中亚造山带北山下—中二叠统物源分析及古地理意义

甘蒙北山地区位于中亚造山带中段南端,该区广泛出露的海相二叠系是中亚造山带最年轻的海相沉积之一,是解析古亚洲洋晚期演化的理想载体。然而,北山地区的物源学数据分布不均衡、缺少统计对比,直接限制了学界对古亚洲洋古地理结构的探讨。本文在贯穿北山地区中部至南部的8条剖面中获得了681个碎屑锆石U-Pb年龄和192个Hf同位素数据;在等时地层对比的基础上,统计计算了北山地区已发表的下—中二叠统碎屑锆石数据,重建了区域古地理面貌。早—中二叠世,红石山洋向南俯冲至旱山地块之下,形成了黑鹰山弧和弧后裂谷盆地。该盆地北侧的物源分别来自于旱山地块的前寒武纪基底(926～775 Ma)和奥陶纪—志留纪岩体(485～421 Ma),而南侧的物源主要来自于马鬃山隆起。马鬃山隆起是早古生代红柳河—洗肠井洋闭合的产物,主要由奥陶纪—泥盆纪岩体(470～367 Ma)组成,包括早古生代马鬃山岛弧和双鹰山地块的大部分地区。北山南部发育柳园裂谷盆地,盆地南北两侧的碎屑物质分别主要来自于石炭纪—二叠纪火山岩(322～270 Ma)和马鬃山隆起的早古生代岩体,这两种碎屑物质在盆地中心交汇。本文古地理重建结果表明：红石山洋可代表...     

燕山地区土城子组划分、时代与盆地性质探讨

燕山地区土城子组分布广泛,顶底清晰,是本区最具特色的岩石地层单位之一。区域地质对比研究表明,燕山西部土城子组与燕山中东部土城子组在地层、时代上有较大的不同,西部盆地中髫髻山组火山岩不发育或很少发育,土城子组在地层划分上常包含九龙山组或髫髻山期火山岩,时代为中晚侏罗世(J2—J3);东部盆地普遍发育髫髻山组火山岩浆或火山-沉积地层,土城子组划分与层型剖面一致。古生物化石和同位素年龄研究表明:土城子组时限在156~139Ma之间,属于晚侏罗世—早白垩世。土城子期盆地沉积的不对称性,相分布特征,古水流等指示其形成在一个挤压作用下的陆内火山-沉积盆地环境。     

福建沙县大佑山火山喷发盆地基本特征

沙县大佑山火山构造是一较典型的火山喷发盆地,面积约150km2。盆地内的火山地层属石帽山群,岩石组合具双峰式火山岩特点。上部流纹岩全岩Rb－Sr等时线年龄为99±3Ma,其形成时代为早白垩世。火山岩相发育较齐全,以爆发相占绝对优势,其空间分布具有一定的规律性。火山构造以西部的大佑山破火山机构较为特征,重点阐述该破火山的地貌特征、火山断裂特点、火山岩相展布及其与火山口的关系,恢复火山喷发盆地形成的历史。     

西藏孔隆—达果地区古近纪火山—沉积盆地时空演化

对冈底斯带的研究历来聚焦于岩浆弧,对弧间盆地的较少关注导致火山—沉积序列缺乏精细化研究。冈底斯带古近纪地层划分方案是基于并沿用东段林周、南木林地区的层序格架,即林子宗群与日贡拉组垂向叠置不整合接触,在带上其他地区适用时常产生矛盾,制约了基础地质及资源评价工作。通过系统实测孔隆—达果地区古近纪地层剖面,选取剖面中火山岩进行LA-ICP-MS锆石U-Pb测年,以详实的同位素年代学数据搭建精细年代地层格架,以沉积学、地层学研究分析充填演化过程,恢复火山—沉积盆地古地理。结果显示冈底斯造山隆升剥蚀并被扇沉积体系记录的过程,从晚白垩世早期断续持续至古近纪;以火山岩和/或以沉积岩为主的盆地,发育时限均下延至约70 Ma,暗示岩浆作用与隆升剥蚀对雅鲁藏布洋俯冲的响应几乎同时启动;火山—沉积盆地发育贯穿了整个增生造弧事件,以印亚大陆初始碰撞后的沉积间断为界,分为70~56 Ma和56~40 Ma两期,火山岩与沉积岩同时发育,以时空上的负消长关系占主导地位,表现为剖面上交互或夹层,并受喷发中心、沉积中心的横向迁移约束,产生了地层发育时限的空间变化;受晚白垩世末—古近纪雅鲁藏布洋北向俯冲及印亚大陆碰撞过程影响,持续的造山隆升及岩浆活动的周期性强弱变化约束了盆地发育样式,火山—沉积序列在区域上延展不稳定,垂向序列产生多样性。因此,本文提出层型剖面上火山岩与碎屑岩垂向叠置序列关系不能普适地代表整个冈底斯带,同期火山岩与沉积岩存在空间上快速相变过渡,应使用更为精细年代格架下的空间展布关系,指导冈底斯带弧间盆地地层划分,探讨印亚大陆碰撞的火山—沉积响应过程。     

海拉尔盆地火山岩的锆石U-Pb年龄及其地质意义

海拉尔盆地位于大兴安岭西侧,盆内存在多套火山-沉积岩组合.通过对海拉尔盆地Chu8井等4处火山岩样品进行的锆石LA-ICP-MS U-Pb年代学研究,探讨了海拉尔盆地火山岩的形成时代和构造背景,为盆内和邻区地层对比以及大兴安岭地区构造演化提供了依据.研究区4个火山岩样品的锆石均呈自形-半自形晶,显示出典型的岩浆生长环带,结合其高的Th/U比值(0.22~1.50),说明其属于岩浆成因.测年结果表明,海拉尔盆地布达特群确实存在时代为晚三叠世-早侏罗世(214.4±4.3 Ma)的火山岩,结合前人研究,可将盆内火山作用划分为4期:分别为中-晚石炭世基底岩浆岩(320~290 Ma);晚三叠世-早侏罗世早期布特达特群火山碎屑岩组(224~197 Ma);晚侏罗世-早白垩世早期塔木兰沟组(152~138 Ma);早白垩世晚期铜钵庙组(128~117 Ma).大兴安岭地区各期岩浆作用的地球化学特征、时空分布特征以及盆地地震剖面特征表明,中-晚石炭世基底岩浆岩(320~290 Ma)是额尔古纳-兴安地块和松嫩地块碰撞造山后的伸展背景下形成的;晚三叠世-早侏罗世早期火山岩(224~197 Ma)是古亚洲洋闭合后的伸展背景下形成的,该期火山岩的发现说明古亚洲洋构造域对大兴安岭地区的影响至少延续到早侏罗世早期(197 Ma),而该区域蒙古-鄂霍茨克洋的俯冲碰撞最早可能开始于早侏罗世以后;晚侏罗世-早白垩世早期(152~138 Ma)和早白垩世晚期(128~117 Ma)火山岩的形成均与蒙古-鄂霍茨克洋碰撞闭合后的伸展作用有关.盆内部分火山岩样品中存在古元古代-新元古代捕获的锆石,这表明额尔古纳地块和兴安地块很可能存在着元古代结晶基底.      

辽宁西部兴城曹庄地区义县组岩石地层序列及锆石U-Pb年龄

辽宁西部兴城曹庄地区属于"中生代锦西—锦州—义县—阜新火山喷发带",晚中生代地处阜新—义县盆地的西南端。通过实测剖面和大比例尺调查,确认曹庄地区中生代以火山岩为主的地层可划归义县组,并进一步将其划分为3个岩性段:下段(K_1y~1)由砂砾岩和中性-中基性火山岩组成,中段(K_1y~2)由湖相沉积岩和中性火山岩组成,上段(K1y3)由中性、偏碱性火山岩组成。对尖山剖面火山岩和火山碎屑岩中的锆石采用LA-ICP-MS方法进行的U-Pb测年表明,剖面上义县组下段和中段的年龄分别为131.5±1.4 Ma和129.2±1.0 Ma,次火山状侵位于下段的粗面安山岩加权平均年龄为126.0±1.2 Ma,该结果与北部阜新—义县盆地义县组标准剖面年龄一致。依据火山-沉积序列对比关系,曹庄地区的义县组可以与标准剖面的中、下部对比,但缺失可与标准剖面义县组上部对比的层位,显示该时期火山喷发中心更靠近阜新—义县盆地。     

大别山北缘金刚台火山岩SHRIMP锆石U-Pb年龄及构造意义

位于大别山造山带北淮阳火山岩带中段的金刚台火山岩的形成时代一直存在争议。新的地质观察表明,其不整合于早白垩世商城岩体之上,不应当归属为侏罗纪。对金刚台火山岩3个样品进行了SHRIMP锆石U-Pb定年,其中喷出相的黑云母粗面岩(B09)年龄为(128.4±3.6)Ma,次火山相的闪长玢岩(B21)年龄为(129.1±2.2)Ma,靠近火山岩层底部的粗安岩(B26)年龄为(129±2)Ma。样品B09的测年数据误差较大,B21和B26则非常一致,表明金刚台火山岩形成于129Ma,火山喷发持续时间较短。金刚台火山岩是大别造山带早白垩世巨量岩浆爆发事件的产物。结合前人的研究成果,区域火山地质特征和商城岩体剥露机制的综合分析表明:(1)金刚台火山岩形成之前,区域发生了强烈的挤压隆升;(2)金刚台火山岩是造山带岩石圈拆沉作用的产物;(3)火山岩形成后区域进入长时间的岩石圈伸展阶段,因而129Ma是大别山地区构造转换的分界时间。     

晋东北地区侏罗纪地层划分、时代重新厘定及其地质意义

利用地层序列中火山碎屑岩、凝灰岩及其火山岩锆石U-Pb同位素测年,对晋东北地区侏罗纪地层时代进行了重新厘定。取得了以下主要认识:(1)确认宁武—静乐盆地下侏罗统永定庄组的存在;(2)宁武—静乐盆地天池河组可以与鄂尔多斯盆地安定组相对比,归属于中侏罗统;(3)浑源盆地髫髻山组应归属于中侏罗统上部,该套火山岩地层在整个燕—辽地区具有穿时性;(4)广灵盆地中侏罗统窑坡组底部厚层砾岩的沉积时代可能与燕山造山带的南大岭组相当,应该属于早侏罗世至中侏罗世早期构造运动的产物。通过地层序列的重新厘定,确认了159.0~(152.77±0.63)Ma区域角度不整合的存在,该期构造运动可能与侏罗纪东亚大陆多向汇聚产生的远程效应有关。     

滇西马登地区晚二叠世-早三叠世地层组合及年代学:火山岩锆石U-Pb定年证据

在西南"三江"造山带中段的兰坪盆地内,由于露头状况不好,盆地基底岩石出露状况不详,导致地层划分、归属相当混乱。详细的野外地质调查揭示,盆地东缘马登地区出露的基底岩石主要由2个构造地层单元组成,上部为火山-沉积序列,下部为浅海相泥岩、灰岩及生物碎屑灰岩。上部火山-沉积序列出露厚约1200m,可分为4个喷发-沉积韵律,由英安质熔岩、流纹质熔岩与晶屑凝灰岩、火山集块岩、火山角砾岩、流纹质凝灰岩、火山碎屑岩及少量泥岩相间组成。火山岩锆石LAICP-MS U-Pb法测年数据显示,岩浆活动始于250Ma,持续至244Ma,总体处于早三叠世,构成江达-维西-云县弧火山岩带的一部分。强烈变形的海相地层与火山岩二者呈断层接触,其时代老于250Ma。结合砂岩中碎屑锆石年龄结果(大于260Ma)判定,这套沉积岩应属于晚二叠世,其与早三叠世-中三叠世火山岩一起组成兰坪盆地的基底岩石。     

滇西南惠民超大型铁矿床：一个晚三叠世火山沉积型矿床

惠民超大型铁矿床处在西南三江复合造山带中南段的昌宁-孟连结合带东侧,具有火山-沉积岩容矿、磁铁矿-菱铁矿矿化组合及普遍伴生热液蚀变的突出特点。目前,因其赋矿地层时代存在分歧,致使其矿床成因认识不清。野外地质调查表明,矿区内原划分为澜沧岩群惠民岩组的岩石组合可分为两个构造地层单元,即：下部为中—晚奥陶世弧火山岩组合,受到古特提斯洋俯冲增生作用的改造,显示一定的构造混杂特点,局部见铁铜矿化;其上被一套火山-沉积岩组合不整合覆盖。上覆火山-沉积岩由玄武岩、安山岩、凝灰岩及硅质岩组成,属于弧前环境沉积组合,是已知铁矿体的主要赋矿层位,至少可分为3个完整的火山沉积旋回,其间多为整合接触。铁矿体呈层状、似层状多层次产于火山岩、硅质岩中,显示同生沉积成矿特点,普遍伴生陡倾斜(细)脉状铁矿化。容矿火山岩上部火山岩及火山碎屑岩中岩浆锆石U-Pb测年结果显示,其结晶年龄位于235～214 Ma之间,峰期年龄为230～225 Ma,指示铁矿床成矿时代属晚三叠世。由此提出,惠民超大型铁矿床是一个早中生代火山沉积型矿床,其成矿严格受到晚三叠世(可早至晚二叠世)古特提斯洋向东俯冲消减(现今地理方位)有关弧火山活动...     

甘肃北山红柳园地区泥盆系三个井组和墩墩山群 LA-ICP-MS锆石U-Pb测年及其意义

对甘肃北山红柳园地区三个井组下部玄武岩和墩墩山群安山质火山岩进行了LA-ICP-MS锆石U-Pb年龄测定,三个井组火山岩形成于420Ma±15Ma,相当于晚志留世;墩墩山群火山岩形成于367Ma±10Ma,相当于晚泥盆世。测年结果表明,晚志留世北山古生代洋盆已经俯冲消亡,并开始碰撞造山,而晚泥盆世墩墩山群火山岩则是北山早古生代洋盆碰撞造山后裂谷拉伸作用的产物,标志北山及相邻地区晚泥盆世进入到新的构造演化阶段 ——晚古生代板内伸展阶段。     

U–Pb dating of silicic lavas,sills and syneruptive resedimented volcaniclastic deposits of the Lower Devonian Crudine Group,Hill End Trough,New South Wales

The Hill End Trough of central‐western New South Wales was an elongate deep marine basin that existed in the Lachlan Fold Belt from the early Late Silurian to late Early Devonian. It is represented by a regionally extensive, unfossiliferous sequence of interbedded turbidites and hemipelagites of substantially silicic volcanic derivation, which passes laterally into contemporaneous shallow‐water sedimentary rocks. The Turondale and Merrions Formations of the Lower Devonian Crudine Group are two prominent volcanogenic formations in the predominantly sedimentary trough sequence. They contain a range of primary and resedimented volcanic facies suitable for U–Pb dating. These include widespread subaqueous silicic lavas and/or lava cryptodomes, and thick sequences of crystal‐rich volcaniclastic sandstone emplaced by a succession of mass‐flows that were generated by interaction between contemporaneous subaerial pyroclastic flows and the sea. Ion microprobe dating of the two volcanogenic formations by means of the commonly used SL 13 zircon standard yields ages ranging between 411.3 ± 5.1 and 404.8 ± 4.8 Ma. Normalising the data against a different zircon standard (QGNG) yields preferred slightly older mean ages that range between 413.4 ± 6.6 and 407.1 ± 6.9 Ma. These ages broadly approximate the Early Devonian age that has been historically associated with the Crudine Group. However, the biostratigraphically inferred late Lochkovian ‐ early Emsian (mid‐Early Devonian) age for the Merrions Formation is inconsistent with the current Australian Phanerozoic Timescale, which assigns an age of 410 Ma to the Silurian‐Devonian boundary, and ages of 404.5 Ma and 395.5 Ma to the base and top of the Pragian, respectively. There is, however, good agreement if the new ages are compared with the most recently published revision of the Devonian time‐scale. This suggests that the Early Devonian stage boundaries of the Australian Phanerozoic Timescale need to be revised downward. The new ages for the Merrions Formation could also provide a time point on this time‐scale for the Pragian to early Emsian, for which no data are presently available.     

甘肃北山红柳园地区泥盆系三个井组和墩墩山群LA-ICP-MS锆石U-Pb测年及其意义

对甘肃北山红柳园地区三个井组下部玄武岩和墩墩山群安山质火山岩进行了LA-ICP-MS锆石U-Pb年龄测定,三个井组火山岩形成于420Ma±15Ma,相当于晚志留世;墩墩山群火山岩形成于367Ma±10Ma,相当于晚泥盆世。测年结果表明,晚志留世北山古生代洋盆已经俯冲消亡,并开始碰撞造山,而晚泥盆世墩墩山群火山岩则是北山早古生代洋盆碰撞造山后裂谷拉伸作用的产物,标志北山及相邻地区晚泥盆世进入到新的构造演化阶段——晚古生代板内伸展阶段。     

北山南带音凹峡地区酸性火山岩年代学、地球化学研究:二叠纪裂谷岩浆作用的新证据

北山造山带位于中亚造山带南缘中段地区,是中亚造山带、塔里木克拉通和华北克拉通的构造结合部。年代学资料表明北山南带晚古生代存在一期重要的岩浆活动,所形成的岩石类型包括了镁铁-超镁铁质杂岩、花岗岩类以及酸性火山岩。音凹峡地区位于北山南带,该地区广泛分布着厚度巨大的二叠系。这套地层主要是由酸性火山岩及火山碎屑岩组成,流纹岩的锆石LA-ICP-MS U-Pb年龄为273±1 Ma,为早二叠世。针对音凹峡地区酸性火山岩的地球化学研究发现,其具有高SiO_2、K_2O+Na_2O、Al_2O_3含量、低Fe_2O_3~T、Mg O、P_2O_5含量;富集轻稀土元素,重稀土元素无分异,具有明显的Eu负异常;微量元素方面,酸性火山岩富集Cs、Rb、Th、U、Zr和Hf等元素,而相对亏损Ba、Nb、Ta、Sr、P、Ti等元素。酸性火山岩的锆石ε_(Hf)(t)值为-6.0~3.9,具有较老的Hf同位素模式年龄,t_(DM2)=1046~1669 Ma。音凹峡酸性火山岩的地球化学证据表明这套火山岩系可能由中-新元古代壳源岩石部分熔融形成,并与幔源岩浆进行了不同程度的混合,之后发生了分离结晶作用。综合音凹峡地区同时代镁铁质岩石、花岗岩类的研究成果,以及该地区二叠系沉积建造及火山岩特征分析可知,北山南带在早二叠世应处于大陆裂谷的构造背景。     

Zircon U-Pb dating of Yushugou terrain of high-pressure granulite facies in southern Tianshan Mountain and its geological significance

The Yushugou terrain of high-pressure granulite fades in southern Tianshan Mountain is composed mainly of an ophiolite suite. Most selected zircons are round or elliptical in shape, and some are of tetragonal prism with round edges. The granulometric analyses showthat they are well sorted in sedimentation. ZrO₂/HfO₂ ratios in zircons range from 45 to 57. These characters, together with the petrologic and geochemical characters of plagioclase-garnet-orthopyroxenite bearing zircons, indicate that the protolith of plagioclase-garnet-orthopyroxenite may be derived mainly from volcanic base surge sedimentary debris in oceanic islands and from clays formed by seafloor weathering. Zircons are simply of pyroclastic debris. The ophiolite formation age of (440±18) Ma and the first-stage metamorphic age (amphibolite or granulite facies) of (364±5) Ma were obtained with a method of multiple grains in different groups and a method of concordia plot. These ages provide important information on the temporal and spatial occurrence of southern Paleozoic Tianshan Ocean, the subduction rate of the oceanic crust and the formation mechanism of ophiolite of granulite facies.     

内蒙古高尧乌拉白音高老组地质及年代学特征

通过1:50000区域地质调查,运用"火山构造-岩性岩相-火山地层"三重填图方法,将内蒙古东乌旗高尧乌拉白音高老组划分为3个岩性段,一段为火山碎屑沉积岩,二段为中性火山岩,三段为酸性火山岩,构成一个完整的沉积-喷发旋回.早期至晚期岩浆具有由中性向酸性演化的特征.划分出爆发相、侵出相、溢流相、火山通道相、喷发-沉积相及潜...     

大兴安岭北部上护林盆地恩和大岭火山机构特征与时代

大兴安岭北部上护林盆地恩和大岭火山机构主要由白音高老组酸性熔岩、火山碎屑岩、次火山岩及火山-沉积岩组成。实测剖面显示,该火山机构由侵出相、溢流相、爆发相、次火山岩相及火山沉积相构成,不同岩性、岩相围绕火山口大致呈对称分布,产状外倾,为中心式喷发的穹状火山。溢流相的流纹岩和次火山岩相的正长斑岩锆石U-Pb测年结果分别为(115.3±2.3)Ma和(114.3±1.6)Ma,表明恩和大岭火山机构形成于早白垩世晚期。该火山机构为一次简单的火山喷发旋回一个喷发期次,大致的火山活动过程可分为四个阶段,第一阶段为早期岩浆溢流阶段,形成溢流相流纹岩夹少量流纹质角砾凝灰岩;第二阶段为晚期火山爆发阶段,产生大量的爆发相火山碎屑岩;第三阶段为岩浆侵入阶段,分别形成侵出相松脂岩、次火山岩相正长斑岩等;第四阶段为火山活动的间歇阶段,形成火山沉积相火山-沉积岩。     

Syndepositional volcanism in the Rietgat and arenaceous Bothaville Formations,Ventersdorp Supergroup (late Archaean—early Proterozoic), in South Africa

The volcanic-sedimentary succession of the Ventersdorp Supergroup which is virtually undisturbed tectonically and of low-grade (greenschist facies) metamorphism, affords a unique opportunity for studying the interplay between volcanic and sedimentary processes. The transitional sequence between the Rietgat and Bothaville Formations consists of a number of lithofacies. These are a basal breccia representing pyroclastic and laharic deposits, an overlying breccia—arenite—conglomerate (BAC) which formed by debris flow and fluvial processes, an arenite deposited offshore during a transgression, and an upper conglomerate laid down on a beach. In the volcaniclastic BAC and arenite lithofacies the presence of thin tuff beds, deformed acid lava fragments (bombs?) and glass shards in the arenaceous matrix suggest syndepositional volcanism.Sedimentation took place along the flanks of an asymmetrical, actively volcanic, domal structure which consisted partly of unstable pyroclastic deposits in the east. Resedimentation of the pyroclastic debris by subaerial debris flows and braided streams built a volcaniclastic fan lobe at the foot of the domal structure. As volcanic activity subsided, sands derived from a granitic terrain, mixed with minor air-fall debris to subsequently cover the fan lobe during a regional transgression.     

Neogene stratigraphy and Andean geodynamics of southern Ecuador

The present paper reviews Tertiary volcanic and sedimentary formations in the Inter-Andean region of southern Ecuador (between 2°S and 4°20′S) in order to develop a geodynamic model of the region. The formations occur in the southern shallow prolongation of the Inter-Andean Valley between the Cordillera Real to the east, and the Cordillera Occidental and Amotape–Tahuı́n Provinces to the west. One hundred fifty zircon fission-track analyses has established a detailed chronostratigraphy for the sedimentary and volcanic formations and several small intrusions. The Paleogene to early Miocene formations are dominated by intermediate and acidic volcanic and pyroclastic rocks. In addition, relics of Eocene continental sedimentary series have been identified.The Neogene sedimentary series lie unconformably on deformed and eroded metamorphic, sedimentary and volcanic formations. They were deposited in two stages, which are separated by a major unconformity dated at ≈10–9 Ma. (1) During the middle and early late Miocene (≈15–10 Ma) marginal marine deltaic, lagoonal, lacustrine and fluvial environments prevailed, which we group under the heading “Pacific Coastal sequences”. They presumably covered a greater surface area in southern Ecuador than their present occurrence in small topographic depressions. We suggest that they were deposited in the shallow marine Cuenca and Loja Embayments. Deposition in a marginal marine environment is also supported by the occurrence of brackish water ostracods and other fauna. (2) Above the regional (angular) unconformity, the coastal facies are overlain by late Miocene (≈9–5 Ma) continental alluvial fan and fluvial facies which are in turn covered by mainly airborne volcanic material. They represent the “Intermontane sequences” of the basins of Cuenca, Girón–Santa Isabel, Nabón, Loja and Malacatos–Vilcabamba.Sedimentologic and stratigraphic results are used to discuss the tectonic setting of Neogene sedimentation in the forearc and arc domain of the Ecuadorian subduction system. During the Pacific Coastal stage, northward displacement of the coastal forearc block along the Calacali–Pallatanga fault zone has driven crustal collapse in the Inter-Andean region. As a result, extensional subsidence drove the eastward ingression of shallow seas into the Cuenca and Loja Embayments from the Manabı́ and Progreso Basins to the west. Tectonic inversion in the forearc area during the early late Miocene (at ≈9.5 Ma) reflects the initiation of W–E oriented compression and uplift in the Inter-Andean region and the establishment of smaller Intermontane stage basins, which host the continental sequences. Coeval topographic rise of the Cordillera Occidental is indicated by the onset of clastic input from the west. The small Intermontane Basin of Nabón (≈8.5–7.9 Ma) formed during the period of maximum compression.The present data prove that the Neogene Andean forearc and arc area in southern Ecuador was a site of important but variable tectonic activity, which was presumably driven by the collision and coupling of the Carnegie Ridge with the Ecuadorian margin since ≈15–9 Ma.     

陆上与水下喷发火山岩的区别及其对储层的影响——以松辽盆地营城组为例

陆上与水下喷发火山岩在岩性、结构构造、蚀变特征、产状、与下伏地层接触关系、孔隙和裂缝发育特点等6方面有显著区别。陆上喷发火山岩包括各种熔岩、碎屑熔岩、火山碎屑岩和沉火山碎屑岩;熔岩流纹构造发育,火山碎屑岩除发育常见层理外,还可见反丘构造;同生蚀变弱;与下伏地层多呈角度不整合接触,古风化壳常见,常含有陆相植物;主要储集空间为原生孔隙和冷凝收缩节理缝、次生溶蚀孔、矿物解理缝和构造裂缝。水下喷发火山岩多为具玻璃质结构的熔岩和含晶屑玻屑的层/沉凝灰岩、膨润土/伊利石岩/蒙脱石岩/沸石岩;常具枕状、球状构造,水平层理、粒序层理、变形层理;蚀变强烈;水下熔岩呈穹隆状、透镜状,凝灰岩为层状,近火山口的膨润土/伊利石岩/蒙脱石岩/沸石岩呈松散团窝状并夹有火山弹;与下伏地层呈整合、假整合或侵蚀接触;原生气孔、杏仁体内溶蚀孔和炸裂纹,岩球岩枕间孔和粒间孔,基质和斑晶蚀变孔缝,后期构造缝是主要储集空间。松辽盆地营城组陆上、水下喷发火山岩均有发育。其陆上喷发火山岩的典型标志为流纹构造、柱状节理,含炭化木/硅化木,与下伏地层呈角度不整合接触。水下喷发火山岩典型标志为珍珠岩、玻璃质结构、枕状构造、纹层状凝灰岩和膨润土。松辽盆地营城组的储层火山岩以陆上喷发火山岩为主;水下喷发火山岩中侵出相内带亚相珍珠岩为优质储层。