Geochemistry and Zircon U-Pb Dates of Felsic-Intermediate Members of the Late Cretaceous Yüksekova Arc Basin: Constraints on the Evolution of the Bitlis–Zagros Branch of Neotethys(Elazig, E Turkey)

During the Late Cretaceous in the Eastern Mediterranean, the northern branch of the southern Neotethys was closed by multiple northward subductions. Of these, the most northerly located subduction created the Baskil continental arc at around 82–84 Ma. The more southerly and intra-oceanic subduction, on the other hand, produced an arc-basin system,the Yüksekova Complex, as early as the late Cenomanian–early Turonian. The abundant and relatively well-studied basaltic rocks of this complex were intruded by dykes, sills and small stocks of felsic–intermediate rocks, not previously studied in detail. The intrusives collected from five different localities in the Elazig region of eastern Turkey are all subalkaline, with low Nb/Y values. Most of them have been chemically classified as rhyodacites/dacites, whereas a small number appear to be andesites. In normal mid-ocean-ridge basalt(N-MORB)-normalised plots, the intrusives are characterised by relative enrichments in Th and La over Nb, Zr, Hf, Ti and high field strength elements(HREEs), indicating their derivation from a subduction-modified source. While their relatively high, positive εN d(i) values(+6.4 and +7.2) might suggest a depleted mantle source for their ultimate origin, somewhat radiogenic Pb values indicate a sedimentary contribution to the source of the rocks. The overall geochemical characteristics indicate their generation in an oceanic arc setting. The zircon U-Pb Laser ablation-inductively coupled plasma-mass spectrometry(LA-ICP-MS) data obtained from five felsic-intermediate rock samples yielded intrusion dates of 80–88 Ma. This suggests that the Elazig oceanic arc-related intrusives are slightly younger than those of the Yüksekova arc-basin system, but coeval with the Baskil continental arc. However, the felsic–intermediate intrusives show different geochemical characteristics(oceanic arc-type, with a lack of crustal contamination)to those of the Baskil continental arc. This indicates that these two igneous systems are unrelated and likely developed in different tectonic settings. This, in turn, supports a geodynamic model in which the northern strand of the southern Neotethys was consumed by multiple northward subductions.

BASIN-RANGE TRANSITION AND GENETIC TYPES OF SEQUENCE BOUNDARY OF THE QIANGTANG BASIN IN NORTHERN TIBET

The surface of sequence boundary is a negative record. Its recognition largely depends on the physics of the sediments below and above the boundaries, or on the different sedimentary structures are synthetic marks for the sedimentation and tectonic movements in the sedimentary basin. The Qiangtang Basin that is in 5000m above the sea level is located in Northern Tibet. The Lazhulung—Jinshajiang suture zone now bound it to the north and the Bangong—Nujiang suture zone to the south. Three second\|order tectonic units have been distinguished, i.e. North Qiangtang depression, Central rise and South Qiangtang depression from north to south.The Upper Permian Riejuichaka Formation is built up of mudstone and mud\|limestone, which is represented by sediments in seamarsh. The Lower Triassic Kuanglu Formation, which exhibits the structure unconformable contact with the overlying Upper Permian strata, is characterized by terrigenous clastic rocks in the lower area and is carbonate rocks in the upwarding area and the Middle Triassic Kuangnan Formation. The Upper Triassic Xiachaka Formation consisting of terrigenous clastic rocks, carbonates rocks and mixed sediments, is confined to the uplift zones. The lower Jurassic volcanic rocks are deposited in continental rift. The middle and Upper Jurassic Yangshiping Group are conformable contact and assembled by the gypsum\|bearing terrigenous clastic rock formations and carbonate rock formation. The Middle Cretaceous and the Paleocene strata is built up of the terrigenous clastic rock formations.

Oriente盆地L-I-Y油田Hollin组与Napo组沉积微相研究

白垩系Hollin组与Napo组是Oriente盆地L-I-Y油田(Limonocha,Indillana,Yanaquincha油田)主要勘探开发层系,多年勘探开发实践证明,其沉积微相是决定勘探井与开发调整井成功与否的关键因素之一,并影响着单井产能与开发效益。为此,将地质与地震相结合,在利用岩心、测井、录井等资料精细识别和划分不同沉积微相特征的基础上,通过井震精细标定和正演模拟,明确了不同沉积微相地震响应特征,运用波形聚类等地震属性,精细描述了主要目的层段沉积微相平面展布。研究认为:Hollin组HP,HS亚段和Napo组TP,TS,UI,UM,US亚段为潮坪沉积环境,Napo组CL,BL,AL亚段为陆棚沉积环境,进一步分为4种亚相、13种微相;在潮坪沉积环境中,潮下带最发育,其次为潮间带,潮上带不发育,潮道、潮道侧积砂坪为最有利沉积微相,控制着优质储层发育区带和油气富集;Hollin组H段有利沉积微相发育,目前钻井相对较少,具有较大的勘探开发潜力,是下一步重点勘探开发层系。

南海北部大陆架Y盆地天然气中N_2成因及气源剖析与探讨

Y盆地天然气中普遍含有非烃N_2和CO_2,且N_2含量与无机CO_2总体呈相互消长关系,而与CH_4为主的烃类气正相关。非烃N_2依据其含量可划分为低含N_2(N_2<10％)、含N_2(N_2=10％～15％)和富(高)N_2天然气(N_2>15％)等三类,而N_2成因则根据其地质地球化学特征及伴生稀有气体同位素特点,可将其综合判识为大气成因、壳源有机成因及壳源有机—无机混合成因等三种成因类型。N_2总体分布特征多具有平面上分区分块、剖面上集中富集于400～1600m的浅层或超浅层的特点。N_2与CO_2及烃类气的共生组合关系,常常具有有机成因的富N_2天然气与低含量有机CO_2及高含量CH_4为主的烃类气伴生,而有机—无机混合成因的低含N_2、含N_2天然气则多与高含量无机CO_2及部分CH_4为主烃类气并存的组合特征。很显然,这种共生组合关系决定了N_2的成因及气源构成特点。因此,基于N_2成因类型及与CO_2及烃类气的共生组合关系和分布特征,结合地质地球化学的综合分析研究,可以综合判识N_2气源。

Y盆地Y组油田水地球化学特征研究

本文通过具有代表性地层水分析资料和盆地地质图件来探讨Y盆地地层水总矿化度、水型及水化学特征参数在不同层段的纵横向分布规律特征。结合地层中压力、断层、CO2、特定矿物质等因素查找各个油气田区块或采样点矿化度、水型分布规律不同的原因。结果表明该地区由于盆地晚期发生泥底辟活动,热流体由深层向浅层运移,形成碳酸氢钠型地层水。

赛格水电站Y型宽尾墩跌坎消力池联合消能工试验研究

赛格水电站具有低水头、大单宽流量、低佛汝德数等特点,泄洪消能问题突出,通过水工模型试验研究,提出了采用Y型宽尾墩跌坎消力池联合消能方式。在闸室末端采用宽尾墩后,水舌沿纵向拉伸扩散,增大了接触面,水流经宽尾墩收缩后,以射流形式进入消力池,池内水流具有三维射流特性,差动式消力坎的存在较好的解决了水流二次跌落问题,从而进一步有效的解决了下游河床的消能防冲问题。

缅甸C&Y油田构造特征及其与油气成藏关系

关于缅甸C&Y油田构造特征及其与油气成藏关系研究,国内外资料相对较少。以新地层统层划分对比结果为基础,充分利用已有井及新钻井、测井资料、取芯资料、二维地震资料等,通过井震结合分析,对缅甸C&Y油田浅层至深层地层构造特征进行了研究,包括:断裂特征、构造样式分析、构造格局及构造带分布、圈闭类型及特征分析研究等,总结了构造与油气运移聚集成藏的关系,指出了未来勘探重点潜力方向。

鄂尔多斯盆地靖边油田沙洼沟地区延安组延9油藏富集规律

基于储层基本特征、油藏分布及类型研究,利用基本成藏地质条件与油藏分布相叠合的方法,总结靖边沙洼沟延9油藏的油气富集规律。研究结果表明,研究区延9储层属于中孔–低渗储层,延9油藏类型为构造–岩性油藏,延9油藏的分布和富集受多因素控制,其中侏罗系古地貌对油藏的控制起先导作用,深切河谷为油气运移提供重要通道,有利相带和鼻状隆起构造为油气成藏提供了有利场所,隔层的发育状况及有效的生储盖组合控制了油藏纵向分布层位和规模。综合分析认为,在泥岩隔层不发育、分支河道砂体与构造隆起叠置部位是油气富集区,为勘探的重点部位。

黄河流域旅游生态效率时空演变特征及影响机理

运用Super-SBM模型和空间分析等方法探索黄河流域9个省份2009-2019年旅游生态效率时空演变特征,并运用OLS模型探讨其影响因素。结果显示:旅游生态效率在时间上呈稳步提升态势,在空间上呈“中游>下游>上游”的非均衡空间分异格局,在空间集聚上,“上游冷、下游热”的“空间锁定”现象突出;旅游生态效率的地区间非均衡性逐渐减弱,核密度曲线向“高高集聚”的“俱乐部收敛”单峰形态演变,空间上呈现出“东北-西南”走向的分布态势,重心呈现出“西进东退”的运动轨迹,空间格局展现出集聚特征;经济发展水平、旅游产业结构、科技创新水平、对外开放水平和绿化水平对黄河流域整体和不同流域旅游生态效率影响的时间异质性和空间异质性较强。

东海盆地X凹陷Y气田的天然气成因、成藏模式及勘探意义

本文旨在厘清东海盆地X凹陷Y气田天然气成因,建立成藏模式,以指导下步勘探部署。本文从天然气组分、烷烃气碳同位素、轻烃、凝析油生物标志化合物等分析入手,系统研究了油气成因类型及来源,并结合构造演化史、生烃史分析,建立了Y气田成藏模式,提出了大中型气田的勘探方向。主要认识如下:(1)天然气组分碳同位素、轻烃和埋藏史分析表明,Y气田天然气为凹中始新统平湖组烃源岩在龙井运动期(距今13 Ma)生成的高成熟煤型气;(2)凝析油姥鲛烷/植烷、规则甾烷等特征,反映了凹中区平湖组烃源岩发育于弱氧化-弱还原潮坪、潟湖沉积环境,生烃母质中存在一定数量的低等水生生物;(3)Y气田具有“凹中区平湖组烃源岩、花港组大型水道砂储集体、挤压构造作用”时空耦合的成藏模式,明确了凹中挤压背斜带是X凹陷大中型气田勘探的主攻方向。

局部白云岩化作用研究:以塔里木盆地阿克苏地区蓬莱坝剖面鹰山组为例

通过对塔里木盆地阿克苏地区蓬莱坝剖面鹰山组的系统野外测量、岩性描述、样品采集、薄片观察以及地球化学分析,对鹰山组小规模局部发育的白云岩的成因进行详细分析。蓬莱坝剖面鹰山组可划分为上下两段,整体岩性为灰岩,下段为亮晶藻砂屑灰岩,具有明显的高能颗粒滩相沉积特征,上段为球粒泥晶灰岩,以低能滩及滩间海沉积为主。剖面被多条断层切割,局部白云岩主要发育在鹰山组下段断裂附近,呈透镜状、准层状分布,白云岩化程度具有以断裂为中心沿层面向周边逐渐减弱的特点。白云岩地球化学分析结果显示其Fe、Mn含量低,与周边灰岩相重叠,Na、K含量与灰岩之间也没有区分,反映白云岩化流体为海水源;Sr元素含量明显高于周边灰岩,表明白云岩化作用并非发生在表生环境下;稀土元素则具有轻稀土元素富集、重稀土元素亏损的特征,Eu表现出明显负异常,Ce元素轻微亏损,表现出与现代海水相似的特征。白云岩样品碳-氧同位素相比于灰岩更轻,指示流体的蒸发性质。综合研究认为,蓬莱坝剖面鹰山组围绕断裂发育的局部白云岩的形成阶段可能发生在浅埋藏阶段,白云岩化流体可能来源于由断裂沟通的中上寒武统蒸发卤水,是一类不同于典型构造-热液白云岩的小型构造白云岩。

肝胆管盆式内引流治疗肝内胆管多发结石74例体会

目的:分析74例肝内1～3级胆管多发结石的盆式内引流方法、适应征及临床价值。方法:病例均行胆囊功除,胆总管、肝总管肝内1～3级胆管切开,解除狭窄环,取尽结石,胆管成型为盆状,与空肠Roux-en-y吻合。结果:所有病例皆解除狭窄,取尽结石,畅通胆汁,并可防止返流。结论:肝胆管盆式吻合术,不但能取尽肝内胆管结石,并能解除狭窄,又能通畅引流,还能避免结石的残留和复发,是目前能治疗肝胆结石并狭窄比较理想的术式,值得推广。

鄂尔多斯盆地靖边油田曹崾岘区延9油藏富集规律

在对油水分布特征及油藏类型研究的基础上,采用成藏地质条件与油藏分布叠合分析的方法,对靖边油田曹崾岘区延9油藏富集规律进行了研究.结果表明,延9油藏纵向上主要分布在延92层,具有明显的边水和底水,其油藏类型以构造油藏、构造-岩性复合油藏为主.延9油藏分布和富集主要受控于曲流河边滩砂体分布和规模、储层顶面构造高点分布位置、直接盖层厚度和展布特征.三者有效配置共同控制了延9油藏富集层位和地区,东部地区砂体厚度大于10 m的构造高点石油最为富集.

新仙女木事件在苏北盆地得胜湖沉积物中的记录

通过对苏北盆地得胜湖(DS)钻孔沉积岩心的研究,进一步证实新仙女木事件具有全球性的特征。根据对苏北盆地DS钻孔湖泊沉积物质量磁化率、粒度以及地球化学元素的分析,在DS钻孔下部584～512cm深度处,发现这一深度时段内质量磁化率突然降低,中值粒径保持较低水平,Sr的质量分数降低至最小值,w(Rb)/w(Sr)比值快速增大到峰值,各代用指标均一致揭示了12826～11 492CalaB.P.间非常明显的低温干旱期,其降温幅度大,变化迅速。同时,结合已有研究颜家庄(YZ)浅钻分析得出,这次冷事件在时间以及变化特征上与南京葫芦洞以及格陵兰GISP2冰芯记录的末次冰消期中的新仙女木事件相对应,指示苏北地区的气候环境演化过程与全球气候环境的变化具有一致性。