俄罗斯贝加尔湖区伸展构造及与中国东部伸展构造对比   总被引：4，自引：0，他引：4  

杨巍然  隋志龙  Mats V D 《地球科学进展》2003,18(1):45-049

在晚白垩世-始新世夷平面基础上,由于断裂作用形成了贝加尔裂谷系。断裂作用最大幅度超过10 km。在裂谷系中心部位发育的断层长度最大、最深、最早,并以准对称形式向四周扩展。贝加尔裂谷系是在地幔隆起和印度-欧亚大陆碰撞双重作用下形成。贝加尔裂谷系与中国东部新生代断陷盆地和汾渭裂谷系同时形成,并有密切的成因联系。它们的形成不仅受太平洋板块的俯冲和印度-欧亚大陆碰撞的制约和影响,而且位于中国西南部的地幔流发散中心,呈扇状向太平洋区流动,可能是它们在更深层次上的共同场源基础。  相似文献   

汾渭地堑与贝加尔裂谷系的比较构造分析     

崔盛芹  李锦蓉 《地球学报》1987,9(1):21-31

通过系统分析西滨太平洋带中、新生代的构造演化,结合作者以往对汾渭地区、贝加尔—东萨彦岭地区的一些观察,还综合分析了近年来我国及苏联地质学者有关本区的研究成果,本文拟从比较构造学角度出发,试对东亚地区喜马拉雅期深部作用的两个窗口——汾渭地堑与贝加尔裂谷系的相似特征及其意义,进行初步剖析*。  相似文献   

裂谷系与含油气盆地     

田在艺 《地球科学进展》1992,7(3):64-68

裂谷是分布在宽阔隆起上的地堑、半地堑,像一些狭长的裂缝,裂陷向两侧扩展,始终受边界断裂的控制。国际上研究较多的裂谷系有北美中陆裂谷系,第聂泊一顿涅茨裂谷系、奥斯陆裂谷系、北海裂谷系、贝加尔裂谷系、欧洲新生代裂谷系、瓦林设裂谷系、潘诺盆地构造、北美西部盆—岭构造、中国东部裂谷系、中国山西裂谷系、东非裂谷系、红海—苏伊士湾裂谷系、死海裂谷系、西非中非裂谷系、巴西东部裂谷系以及板块构造与裂谷,裂谷演化,裂谷与地幔的关系,裂谷的构造模式与沉积模式,裂谷动力学,裂谷与地热等等。  相似文献   

全球构造研究专著《大陆裂谷对比——汾渭裂谷系与贝加尔裂谷系例析》评介     

曲梅兰 《地质科技情报》1996,(4)

全球构造研究专著《大陆裂谷对比——汾渭裂谷系与贝加尔裂谷系例析》评介曲梅兰（中国地质大学，武汉，４３００７４）这是一部由中、俄科学家联合组队共同协作完成的科研专著。该书由中国构造地质专家杨巍然教授、孙继源高级工程师、纪克诚教授、邢集善高级工程师与俄罗...  相似文献   

汾渭裂谷系与造山带耦合关系及其形成机制研究   总被引：19，自引：3，他引：16  

邢作云  赵斌  涂美义  邢集善 《地学前缘》2005,12(2):247-262

试图运用盆山耦合等地学理论,对汾渭裂谷系进行初步的定量半定量研究。认为在区域拉张应力场作用下,汾渭裂谷系为盆山耦合形成,其形成模型为“伸展造山,断陷沉盆,后推成台”;运用盆内沉积与造山带剥蚀量互补法、地震剖面拟合法、裂变径迹法等计算方法对其进行计算的结果表明,铲式断裂一侧造山带隆升与盆地下沉呈完全镜像对称关系。同时对大同一带新生代玄武岩特征进行了分析,认为软流圈上涌是该带玄武岩喷发的根源,并通过对该区地震层析和大地电磁测深的剖析,推断汾渭裂谷系主体形成机制应为被动机制,而其北部的桑干河断陷形成机制则为主动机制。此外,对汾渭裂谷系的地热资源及地震震中分布规律等进行了探讨。  相似文献   

贝加尔裂谷和汾渭地堑成因与印度—欧亚碰撞的远程效应     

梁光河 《地学前缘》2023,(3):282-293

位于欧亚板块东部的贝加尔裂谷和汾渭地堑是两个著名的裂谷系,它们具有相似的外形和地貌特征,也具有相似的地质构造演化历史。其成因机制长期以来一直存在争议,诸多研究说明它们的形成和印度与欧亚大陆碰撞密切相关,但印度与欧亚碰撞的远程效应是如何传递到这些区域的?本文通过大陆漂移过程中的陆缘区域的地幔上涌所形成的伸展构造演化和陆缘裂解,结合欧亚大陆新生代构造演化,研究印度-欧亚碰撞的远程效应所导致的微陆块裂解漂移及伸展构造发展演化规律。结果说明这两个裂谷的成因与欧亚东缘新生代大规模微陆块裂解漂移密切相关。新生代伴随着青藏高原的隆升,欧亚大陆东缘发生了大规模地幔上涌和陆块裂解,日本、堪察加等陆块发生了裂解漂移,它们的裂解漂移在欧亚东缘形成了差异左旋走滑环境,从而分别在西伯利亚克拉通和鄂尔多斯克拉通东南侧形成了两个裂谷系和地震带,这两个地震带和2023年2月土耳其大地震具有类似的成因机制,它们都是走滑断裂所形成的地震带。用新大陆漂移模型可以合理解释其成因机制。  相似文献   

贝加尔裂陷新构造特征   总被引：2，自引：0，他引：2  

易明初 《地质力学学报》1996,2(4):7-14

贝加尔裂谷系的断裂发育阶段和沉积作用过程基本一致,除沉积作用前的前裂谷断裂已经活化外,整个裂谷系的发育及演化过程大体可划分为两个阶段,即始新世中晚期-上新世早期(E₂2-3-N₂1)的开始阶段和上新世中晚期-第四纪(N₂2-3-Q)的主要阶段。前者属塑性形变,地形反差小,断裂活动弱;后者属脆性形变,地形反差大,断裂活动强。
贝加尔裂谷拗陷是贝加尔裂谷系中发育最早、规模最大的水下拗陷,新构造运动表现明显,升降幅度自西南向东北增大。区内及其四周断块山体及盆地多显示了自西向东翘起的特点。夷平面及冲、洪积扇发生大量拱曲和拗曲。各方向断裂力学属性组合特征,反映了NE-SW向的挤压构造应力场。   相似文献   

秦岭古生代陆间裂谷系的演化   总被引：18，自引：3，他引：18  

杨森楠 《地球科学》1985,(4)

位于华北地块和杨子地块之间的秦岭构造带是一个古生代的陆间裂谷系,它的形成、发展和消失与两个地块的离合运动有关。秦岭陆间裂谷系不仅在它的空间位置,而且还在许多地质构造方面的特点而不同于大陆裂谷,包括裂谷系的广阔宽度、洋壳碎片的发育、很厚的海 相沉积和较强的深层作用。  相似文献   

贝加尔裂谷构造发育的主控因素探讨：来自物理模拟的启示     

王盟楠  李江海  柳晨  刘磊鑫 《高校地质学报》2023,(2):251-260

贝加尔裂谷位于全球最大的大陆板块中心，远离任何活跃板块边界，却是地球上现今构造活动最为活跃和复杂的地区之一，其形成演化的主控因素是地球科学界广泛讨论的问题之一并一直存在争议。文章通过物理实验模拟手段，研究了裂谷区在局部拉张背景下，岩石圈形变过程。贝加尔裂谷区位于较强的西伯利亚克拉通与较弱的萨彦—贝加尔造山带结合部位。克拉通一侧下地壳强度大，壳幔机械耦合程度高，实验结果显示，当区域遭受局部拉张时，应力易在克拉通一侧聚集，最先于克拉通与造山带薄弱缝合处的靠近克拉通边缘一侧发育深大断裂。随着岩石圈不断伸展，应力向造山带一侧传递，断裂也随之向造山带一侧发生迁移，呈现雁列式排列。古老克拉通相比于年轻造山带下地壳流变性质差异，决定了贝加尔裂谷窄且深凹陷的发育特征及发育结构的不对称性。  相似文献   

汾渭盆地地裂缝成因研究中的若干关键问题   总被引：8，自引：0，他引：8  

彭建兵  范文  李喜安  王庆良  冯希杰  张骏  李新生  卢全中  黄强兵  马润勇  卢玉东 《工程地质学报》2007,15(4):433-440

汾渭盆地是我国地裂缝发育最强烈的地区,地裂缝类型多样,成因复杂。本文概述了汾渭盆地地裂缝的分布规律,分析了目前汾渭盆地地裂缝成因研究中存在的主要问题,重点围绕构造型地裂缝的成因问题,提出如下研究思路:通过多学科联合手段,重点研究汾渭盆地地裂缝灾害的分布规律及其与活动构造的分布关系与成生联系,建立构造地裂缝的地质结构模型;将现代物理数值模拟技术与高精度观测技术相结合,分析研究构造活动启动地裂缝灾害的力学机理以及构造作用与抽水作用耦合致裂机理;以GPS观测资料为约束,将汾渭盆地地裂缝的成生与青藏、华北大陆变形的动力学过程联系起来,研究该区地裂缝与现今中国大陆动力学的内在联系,揭示大陆驱动力产生地质灾害的动力学机制与模式。  相似文献   

裂谷作用对层序地层充填样式的控制——以西非裂谷系Termit盆地下白垩统为例   总被引：1，自引：0，他引：1  

吕明胜  薛良清  苏永地  万仑坤  毛凤军  刘计国  王玉华 《吉林大学学报(地球科学版)》2012,42(3):647-656

Termit盆地位于尼日尔东南部,属于西非裂谷系的北延部分,是发育于前寒武系—侏罗系基底之上的中、新生代裂谷盆地。该盆地早白垩世—古近纪经历了"裂谷—坳陷—裂谷"的构造演化过程及"陆相—海相—陆相"的沉积演化过程,表现为晚白垩世大规模海侵、早白垩世和古近纪两期裂谷叠置的特点。基于构造作用影响裂谷盆地层序发育的观点,分析了Termit盆地下白垩统裂谷阶段内的层序地层充填样式。根据裂谷作用的强弱,将早白垩世裂谷阶段划分为裂谷初始期、裂谷深陷期及裂谷萎缩期3个阶段。裂谷初始期层序断裂活动弱,构造沉降小,长轴物源体系较为发育,陡坡带为加积至退积型河流或三角洲沉积,缓坡带发育加积型河流或三角洲体系。裂谷深陷期层序断裂活动强烈,构造沉降大,陡坡带形成退积型水下扇或滑塌扇沉积,缓坡带发育退积型三角洲体系,盆地中心为泥岩充填。裂谷萎缩期层序断裂活动减弱并趋于停止,陡坡带为进积型扇三角洲沉积,缓坡带发育进积型三角洲体系。研究表明:裂谷作用对层序地层充填样式具有明显的控制作用,以构造作用为主线的裂谷盆地层序地层分析方法,能有效预测沉积体系和储层分布。  相似文献   

中国东部及邻区早白垩世裂陷盆地构造演化阶段   总被引：60，自引：0，他引：60  

张岳桥  赵越  董树文  杨农 《地学前缘》2004,11(3):123-133

早白垩世是中国东部及邻区强烈的伸展裂陷和岩石圈减薄时期。根据裂陷盆地几何形态特征和展布型式 ,将早白垩世裂陷盆地分为泛裂陷型 (燕山—松辽断陷盆地群、蒙古断陷盆地群等 )、狭窄型 (沂沭裂谷系、伊兰—伊通裂谷带 )和菱形状型 (胶莱盆地、三江盆地、鸡西盆地等 ) 3种类型。通过综合分析和对比不同类型裂陷盆地沉积序列和构造演化历史 ,结合郯庐断裂带和秦岭—大别造山带白垩纪构造演化历史的研究成果 ,区分了中国东部早白垩世 2个显著不同的引张裂陷阶段和一个构造挤压反转阶段。早白垩世早期引张裂陷阶段 ( 1 4 0～ 1 2 0Ma)形成了宽广展布的燕山—松辽断陷盆地系和蒙古断陷盆地系 ,沿郯庐断裂带发生右旋走滑活动 ,控制了断裂带西侧南华北伸展走滑盆地和东侧胶莱、三江等和沿敦—密断裂带走滑拉分盆地的发育 ;早白垩世中期引张裂陷阶段 ( 1 2 0～ 1 0 0Ma) ,沿郯庐断裂带中、北段发生裂谷作用 ,形成沂沭裂谷系和伊兰—伊通裂谷带 ;早白垩世晚期 ( 1 0 0～ 90Ma)在区域NW SE向挤压应力场作用下 ,所有早白垩世裂陷盆地发生不同程度的构造反转 ,沿郯庐断裂发生强烈的左旋走滑运动。最后指出 ,太平洋古板块向东亚大陆边缘俯冲诱发的大陆岩石圈底侵作用、拆沉作用、地幔底辟和对流 ,以及来自西部块体  相似文献   

Rifting Attractor Structures in the Baikal Rift System: Location and Effects     

《Journal of Asian Earth Sciences》2014

The current geodynamics and tectonophysics of the Baikal rift system (BRS) as recorded in lithospheric stress and strain are discussed in the context of self organization of nonlinear dissipative dynamic systems and nonlinear media. The regional strain field inferred from instrumental seismic moment and fault radius data for almost 70,000 M_LH ⩾ 2.0 events of 1968 through 1994 shows a complex pattern with zones of high strain anisotropy in the central part and both flanks of the rift system (the South Baikal, Hovsgöl, and Muya rift basins, respectively). The three zones of local strain anisotropy highs coincide with domains of predominantly vertical stress where earthquakes of different magnitudes are mostly of normal slip geometry. Pulse-like reversals of principal stresses in the high-strain domains appear to be nonlinear responses of the system to subcrustal processes. In this respect, the BRS lithosphere is interpreted in terms of the self organization theory as a geological dissipative system. Correspondingly, the domains of high strain anisotropy and stress change, called rifting attractor structures (RAS), are the driving forces of its evolution. The location and nonlinear dynamics of the rifting attractors have controlled lithospheric stress and strain of the rift system over the period of observations, and the same scenario may have been valid also in the Mesozoic-Cenozoic rifting history. The suggested model of a positive-feedback (fire-like) evolution of nonlinear dynamical systems with rifting attractors opens a new perspective on the current geodynamics and tectonophysics of the Baikal rift system.  相似文献   

Interaction of an antecedent fluvial system with early normal fault growth: Implications for syn‐rift stratigraphy,western Corinth rift (Greece)          下载免费PDF全文

Romain Hemelsdaël  Mary Ford  Fabrice Malartre  Rob Gawthorpe 《Sedimentology》2017,64(7):1957-1997

Continental ‘overfilled’ conditions during rift initiation are conventionally explained as due to low creation of accommodation compared with sediment supply. Alternatively, sediment supply can be relatively high from the onset of rifting due to an antecedent drainage system. The alluvial Lower Group of the western Plio–Pleistocene Corinth rift is used to investigate the interaction of fluvial sedimentation with early rifting. This rift was obliquely superimposed on the Hellenide mountain belt from which it inherited a significant palaeorelief. Detailed sedimentary logging and mapping of the well‐exposed syn‐rift succession document the facies distributions, palaeocurrents and stratigraphic architecture. Magnetostratigraphy and biostratigraphy are used to date and correlate the alluvial succession across and between fault blocks. From 3·2 to 1·8 Ma, a transverse low sinuosity braided river system flowed north/north‐east to east across east–west‐striking active fault blocks (4 to 7 km in width). Deposits evolved downstream from coarse alluvial conglomerates to fine‐grained lacustrine deposits over 15 to 30 km. The length scale of facies belts is much greater than, and thus not directly controlled by, the width of the fault blocks. At its termination, the distributive river system built small, stacked deltas into a shallow lake margin. The presence of a major antecedent drainage system is supported by: (i) a single major sediment entry point; (ii) persistence of a main channel belt axis; (iii) downstream fining at the scale of the rift basin. The zones of maximum subsidence on individual faults are aligned with the persistent fluvial axis, suggesting that sediment supply influenced normal fault growth. Instead of low accommodation rate during the early rift phase, this study proposes that facies progradation can be controlled by continuous and high sediment supply from antecedent rivers.  相似文献   

秦岭造山带二叠纪裂谷发育特征及演化   总被引：2，自引：0，他引：2       下载免费PDF全文

王治平  赵培荣 《地球科学》1995,20(6):631-640

  相似文献   

Continental rift evolution: From rift initiation to incipient break-up in the Main Ethiopian Rift, East Africa   总被引：2，自引：0，他引：2  

Giacomo Corti   《Earth》2009,96(1-2):1-53

The Main Ethiopian Rift is a key sector of the East African Rift System that connects the Afar depression, at Red Sea–Gulf of Aden junction, with the Turkana depression and Kenya Rift to the South. It is a magmatic rift that records all the different stages of rift evolution from rift initiation to break-up and incipient oceanic spreading: it is thus an ideal place to analyse the evolution of continental extension, the rupture of lithospheric plates and the dynamics by which distributed continental deformation is progressively focused at oceanic spreading centres.The first tectono-magmatic event related to the Tertiary rifting was the eruption of voluminous flood basalts that apparently occurred in a rather short time interval at around 30 Ma; strong plateau uplift, which resulted in the development of the Ethiopian and Somalian plateaus now surrounding the rift valley, has been suggested to have initiated contemporaneously or shortly after the extensive flood-basalt volcanism, although its exact timing remains controversial. Voluminous volcanism and uplift started prior to the main rifting phases, suggesting a mantle plume influence on the Tertiary deformation in East Africa. Different plume hypothesis have been suggested, with recent models indicating the existence of deep superplume originating at the core-mantle boundary beneath southern Africa, rising in a north–northeastward direction toward eastern Africa, and feeding multiple plume stems in the upper mantle. However, the existence of this whole-mantle feature and its possible connection with Tertiary rifting are highly debated.The main rifting phases started diachronously along the MER in the Mio-Pliocene; rift propagation was not a smooth process but rather a process with punctuated episodes of extension and relative quiescence. Rift location was most probably controlled by the reactivation of a lithospheric-scale pre-Cambrian weakness; the orientation of this weakness (roughly NE–SW) and the Late Pliocene (post 3.2 Ma)-recent extensional stress field generated by relative motion between Nubia and Somalia plates (roughly ESE–WNW) suggest that oblique rifting conditions have controlled rift evolution. However, it is still unclear if these kinematical boundary conditions have remained steady since the initial stages of rifting or the kinematics has changed during the Late Pliocene or at the Pliocene–Pleistocene boundary.Analysis of geological–geophysical data suggests that continental rifting in the MER evolved in two different phases. An early (Mio-Pliocene) continental rifting stage was characterised by displacement along large boundary faults, subsidence of rift depression with local development of deep (up to 5 km) asymmetric basins and diffuse magmatic activity. In this initial phase, magmatism encompassed the whole rift, with volcanic activity affecting the rift depression, the major boundary faults and limited portions of the rift shoulders (off-axis volcanism). Progressive extension led to the second (Pleistocene) rifting stage, characterised by a riftward narrowing of the volcano-tectonic activity. In this phase, the main boundary faults were deactivated and extensional deformation was accommodated by dense swarms of faults (Wonji segments) in the thinned rift depression. The progressive thinning of the continental lithosphere under constant, prolonged oblique rifting conditions controlled this migration of deformation, possibly in tandem with the weakening related to magmatic processes and/or a change in rift kinematics. Owing to the oblique rifting conditions, the fault swarms obliquely cut the rift floor and were characterised by a typical right-stepping arrangement. Ascending magmas were focused by the Wonji segments, with eruption of magmas at surface preferentially occurring along the oblique faults. As soon as the volcano-tectonic activity was localised within Wonji segments, a strong feedback between deformation and magmatism developed: the thinned lithosphere was strongly modified by the extensive magma intrusion and extension was facilitated and accommodated by a combination of magmatic intrusion, dyking and faulting. In these conditions, focused melt intrusion allows the rupture of the thick continental lithosphere and the magmatic segments act as incipient slow-spreading mid-ocean spreading centres sandwiched by continental lithosphere.Overall the above-described evolution of the MER (at least in its northernmost sector) documents a transition from fault-dominated rift morphology in the early stages of extension toward magma-assisted rifting during the final stages of continental break-up. A strong increase in coupling between deformation and magmatism with extension is documented, with magma intrusion and dyking playing a larger role than faulting in strain accommodation as rifting progresses to seafloor spreading.  相似文献   

Lithologic Hydrocarbon Deposits in Rift Lake Basins in Eastern China   总被引：2，自引：0，他引：2  

ZHENG Herong  HE Zongquan Petroleum Exploration & Production Research Institute  SINOPEC  Beijing 《《地质学报》英文版》2004,78(3):644-650

The rift lake basins in the eastern China have abundant hydrocarbon resources of lithologic deposits, which resulted from excellent source rocks and multi-type sandbodies developed during strong rifting. Vertically, the lithologic deposits are mainly distributed in the lowstand, lacustrine invasion and early highstand systems of third-order sequence corresponding to a secondary tectonic episode of strong rifting, and laterally they are closely related to various fans and turbidite sandbodies controlled by syn-sedimentary faults. A variety of lithologic traps have been developed in the rift lake basins, and they generally have favorable conditions of source-reservoir-seal assemblage and hydrocarbon accumulation dynamics, indicating that there is a great exploration potential of lithologic deposits in the rift lake basins. In order to obtain satisfactory effects of lithologic deposit exploration, it is required to combine new theories with advanced technical methods.  相似文献   

陆相裂谷盆地构造沉积学特征:以松辽盆地伏龙泉断陷为例     

王宏语  李瑞磊  朱建峰  徐文 《现代地质》2019,33(6):1151-1162

构造沉积学不仅强调大地构造背景条件对盆地演化的控制作用,同时还注重盆地内部的构造特征与沉积充填特征之间的控制及响应关系研究。陆相裂谷盆地发育过程中,构造作用强烈,盆地沉积充填过程复杂,进行构造沉积学研究对揭示盆地构造沉积演化过程具有重要意义。以大量地震、钻测井资料为基础,结合大地构造背景资料,研究松辽盆地伏龙泉断陷发育过程中的构造、沉积演化特征,分析构造活动与沉积作用之间的响应及控制关系,并由此讨论半地堑陆相湖盆的沉积充填演化规律及其控制因素。研究表明,在伏龙泉断陷盆地演化过程中,早期的火山岩隆起对盆地初始裂陷期形态具有明显的影响作用;边界断层的分布及其生长速率特征则对盆地结构演化过程起着首要的控制作用。盆地裂陷期,研究区古气候环境比较稳定,构造因素是控制该陆相裂谷盆地地层序列与沉积特征的首要因素;断裂发育特征决定了盆地的古地貌特征,而盆地的古地貌特征直接影响着盆地内部的沉积充填类型与沉积体系展布格局;区域构造抬升与断块掀斜是该半地堑盆地内部发育不整合面的主要因素。在陆相裂陷盆地的构造沉积特征研究中,构造沉积学显示出了其必要性与适用性,有利于在揭示构造沉积现象的同时,合理解释其地质成因。  相似文献   

中-晚二叠世上扬子地块(四川盆地区)裂解的沉积响应     

邓莉  闫全人  宋博  高山林 《岩石学报》2021,37(8):2465-2482

中-晚二叠世,上扬子(四川盆地区)碳酸盐岩台地内发育三条北西-南东走向的裂谷,它们是重要的油气储集区带,如普光和元坝气田就产于开江-梁平裂谷两侧。但是对这些裂谷的开始时代和构造成因等关键地质问题,还缺乏详细的沉积学研究,且存在较大争议。本文通过大比例露头剖面和钻井岩芯测量以及详细的沉积相分析对比,对开江-梁平裂谷的构造沉积过程进行了深入细致的研究。调查发现,在开江-梁平裂谷北缘,中二叠统栖霞组上段至茅口组2段发育大规模斜坡相碳酸盐岩滑塌堆积,揭上扬子地块四川盆地区于中二叠世栖霞晚期开始发生伸展裂解。茅口组3段至上二叠统长兴组为超覆于滑塌堆积之上的硅质岩和碳-硅质泥岩等深水盆地相沉积,表明开江-梁平裂谷从中二叠世茅口晚期开始由伸展裂解转变为区域沉降,即开江-梁平裂谷经历了伸展裂解和区域沉降两个构造沉积阶段。伸展裂解阶段,开江-梁平裂谷是一个发育于碳酸盐岩台地内的不对称海相半地堑盆地,北侧为发育大规模碳酸盐岩滑塌堆积的下盘断斜坡带,南侧为发育缓斜坡生物碎屑滩和礁灰岩的上盘缓斜坡带;区域沉降阶段,开江-梁平裂谷表现为东翘西降的不均匀沉降,发育自东向西不断进积的潮坪-潟湖相和高能浅滩相沉积等。本文研究成结果对分析和圈定四川盆地区中-晚二叠世油气储集相带的时空分布具有重要科学意义,也为研究碳酸盐岩滑塌堆积提供了一个新范例。  相似文献