effect due to the thermal variety in the rifting process. The results indicate that the thermal isostasy may reach 2.5 km, and the compositional variations in the lithospheric density and thickness may produce a variation of 4.0 km. Therefore, the compositional isostatic correction is very important to recover the relationship between surface heat flow and topography. Moreover, because of the high heat flow characteristic of the continental margin, building the model of lithospheric geotherm in this region is of great importan for studying the Cenozoic tectonic thermal evolution of the north passive continental margin of the South China Sea.

He-Ar isotopic system of fluid inclusions in pyrite from the molybdenum deposits in south margin of North China Block and its trace to metallogenetic and geodynamic background

The helium and argon isotopic compositions of the ore-forming fluids from the molybdenum deposits such as Jinduicheng, Donggou, Shijiawan, and Sandaozhuang, which are located in the East Qinling molybdenum belt in south margin of North China Block (SMCNB), are reported in this paper. The origin and the evolution of the ore-forming fluids and their coupled-relationships with the intra-continental collision and orogenic process of Qinling Orogen in Mesozoic-Cenozoic have been discussed. The 3He/4He and 40Ar/36Ar values (3He/4He=1.38―3.64 Ra, and 40Ar/36Ar=295.68―346.39, respectively) of the fluid inclusions in pyrite from the molybdenum deposits in East Qinling suggest that, the ore-forming fluid system is mixed by two end members. One is the high temperature deep-derived fluid congenetic with the porphyries generated by crust-mantle mixing, and the other is the low-temperature meteoric water which is rich in crustal radiogenic He with the component of atmospheric Ar. From the Pb isotopic composition, and ore-bearing potential of the porphyry and the regional stratum, we can conclude that the ore-forming materials of the deposits in the East Qinling molybdenum belt are derived from the deep source by the mixing of lower crust and upper mantle. Therefore, the formation of the molybdenum deposits in SMNCB can be related to the crust-mantle interaction, which is accompanied by the intra-continental orogenic and extension process in the post-collision period of Qinling Orogen. The granitic porphyries which are related to Mo mineralization are not simple crust-remelting type granites or S type granites, but belong to syntexis-type or mantle-derived granites, hence their formation has a profound and regional geodynamic background.

洛南任家滩—荞麦山正长斑岩成因及其对古元古代晚期裂解的指示——岩石化学及锆石U-Pb年龄和Lu—Hf同位素特征

华北克拉通南缘的陕西洛南—河南豫西地区出露一系列形成于1.8~1.6 Ga的碱性岩,对这些碱性岩的研究有助于提高对华北克拉通南缘古元古代构造环境的认识。笔者等选取陕西省洛南县任家滩—荞麦山一带碱性侵入体进行系统的岩石学、LA-ICP-MS锆石U-Pb年代学、Lu—Hf同位素分析和岩石地球化学研究,讨论了其成因机制和构造背景。研究表明,任家滩—荞麦山岩体的主体岩性为正长斑岩,加权平均年龄为1689±20 Ma(MSWD=0.12),表明其侵位时代为古元古代。该岩体富碱(Na_(2)O+K_(2)O=7.95%~9.5%),高钾(K_(2)O=4.67%~8.51%);稀土元素总量较高(496.15×10^(-6)~650.16×10^(-6),平均543.06×10^(-6)),轻、重稀土元素分馏比较明显,轻稀土元素相对富集(LREE=454×10^(-6)~605×10^(-6)),重稀土元素亏损(HREE=39.3×10^(-6)~45.6×10^(-6)),具有弱负铕异常;K、Rb、Ba、Th富集,Nb、Ta、P、Ti亏损,并且具有明显的Sr负异常。εHf(t)值<0,TDM1值为2038~2218 Ma,TDM2值为2250~2516 Ma,说明岩浆源区物质与富集地幔有关或受到过地壳物质的混染。因此,任家滩—荞麦山岩体是由地幔玄武质岩浆与地壳基底太华杂岩形成的中酸性花岗质岩浆混合后形成的熔体,经强烈的结晶分异作用形成的,其形成于陆内裂谷的构造环境,是华北克拉通南缘对哥伦比亚超大陆裂解事件的响应。

华北克拉通南缘角子山花岗岩的锆石U-Pb定年、岩石地球化学特征及构造背景

角子山岩基是秦岭造山带东端伏牛山余脉规模居第二位的燕山期侵入岩,其岩石成因模型有助于深入认识华北克拉通南缘伏牛山余脉早白垩世酸性岩浆的形成规律和深部构造演化。角子山花岗岩体LA-ICP-MS锆石U-Pb定年样品的30个测点中,18个有效锆石测点的U-Pb年龄集中于(129.5±1.4)Ma(1个)和(116.1±1.4)~(122.2±1.3)Ma(17个)两组,形成了锆石年龄谱,后者的加权平均年龄为(119.3±0.9)Ma。结合前人10个有效锆石测点的U-Pb年龄数据,27颗锆石的加权平均年龄为(118.2±1.2)Ma,代表了角子山花岗岩的形成时代。角子山花岗岩样品具有富Si和碱、贫Ca和Mg的特征,为高钾钙碱性系列岩石,属于准铝质-弱过铝质花岗岩。在微量元素蛛网图中,角子山花岗岩样品显示了Rb、Th及Zr、Hf的正异常和Sr、P、Ti的负异常。角子山花岗岩稀土总量为20.9×10^(-6)~204×10^(-6),(La/Yb)N值为4.24~21.0,δEu值为0.53~0.78,稀土配分模式呈轻稀土富集(右倾平滑)和中、重稀土亏损(近水平)的特征。角子山花岗岩样品的LaN-(La/Yb)N投点显示了正相关关系,表明其成分变异受控于部分熔融作用。角子山花岗岩的部分熔融源残余相包括角闪石、斜长石和金红石,无石榴子石残余,表明它形成于正常厚度地壳,存在深度大致为40~50 km和小于30 km的两个部分熔融岩石源区。角子山花岗岩形成于秦岭早白垩世陆(板)内造山阶段,经历了岩浆/流体混合再活化作用,是~120 Ma区域岩石圈拆沉作用的产物。

南海北缘新生代盆地沉积与构造演化及地球动力学背景

南海北缘新生代沉积盆地是全面揭示南海北缘形成演化及与邻区大地构造单元相互作用的重要窗口。通过对盆地沉积构造特征分析,南海北缘新生代裂陷过程显示出明显的多幕性和旋转性的特点。在从北向南逐渐迁移的趋势下,东、西段裂陷过程也具有一定的差异,西部裂陷活动及海侵时间明显早于东部,裂陷中心由西向东呈雁列式扩展。晚白垩世-早始新世裂陷活动应是东亚陆缘中生代构造岩浆演化的延续,始新世中、晚期太平洋板块俯冲方向改变导致裂陷中心南移,印度—欧亚板块碰撞效应是南海中央海盆扩张方向顺时针旋转的主要原因。

南黄海古生代以来构造演化

南黄海是奠基于下扬子地台前震旦纪变质岩基底之上一个多旋回盆地的叠覆,在成生发展及其后过程中经历了多期构造改造作用,盆地原型已不存在,形成现今复杂的地质构造面貌。根据国土资源新一轮大调查项目在南黄海获取的高品质的地球物理资料,结合钻井和相邻陆地的资料以及不同时期动力体系的作用、不同期次构造运动和变形的特点,将南黄海大致划分为4 个大的构造演化阶段:古生代—三叠纪海相盆地稳定演化阶段、中生代陆相盆地演化阶段、古新世—中中新世断陷盆地发育阶段和晚中新世以来区域沉降阶段。加里东运动使华南褶皱带与扬子地台南缘拼贴,形成广阔而稳定的后加里东地台;印支—早燕山运动使下扬子地台与华北地台的东南缘碰撞和挤压,形成了苏鲁造山带,在造山带南侧和中部隆起区之间形成黄北前陆盆地,中部隆起区以南为黄南断陷盆地。

南海北部陆缘的构造属性问题

以 1号断裂为界 ,南海北部陆缘可分为东、西两段 :东段包括北部湾盆地、琼东南盆地、珠江口盆地和台西盆地等 ;西段包括莺歌海盆地。两者构造形变特征存在一定的差异性 :东段盆地边界断层主要为NE -EW向 ,为分支断层通过不同类型转换坡连接而成的多支正断层系 ,因断层位移沿走向有规律变化 ,在其上盘发育相关褶皱 ,如横向褶皱 ;西段盆地边界断层也是由多条分支断层连接的多支断层系 ,但方向为NW向 ,以走滑作用为主 ,上盘没有发育断层相关褶皱。结合新生代岩浆作用、沉降和充填作用及地壳结构等特征分析 ,南海北部陆缘东段在构造活动上可以分成三个相对活跃时期 ,即 5 0～ 4 0、30～ 2 8和 10～ 5Ma左右。每一期拥有各自的特点 ,并具有不同的动力学来源。前两期与南海的扩张关系密切 ,第三期则与南海扩张无成因联系。南海北部陆缘虽然有一定的岩浆活动 ,但不是张裂的同期产物 ,因而它在形成机制上属于非火山型被动大陆边缘 ,其活动性因素是受周边板块相互作用的叠加所致。西段从成因机制上来讲并不属于南海北部陆缘 ,可能与印

华北地台北缘西段主要成矿系统分析

研究了华北地台北缘地质演化、构造分区 ,从南到北依次为乌拉山 -色尔腾山 -大青山陆内隆起区、东升庙 -渣尔泰山陆内裂陷区、狼山 -石哈河陆缘隆起区、霍各乞 -白云鄂博陆缘裂陷区、白乃庙 -白银都西隆起裂陷带、温都尔庙 -爱力格庙裂陷带、苏左旗 -锡林浩特槽内隆起区 .分析了陆缘基底建造和裂谷沉积建造 ,划分出裂谷裂陷期和沉降期沉积 .研究了成矿系统 ,以成矿物质来源的同一性和继承性划分出 3个成矿系统 :(1)变质岩金矿成矿系统 ,以绿岩建造为物源基础 ,有多种矿床类型组合 ,主要产于古陆隆起带的变质岩区 .(2 )海相火山细碧岩及喷流沉积成矿系统 ,主要产于裂谷裂陷期形成的火山岩建造中 ,与火山活动岩浆同期的热水喷流有关 ,有铜、铅、锌多金属矿床 .(3)碱性 -碳酸岩及喷流叠生成矿系统 ,产于白云鄂博裂谷早期碱性 -碳酸岩火山岩中 ,其中伴随高温硅钾热水喷流沉积 ,形成稀有 -稀土 -铁叠生矿床 .主、东矿床新生代以来经受了强烈风化剥蚀 ,并有冲积富集现象 .

南海北部陆缘中生代沉积层序、对比和油气地质意义

南海北部陆缘陆上粤中—粤东地区出露一系列的中生界,可以划分为15个Ⅲ级沉积层序。在毗邻海区的潮汕坳陷的地震剖面和LF35-1-1井也可以识别出12个Ⅲ级沉积层序。这些Ⅲ级层序组成了6个Ⅱ级层序和2个Ⅰ级层序,反映出由海向陆的环境变化过程。陆区和海区中生界在岩性、岩相以及层序地层等方面存在可对比性。陆区上地层-沉积特征以及模式可以作为模型应用于海区中生界相关研究,对南海北部中生界油气勘探具有指导意义。

白云鄂博矿床成矿构造环境分析

白云鄂博矿床是世界著名的超大型铁铌稀土矿床,但因为其成因和形成时代的证据复杂多样,其成因、形成时代及其形成的大地构造环境均有多种不同认识。笔者等曾对赋矿白云岩成因、成矿时代及赋矿地层白云鄂博群的年代这两个关键问题进行了系统的地质、地球化学研究,获得了一系列关键证据,并对前人资料进行了系统地梳理,论证了白云鄂博矿床赋矿白云岩为一大型微晶丘,而微晶丘是热水沉积形成;确定其成矿时代及白云鄂博群的年代均为早古生代。本文进一步报道了在与白云鄂博群下部相当的腮林忽洞群中发现了宏体化石海绵和腹足类,在白云鄂博群中发现了与腮林忽洞群中相同的振动液化脉和振动液化角砾岩。从而笔者等认为,白云鄂博矿床成矿和白云鄂博群的沉积环境是早古生代被动大陆边缘。

内蒙古狼山-渣尔泰山中元古代被动陆缘裂陷槽裂解过程中的火山活动及其示踪意义

狼山-渣尔泰山中元古代被动陆缘裂陷槽内产有炭窑口、东升庙、霍各乞和甲生盘等海底喷流-沉积铅锌铜铁硫化物矿床。它在裂解过程中产生了明显的间歇性海底火山喷发。已分别在霍各乞、东升庙和炭窑口矿床容矿岩组中已找到岩性不同、并具有变余斑状或聚斑状或显微球粒结构、变余杏仁构造的海相火山岩与凝灰岩层,它们是确认该裂陷槽裂解过程的有效标志。依据(1)西部炭窑口矿区容矿岩组中发育钾质"双峰式"火山岩,其基性火山岩的K_2O(4.23～5.93%)>Na_2O (2.15～3.14%)、Na_2O+K_2O=6.51～8.08%、长石斑晶为钠长石(No.=2.8～7.2),酸性火山岩的K_2O(6.22～4.83%)>Na_2O(2.78～3.87%)、Na_2O+K_2O=8.63～9.00%、长石斑晶为钠长石(No.=0.2～0.7)、长石微晶主要为钾长石;(2)东升庙矿区则发育钠质"双峰式"火山岩,其基性火山岩的Na_2O(3.84～4.30%)>K_2O(2.49～3.80%)、Na_2O+K_2O=6.44～7.92%、长石斑晶为更长石(No.=11～25),酸性火山岩的Na_2O(3.64～5.31%)>K_2O(1.19～2.75%)、Na_2O+K_2O=6.28～7.68%,长石斑晶与基质均为钠长石(No.=0～1.1);(3)霍各乞矿区发育基性火山岩,其Na_2O(1.36～3.78%)>K_2O (0.30～2.16%),Na_2O+K_2O=2.03～4.09%;(4)炭窑口、东升庙与霍各乞矿床三矿区火山岩的稀土元素与微量元素蛛网图的标准化曲线有相似性和显著差别;(5)炭窑口、东各庙和霍各乞矿区基性火山岩的Sm-Nd模式年龄依次为1857～1877Ma和2006～2132Ma、1740～1867Ma、1486～1606Ma;(6)容矿岩组中有多层凝灰岩与火山碎屑及少量含火山碎屑的矿石,再结合该裂陷槽内各矿床的铅同位素模式年龄和甲生盘矿区只有少量凝灰质夹层,可以揭示该裂陷槽在中元古代的不均匀裂解过程,表现出从西部炭窑口→东升庙→东部的甲生盘一带先后裂解、狼山南侧早于北侧裂解以及从狼山→渣尔泰山同沉积期火山活动由明显→微弱的明显变化趋势。

赣北:华南地质之窗

研究发现,江西北部宜丰-德兴一带下扬子陆块南缘的九岭、万年推覆体与晚古生代以来的沉积盖层之下,隐伏着华南洋对接带和新元古代晚期至早古生代深水裂谷海槽形成的造山带。造山带两侧分别为下扬子地块和华夏陆块残留的信江钱塘地块。扬子陆缘860Ma前的中新元古代地质体和华夏陆缘信江钱塘地块西南部在这里遭到消减叠覆。直至中生代时,该坳陷北部又被九岭逆冲推覆体叠覆近半。这样强烈的造山作用,颠复了"江南古陆"的传统认识。从这扇窗口,窥视了华南大陆深层次地质构造的复杂性及其与大规模成矿作用的密切联系。

华北南缘新元古界-下古生界海相天然气前景初探

经野外实地调查,结合前人研究成果,认为华北南缘下寒武统雨台山组/东坡组灰黑色含磷泥页岩为优质烃源岩,青白口系崔庄组/刘老碑组深灰色泥页岩为潜在烃源岩;新元古界—下古生界砂岩、白云岩为主要储集岩,新元古界—下古生界内部多期岩溶侵蚀面发育良好的储集空间;盖层则以新元古界—下古生界含膏碳酸盐岩及泥页岩为主;具备形成油气的基本石油地质条件,但热演化程度较高。华北南缘新元古界—下古生界是值得深入探索的海相天然气新层系和新领域。

华北板块北缘西段裂谷系金矿床成矿特征及成因探讨

白云鄂博群和渣尔泰山群是华北板块北缘中新元古代裂陷谷沉积的陆缘碎屑岩、泥页岩、碳酸盐岩及少量火山岩建造,赋存的典型金矿床有白云鄂博北部金矿床、朱拉扎嘎、浩尧尔忽洞等成型金矿床。从区域成矿角度看,由西向东构成了一个巨大的Au-Cu-Pb-Zn-S(Fe)-Mn-Au-REE-Nb-Fe热水沉积成矿系统。地质特征表明金矿床均具有明显的层控型特点;元素地球化学特征显示金的来源主要与中元古代火山活动及沉积地层有关;同位素年龄暗示一期重要成矿时代与华力西晚期的岩浆-构造事件相耦合。认为金矿床成因可概括为热水喷流沉积-热液叠加改造复合型。显示具有较大的找矿潜力。

华北地台东缘新元古代地层对比和宏体化石研究的进展和发展趋势

尽管利用多重地层学方法,对华北地台东缘新元古代地层的划分和对比研究取得了很大的进展,但仍然存在很多争议和问题。今后应在以下几方面展开研究:①寻找新元古代Rodinia超大陆热构造事件和冰川事件的地层学标志,厘定这些标志在地层柱中的位置及其与宏体化石演化阶段的对应关系;②结合碳酸盐岩中C、O和Sr同位素地层学研究,寻找和鉴别新元古代地层中的火山岩和火山碎屑岩,测定其中锆石的U-Pb年龄,解决与华南地区新元古代年代地层的对比问题;③划分“辽南生物群”和“淮南生物群”的不同生物组合,明确各组合的演化历程,深入探讨其谱系归属及与华南地区晚新元古代生物群的关系,完善华北地台东缘新元古代生物地层划分和对比的方案。