Kinematics of syn-tectonic unconformities and implications for the tectonic evolution of the Hala'alat Mountains at the northwestern margin of the Junggar Basin,Central Asian Orogenic Belt

The Hala＇alat Mountains are located at the transition between the West Junggar and the Junggar Basin. In this area, rocks are Carboniferous, with younger strata above them that have been identified through well data and high-resolution 3D seismic profiles. Among these strata, seven unconformities are observed and distributed at the bases of： the Permian Jiamuhe Formation, the Permian Fengcheng Formation, the Triassic Baikouquan Formation, the Jurassic Badaowan Formation, the Jurassic Xishanyao Formation, the Cretaceous Tugulu Group and the Paleogene. On the basis of balanced sections, these unconformities are determined to have been formed by erosion of uplifts or rotated fault blocks primarily during the Mesozoic and Cenozoic. In conjunction with the currently understood tectonic background of the sur- rounding areas, the following conclusions are proposed： the unconformities at the bases of the Permian Jiamuhe and Fengcheng formations are most likely related to the subduction and closure of the Junggar Ocean during the late Carboniferous-early Permian; the unconformities at the bases of the Triassic Baikoucluan and Jurassic Badaowan formations are closely related to the late Permian Triassic Durbut sinistral slip fault; the unconformities at the bases of the middle Jurassic Xisbanyao Formation and Cretaceous Tugulu Group may be related to reactivation of the Durbut dextral slip fault in the late Jurassic -early Cretaceous, and the unconformity that gives rise to the widely observed absence of the upper Cretaceous in the northern Junggar Basin may be closely related to large scale uplift. All of these geological phenomena indicate that the West Junggar was not calm in the Mesozoic and Cenozoic and that it experienced at least four periods of tectonic movement.

U-Pb Zircon Age,Geochemical and Sr-Nd-Hf Isotopic Compositions of Neoproterozoic Granitoids in Northwestern Margin of Yangtze Block (South China):Implications for Neoproterozoic Tectonic Evolution

ABSTRACT： The widespread Neoproterozoic magmatism along the Yangtze block carries critical in- formation for understanding the Neoproterozoic evolution of the Yangtze block. In the northwestern margin of the Yangtze block, the Hannan （汉南） intrusive complex includes the Wudumen （五堵门）, Erliba （二里坝） and Zushidian （祖师殿） granitoids. Using LA-ICP-MS U-Pb zircon dating method, the Wudumen and Erliba granitoids yielded magma crystallization ages of 785±4 and 778±3 Ma, respectively. Samples from these three granitoids show variable SiO2 contents ranging from 58.8% to 72.6%. They are characterized by enrichment of Al2O3（14.97%-17.87%）, Na2O（3.80%-5.33%） and Sr （504ppm-741 ppm）, and depletion of Y （〈19 ppm） and HREE （e.g., Yb〈1.6 ppm）, resulting in high Sr/Y （29-161） and （La/Yb）N （7.3-27.8） ratios. The geochemical features of the granitoids are comparable with those of adakite. The granitoids have zircon εHdt） values of ＋3.65 to ＋10.05, whole-rock εNd（t） values of -0.09 to ＋2.98 and whole-rock initial ^87Sr/^86Sr ratios of 0.7034-0.7039, indicating that their magma was derived from a juvenile crustal source. Together with geochemical and Hf-Sr-Nd isotopic compositions, it is suggested that the granitoids formed in island-arc setting and originated from partial melting of a subducted oceanic slab. The results support a model that the Yangtze block was surrounded by ocean and arc magmatism in its northern and northwestern margins in Neoproterozoic.

A Seismic Facies Analysis to Determine the Relative Age and History of the Al Idrissi Mud Volcano from Offshore Larache Located in the NW Moroccan Atlantic Margin

Formed on top of the Gulf of Cadiz, the Al Idrissi mud volcano is the shallowest and largest mud volcano in the El Arraiche mud volcano field of the northwestern Moroccan margin. The development and morphology of mud volcanoes from the El Arraiche mud volcanoes group have been studied at a large scale. However, the time interval related to their formation period still needs to be better understood. In this regard, we interpreted and analyzed the seismic facies from the 2D reflection data of the GEOMARGEN-1 campaign, which took place in 2011. The aim was to identify the seismic sequences and draw the Al Idrissi mud volcano system to determine the formation period of the Al Idriss mud volcano. And as a result, the Al Idrissi mud volcano system is made of both buried and superficial bicone and was identified along with the Upper Tortonian to Messinian-Upper Pliocene facies. As the initial mud volcano extrusive edifice, the buried bicone was formed in the Late-Messinian to Early-Pliocene period. However, the superficial bicone, as the final extrusive edifice, was included in the Late Pliocene. In this case, the timing interval between the buried and superficial bicone is equivalent to the Late-Messinian to Upper-Pliocene period. Therefore, the latter corresponds to the Al Idrissi mud volcano formation period.

新疆克拉玛依乌尔禾张扭性走滑断裂特征及其控藏作用研究

乌尔禾沥青矿断裂带位于准噶尔盆地西北缘乌夏断裂带乌尔禾鼻隆之上,是一个小型左旋走滑断裂带。断裂带形成后未发生强烈改造,断裂带内发育沥青矿脉,露头地质条件好,且有三维地震覆盖,是研究走滑断裂特征和控藏作用的天然实验室。本文采用无人机三维立体建模技术,结合野外剖面实测,对乌尔禾沥青矿走滑断裂带野外剖面露头进行定量分析和解剖。结果表明,沥青矿断裂带共发育17条断层,主断层西北侧断层呈雁列状分布,东南侧断层呈马尾状,断裂带纵向呈负花状。研究表明,断层形成于燕山期左旋剪切应力场,受拉张应力影响,整体处于张扭环境,形成张扭性走滑断裂带。断层发育空腔和诱导裂缝,尤其主动盘裂缝更为发育,空腔的开度与油气侵染宽度呈正相关。结合塔里木盆地张扭性走滑断裂与油气藏关系分析,本文认为张扭性走滑断裂是良好的垂向油气运移通道,主动盘具有侧向输导作用,被动盘具有封堵作用,走滑断裂主动盘一侧圈闭是良好的油气聚集区域。

新疆准噶尔盆地西北缘克拉玛依-乌尔禾断裂带推覆体上盘构造样式及影响因素

准噶尔盆地西北缘克拉玛依-乌尔禾断裂带(克-乌断裂带)及其周缘发现了大量的油气藏,尤其是推覆体上盘伴随着勘探程度及地质认识不断深化,已呈现出“百里油区”的态势。然而,受多期构造活动及断裂带内部复杂的岩性组合影响,石炭系内幕地层构造样式展现出多种类型及复杂的空间展布样式,因此需要对构造样式及成因进一步探讨。综合地震和钻井资料,结合区域构造格局,梳理了准噶尔盆地西北缘克-乌断裂带上盘构造变形特征与影响因素;根据构造样式与推覆体内的岩性组合类型,将克-乌断裂带推覆体上盘划分出南段、中段和北段3个变形单元;明确了上盘石炭系5期主要构造阶段,分段恢复了推覆体上盘构造演化期次及样式。综合上述研究,认为克-乌断裂带上、下盘原始岩性组合关系是造成上盘石炭系内幕地层原始形变差异的主要因素,上盘石炭系内幕地层岩性组合差异是造成原生构造保存的主要因素。上述因素共同造成了圈闭条件沿克-乌断裂带自南向北变化。该研究为克-乌断裂带上盘油气勘探提供指导,同时也为类似条件地区的油气勘探提供借鉴。

鄂尔多斯盆地西北缘海相页岩裂缝孔隙发育特征与页岩气富集模式:以奥陶系乌拉力克组为例

鄂尔多斯盆地西北缘奥陶系乌拉力克组是华北板块页岩气勘探的新领域,其成藏条件和富集特征与中国南方海相页岩气田差异较大。本文以钻井岩心、测井和分析测试等地质资料为基础,重点开展乌拉力克组裂缝发育特征研究,探索西北缘海相页岩气聚集模式,并获得4点认识:(1)乌拉力克组受多种沉积微相控制,发育硅质页岩、钙质硅质混合页岩和黏土质硅质混合页岩,局部为碳酸盐岩(主要为角砾灰岩、泥灰岩)和钙质页岩,在不同区块岩相组合差异大,但下段整体富含硅质,脆性与龙马溪组下段相近,在前陆冲断席分布区有利于储层造缝;(2)乌拉力克组发育高角度充填缝和低角度顺层缝等两期裂缝,但以开启状顺层微小裂缝为主,且南段较北段发育;(3)乌拉力克组下段总孔隙度一般为2.46%~7.08%,与四川盆地龙马溪组基本接近,其中基质孔隙度占比为34.0%~90.0%(平均61.1%),裂缝孔隙度占比为10.0%~66.0%(平均38.9%);(4)乌拉力克组天然气赋存以游离气为主(占比超过64%),在本层无机孔隙和顺层缝系统中存在初次运移和二次运移。综合分析认为,受裂缝发育程度影响,马家滩上海庙探区主体为受构造控制的裂缝型页岩气聚集区,裂缝发育期与生气高峰期同步,有利于天然气在乌拉力克组内高效聚集成藏;铁克苏庙区块则为混合型页岩气聚集区。

准噶尔盆地西北缘断裂带构造变形机制--基于物理实验模拟研究

准噶尔盆地西北缘发育以红车(红山嘴、车排子)、克白(克拉玛依、百口泉)和乌夏(乌尔河、夏子街)为代表的边缘断裂系统,是影响石炭纪—三叠纪地层发育特征和控制油气聚集的关键因素。准噶尔盆地西北缘断裂带属性及形成机制是地球科学界广泛讨论的问题,并一直存在争议。基于区域地质背景和前人研究成果,采用物理砂箱实验模拟准噶尔盆地西北缘断裂带构造变形机制。实验结果表明,乌夏、克白断裂带主要由一条西倾的主断裂控制,两侧断裂不对称分布,为不对称状花状断裂。红车断裂带主要由2条主断裂控制,呈雁列状分布,整体表现为近似对称的花状构造。通过物理模拟正演,认为准噶尔盆地西北缘早石炭世—晚三叠世演化过程可分为2个阶段,即残余洋盆俯冲阶段和右旋走滑阶段。准噶尔盆地西北缘构造石炭纪—三叠纪地层圈闭发育,可能是逆冲断裂和褶皱形成的断鼻、断块和排列背斜,这些伴生构造圈闭是准噶尔盆地西北缘油气成藏的关键因素。

The deep mantle upwelling beneath the northwestern South China Sea:Insights from the time-varying residual subsidence in the Qiongdongnan Basin

Deep hot mantle upwelling is widely revealed around the Qiongdongnan Basin on the northwestern South China Sea margin. However, when and how it influenced the hyper-extended basin is unclear.To resolve these issues, a detailed analysis of the Cenozoic time-varying residual subsidence derived by subtracting the predicted subsidence from the backstripped subsidence was performed along a new seismic reflection line in the western Qiongdongnan Basin. For the first time, a method is proposed to calculate the time-varying strain rates constrained by the faults growth rates, on basis of which, the predicted basement subsidence is obtained with a basin-and lithosphere-scale coupled finite extension model, and the backstripped subsidence is accurately recovered with a modified technique of backstripping to eliminate the effects of later episodes of rifting on earlier sediment thickness. Results show no residual subsidence in 45–28.4 Ma. But after 28.4 Ma, negative residual subsidence occurred, reached and remained ca. -1000 m during 23–11.6 Ma, and reduced dramatically after 11.6 Ma. In the syn-rift period(45–23 Ma), the residual subsidence is ca. -1000 m, however in the post-rift period(23–0 Ma),it is positive of ca. 300 to 1300 m increasing southeastwards. These results suggest that the syn-rift subsidence deficit commenced at 28.4 Ma, while the post-rift excess subsidence occurred after 11.6 Ma.Combined with previous studies, it is inferred that the opposite residual subsidence in the syn-and post-rift periods with similar large wavelengths(>10^(2) km) and km-scale amplitudes are the results of transient dynamic topography induced by deep mantle upwelling beneath the central QDNB, which started to influence the basin at ca. 28.4 Ma, continued into the Middle Miocene, and decayed at ca.11.6 Ma. The initial mantle upwelling with significant dynamic uplift had precipitated considerable continental extension and faulting in the Late Oligocene(28.4–23 Ma). After ca. 11.6 Ma, strong mantle upwelling probably occurred beneath the Leizhou–Hainan area to form vast basaltic lava flow.

准噶尔盆地西北缘哈山地区二叠系风城组页岩油储层特征及其控制因素

准噶尔盆地西北缘二叠系风城组蕴含丰富的页岩油资源,且在玛湖凹陷和乌夏地区的油气勘探取得重大突破,邻近的哈山地区也具有一定的勘探潜力。通过岩石薄片观察、扫描电镜分析、有机地球化学测试、XRD分析和储层物性分析等,对哈山地区风城组页岩油储层特征及其控制因素进行了研究。研究结果表明:(1)哈山地区风城组页岩油储层岩性主要为长英质页岩、钙质页岩和混积页岩,风城组页岩整体属于好—最好烃源岩,有机质类型以Ⅱ1型和Ⅱ2型为主,有机质主要处于未成熟阶段,部分推覆体下盘页岩有机质进入成熟早期阶段。(2)研究区页岩油储层孔隙度平均为2.32%,属于低孔储集层,储集空间以无机孔和微裂缝为主,有机质孔含量较低。(3)研究区风城组页岩油储层的发育主要受沉积相、成岩作用和构造活动的控制,其中沉积相不仅决定了岩石类型,还控制了有机质的富集程度;压实作用和胶结作用对储层物性具有负面影响,溶蚀作用可以大幅改善储集物性;构造活动形成的微裂缝不仅可以为页岩油赋存提供储集空间,还可以为油气运移提供通道,进而改善了页岩油储层的渗透性。

2021年新疆皮山M_(S)5.4和叶城M_(S)5.4双震序列及青藏高原西北缘地震活动特征

利用新疆、西藏区域台网记录的P波和S波到时数据,对2009年1月至2021年9月期间的青藏高原西北缘的地震事件开展了精定位;利用新疆区域台网的地震波形数据,对2021年9月4日皮山M_(S)5.4地震和9月5日叶城M_(S)5.4双震序列中的12次M_(S)≥3.5地震事件开展了震源机制解反演;综合精定位与震源机制解结果,分析了皮山M_(S)5.4和叶城M_(S)5.4双震序列的震源特征;结合本文作者已取得的于田地区强震活动性研究结果,讨论了青藏高原西北缘两个强震区内(皮山—叶城地区与于田地区)的强震相关性.研究结果表明,(1)皮山M_(S)5.4和叶城M_(S)5.4双震序列的发震断层为NW向的泽普断裂带,两次M_(S)5.4地震的质心深度为17 km左右.(2)皮山M_(S)5.4和叶城M_(S)5.4地震之间伴有NE-SW向的次级隐伏拉张断层破裂.(3)2015年皮山M_(S)6.5地震序列呈现出NW向的单侧破裂,其余震区与此次皮山M_(S)5.4和叶城M_(S)5.4双震序列余震区没有重叠,两者属于不同的地震序列.(4)近年来,青藏高原西北缘"盆山交接地带"上的于田地区和皮山—叶城地区的强震活动性特征、发震构造模式及局部的构造动力源均不同.以东经80°为界,在其东侧的于田地区,大部分地震沿着NE向大型断裂带分布,少数地震沿着近乎NS向或NNE-SSW向的条带展布;断层错动方式以正断型或走滑型为主.在其西侧皮山—叶城地区,大部分地震活动沿着NW向分布,少量地震沿着NNE向的条带展布;断层错动方式以逆冲错动为主.

准噶尔盆地西北缘中生代油砂储层特征及成矿规律

油砂是固态或半固态的砂和其岩石中包含油的混和物,是常规油气资源的重要补充(Liu et al.,2019)。准噶尔盆地西北缘是我国油砂资源最为丰富的地区之。目前,准西油砂的勘探程度较低,以往研究局限于单个矿区或单个层位,或延续对深层常规油气成因的认识(单玄龙等,2007;万初发等,2019;王启予,2020),尚未对整个西北缘各层系油砂的储层特征和成矿规律进行过系统对比研究(代振龙等,2022;马小平等,2022)。

四川盆地西北地区构造变形特征、演化及油气地质意义

近年来川西北山前坳陷地区中二叠统天然气勘探取得重大突破,激发了勘探工作者向更大区域和更多层系探索的愿望。为了给下一步油气勘探提供依据与参考,本文系统讨论了川西北南华纪以来的盆地性质、构造—沉积格局及油气成藏条件。川西北经历了南华纪—早古生代、晚古生代—三叠纪、侏罗纪—新生代3大演化阶段,现今构造格局受燕山期龙门山、米仓山造山带以及向盆地逆冲推覆形成的冲断系统控制。其中龙门山北段冲断系统总体表现为由造山带向盆地方向扩展的“前列式”构造变形,在盆山结合位置,深部构造楔向造山带方向消减了大部分位移,造成前渊坳陷部位构造变形急剧减弱。川西北燕山期前陆盆地之下保存了南华纪—中奥陶世和泥盆纪—中三叠世两期完整、连续的裂陷层序与被动大陆边缘层序,具有优越的油气成藏条件。中-晚侏罗世—早白垩世龙门山与米仓山急剧隆升并向盆地大规模推覆,造成前渊坳陷内的海相层系急速埋藏增温,进入成藏高峰。由于山前冲断带自中-晚侏罗世(~160 Ma)以来处于抬升和剥蚀状态,而前渊坳陷始终处于埋藏状态,油气保存条件要优于山前冲断带,因此是深层—超深层油气勘探的重点地区。

准噶尔盆地西北缘北西向横断裂与油气成藏

通过对准噶尔盆地西北缘山前克拉玛依和乌尔禾地区沉积记录的分析,结合前人在本区的地球物理场、卫星影像和重磁等方面的研究资料,论证了北西向横断裂普遍存在的事实,并从地震剖面上识别出了这些断距较小且具有走滑性质的断层。它们与北东向纵断裂一起形成了本区“纵横交叉”的构造格局。横断裂沟通油源,引导油气侧向运移;纵断裂连接不同时代输导层和不整合,进行垂向调整和分配,从而构成了一个复杂的油气运聚体系。纵、横断裂交汇之处是油气运聚的优势部位,是油气勘探的重点靶区。

准噶尔盆地西北缘风城组白云岩成因及油气富集因素

利用钻井、岩心、地震、测井及地球化学资料,分析准噶尔盆地西北缘二叠系风城组白云岩沉积环境、成因、分布规律及白云岩储集层油气富集高产因素。风城组白云岩按产状和沉积构造可分为纹层状泥质白云岩、薄层状白云岩和斑状白云岩,主要为准同生白云岩和后生白云石化白云岩。准同生白云岩形成于半深湖咸水环境;后生白云石化白云岩是发育在半深湖咸水环境下的碳酸盐岩灰泥在成岩期经后生白云石化作用形成。白云岩主要分布在火山喷发或逆冲断裂活动形成的古地貌斜坡上。白云岩储集层的储集空间主要为溶蚀孔隙和裂隙。白云岩储集层富集高产的控制因素是裂缝及构造背景。

准噶尔盆地西北缘下盘掩伏构造油气勘探新领域

准噶尔盆地西北缘冲断构造自西向东由北部单斜带、中部向斜带、克—乌断裂带和前缘斜坡带4个部分组成,在纵向又可划分为上、下两个构造层,上构造层的冲断序列要先于下构造层。现今保存下来的冲断构造应始于三叠纪末期形成,并在侏罗纪继承性活动,白垩纪之后冲断活动基本停止。西北缘冲断带下构造层内的背斜圈闭和"帽檐"式圈闭是油气勘探前景很大的新领域,尤其是大侏罗沟横向断裂与克—乌断裂带夹持的三角区域,"帽檐"圈闭埋藏适中,是一个有利的勘探目标。应在获得必要的深部地质资料和速度资料后,再针对保存完整、面积和幅度均较大的下盘掩伏背斜开展地震处理攻关与解释成图。

基于砂砾质辫状河沉积露头隔夹层研究

以准噶尔盆地西北缘扎伊尔山出露的三叠系克拉玛依组黑油山沟35剖面为例,利用岩相组合和层次界面分析方法,结合沉积学理论,探讨了砂砾质辫状河岩石相组合、构型界面及构型单元级次,进而研究砂砾质辫状河河道砂体内部隔夹层的成因、级次、形态、规模及其控制下的渗流地质差异特征。结果表明,在研究区可以识别8种典型岩相,8个5级储集体构型单元以及2个3级储集体构型单元。泥质隔夹层主要分为细粒沉积和泥砾型两种类型,泥砾型隔夹层主要发育在河道底部泥砾岩沉积,由河道侵蚀河岸或河底的泥岩快速堆积而成,主要分布在5级或3级界面之上,向河道两侧边缘减薄尖灭。同时,内部不同级次的泥质隔夹层控制了储层非均质。

准噶尔盆地西北缘油气成藏模式分析

准噶尔盆地西北缘可分为构造样式与地质结构不同的3段:红山嘴-车排子断裂带、克拉玛依—百口泉断裂带和乌尔禾—夏子街断裂带。指出构造分段性造成了油气成藏的分段性、分期性和不同的成藏模式:成藏时间表现为北早南晚,构造导致的上气藏调整也具有北早南晚的特征;不同构造带具有不同的成藏模式,可概括为乌夏断裂带源内早期成藏垂向运聚模式、克百断裂带源内(或近源)垂向运聚早期成藏晚期调整模式、红-车断裂带近源侧向运聚与垂向分配模式、中拐凸起远源侧向晚期运聚模式和斜坡区近源侧向晚期运聚气侵模式。

西宁盆地北西缘地下热水分布特征

笔者重点对西宁盆地北西缘南门峡-台子地区地下热水的赋存条件、热储构造概念模型进行了讨论。基于实际资料,得出地处老爷山凸起与双树凹陷间斜坡带,具有“凹中凸”地质结构的南门峡-台子地热异常热储为新元古界克素尔组大理岩和白垩系民和组砂砾岩,地热地质条件好。提出了该区的热储概念模型是“层控热储-侧向径流补给-大地热流供热-深大断裂导热-低热导率岩层聚热”,且具一定的地热资源开发利用前景。

皖东南黄片麻岩的锆石U-Pb年龄

在皖东嘉山南黄地区新元古代张八岭岩群之下 ,隐伏一套角闪岩相的 TTG质片麻岩类。单颗锆石 U - Pb法年龄测定得到其不一致线上交点年龄为 2 493± 19Ma,代表了片麻岩原岩的形成年龄。这是扬子陆块北东缘首次发现的新太古代基底 。

准噶尔盆地哈拉阿拉特山冲断带构造及找油意义

准噶尔盆地西北缘前陆冲断带是自石炭纪晚期发育起来的大型叠瓦冲断系统,哈拉阿拉特山冲断带为其冲断前锋构造带的东段。它由谢米斯台山单斜带、和什托洛盖盆地、哈拉阿拉特山叠瓦构造带和玛湖凹陷西斜坡4部分组成。该冲断带以古生界内部的滑脱面为界,分为上、下两套构造变形层:上构造变形层发育3￣4排叠瓦状冲断构造,各冲断层交汇于古生界内部的滑脱面中;下构造变形层可能为10多个古生界断块叠加而成的双重构造。该冲断带宽约61 km,构造缩短了53 km,构造缩短率约46%.冲断前锋带的构造变形主要发生于三叠纪末,白垩纪时构造活动近于停止。前锋断裂带下盘的准原地系统中发育一系列断层转折褶皱、双重构造等,它们是准噶尔盆地西北缘下盘掩伏带的主要勘探目标,是在克拉玛依油田之下寻找“克拉玛依”的主要领域。