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1.
川渝湘鄂薄皮构造带多层拆离滑脱系的岩石力学性质及其对构造变形样式的控制 总被引:8,自引:1,他引:7
川渝湘鄂多层拆离推覆构造发育于秦岭-大别造山带、雪峰山厚皮构造带与四川盆地之间。这个薄皮构造带是在晚中生代沿一系列岩石薄弱层从南东向北西多层拆离滑脱构造作用下形成的,然而单纯的地表构造地质调查无法揭示各滑脱层是如何控制区内褶皱-断层关系的。因此,对拆离滑脱层进行识别是认识区内构造样式及其成因机制的关键。利用单轴岩石力学实验方法,对取自区内沿达县-大庸地质剖面不同岩性地层组合的样品进行岩石力学分析,并结合前人在区内已经获得的数据,结果表明区内至少发育5个可能的区域性拆离滑脱层。这些滑脱层主要由泥质岩、粉砂岩和泥质灰岩组成的,分别沿下寒武统牛碲塘组(Det I)、下志留统罗惹坪组和龙马溪组 (Det II)、下二叠统栖霞组(Det III)、下三叠统大冶组(Det IV)和中三叠统巴东组 (Det V)发育。野外调查表明,Det I控制了深部构造层次的断弯褶皱和叠瓦扇, Det II 可能控制了中部构造层次的断展褶皱和拆离褶皱,Det III则可能与Det IV和Det V一起,共同控制了上部构造层次的侏罗山式褶皱。 相似文献
2.
雪峰山西部中生代厚皮逆冲推覆构造样式与变形特征研究 总被引:2,自引:0,他引:2
雪峰山厚皮逆冲推覆构造带位于扬子地块东南缘,由南向北,主构造线走向由北北东向渐变为北东东向,形成向北西突出的弧形。构造带内基底新元古界板溪群大面积出露,这些基底出露的原因和构造方式是华南中生代大地构造分析的核心问题之一。以野外构造解析为基础,结合相关地球物理资料解释,对雪峰山西部逆冲推覆构造的构造样式与变形序列进行了系统的解析。结果表明,雪峰山构造带从印支期开始发育由南东向北西的大规模的逆冲推覆构造,逆冲断层在近地表向南东陡倾,向下逐渐收敛于基底内的滑脱断层之上。基底新元古界板溪群及早古生界均卷入了推覆构造,同时逆冲覆盖于中生代地层之上,形成厚皮构造,并造成了基底板溪群的大面积出露。 相似文献
3.
以慈利—安化走廊带为例, 对雪峰造山带北段西部地质构造特征进行了调查研究。研究表明, 雪峰造山带在廊带上可分为北部武陵断弯褶皱带和南部雪峰基底拆离带。武陵断弯褶皱带内主要发育北东东—东西向褶皱和同走向逆断裂, 另有少量北东向和北北西向右行平移断裂、北东东—东西向正断裂; 雪峰基底拆离带发育东西—北东向褶皱和同走向逆断裂、正断裂以及少量北东向平移断裂。武陵断弯褶皱带变形主要受控于板溪群底界面向北的滑脱及其导生的逆冲; 雪峰基底拆离带变形主要受控于切穿冷家溪群褶皱基底的断裂拆离与逆冲, 拆离与逆冲的方向总体由南向北, 但南缘总体逆冲方向指向南, 从而组成背冲构造样式。上述褶皱和断裂形成于武陵运动、加里东运动、印支运动、早燕山运动等挤压事件, 白垩纪伸展事件, 古近纪中晚期区域北东—北北东向挤压以及古近纪末—新近纪初北西向挤压等构造事件, 其中以加里东运动和印支运动形成的褶皱和同走向逆断裂最为重要。雪峰造山带北段与中段—南段一样具背冲构造样式, 但受加里东期近南北向挤压的区域大地构造背景影响, 北段逆冲、增厚和抬升作用的强度与幅度更大。 相似文献
4.
川东南地区构造变形复杂,二叠系和志留系含有丰富的页岩气资源。依据岩性和地震资料的解释,寒武系膏盐层与中-下三叠统膏盐层对构造变形有重要控制作用,多数断层沿膏盐层滑脱。研究区包括盆内和盆缘两部分,盆内发育形态对称的盖层滑脱式褶皱;盆缘发育基底卷入式褶皱冲断构造,分为山前推覆带和山前转换带,前者发育高陡的三角楔构造,后者由冲断带、褶皱带和斜坡带组成。构造演化分析表明:晚侏罗世齐岳山断层开始发育,盆内地层发生挠曲变形;白垩纪盆缘形成三角楔构造,盆内主要构造和断裂已经发育;新生代齐岳山褶皱隆升,盆内寒武系之上沉积盖层褶皱形成多个背斜和向斜。山前推覆带构造高陡、变形强烈,页岩气保存条件差;山前转换带构造变形程度适中,其褶皱带背斜完整,页岩气保存条件好;盆内中-下三叠统膏盐层封盖性好,埋深适中的背斜为页岩气有利勘探目标区。 相似文献
5.
长江中下游燕山期逆冲推覆构造及成因机制 总被引:8,自引:5,他引:3
长江中下游地区为我国著名铜、铁多金属成矿带之一.本文根据长江中下游及邻近地区构造等特征,将该区构造单元自北向南划分为华北地块、大别造山带、长江中下游前陆构造带、扬子地块、华夏地块;并进一步将长江中下游前陆构造带细分为保康-武汉-宿松-巢湖褶冲带、长江中下游中生代坳陷带、通山-瑞昌-石台-宁国褶冲带三个次级构造带.在燕山早期,长江以北的保康-武汉-宿松-巢湖褶冲带逆冲构造极性指向SE,而长江以南的通山-瑞昌-石台-宁国褶冲带逆冲构造极性指向NW.长江以南褶皱样式在岳阳-通山-瑞昌一线以南由隔挡式变为隔槽式,叠瓦式逆冲断裂更发育.在九岭-幕阜山隆起及南部的白垩纪红色盆地基底中逆冲断裂多为高角度,褶皱多为隔槽式,元古宇的浅变质岩卷入逆冲作用,为典型的厚皮构造.长江以北的紧闭同斜褶皱主体形成在印支期,随后被早燕山期的逆冲推覆作用改造.结合野外地质调查,通过对已有跨长江中下游地区的深地震剖面重新解释,发现以长江为界,长江中下游地区北侧深部、浅部构造处于耦合状态;而南侧深部、浅部构造已经脱藕,形成上下地壳的“鱼骨刺”结构,深部构造可能是是印支期扬子地块向华北地块下俯冲的残余结构.长江中下游地区浅部从北向南的逆冲作用应该与大别造山带超高压变质岩挤出有关,而从东南向北西的逆冲推覆作用可能同中侏罗世古太平洋板块向亚洲大陆俯冲有关. 相似文献
6.
The Daba Mountains define the southern margin of the East Qinling orogenic belt, and form the boundary of the Sichuan basin
in the north and northeast. The Daba Mountains can be divided into two structural belts by the NW-striking Chengkou fault,
namely the northern Dabashan thrust-nappe belt and the southern Dabashan foreland fold-and-thrust belt. The southern Dabashan
fold-and-thrust belt is a southwestward extruding thin-skinned thrust wedge, showing obvious belted change in deformation
style and deformation intensity along the dip direction, and can be divided further into three sub-belts, i.e. the imbricate
thrust sub-belt characterized by imbricate stepped-thrust sheets, the thrust-fold sub-belt characterized by the combination
of the equally-developed thrusts and related folds, and the detachment-fold sub-belt characterized by box folds and closed
overturned-isoclinal folds on the outcrops. Several kinds of structures have been recognized or inferred, including imbricate
thrust system, passive-roof duplex (triangle zone), fault-related folds, back-thrust system and pop-up structure. The NE-SW
compressive stress from the Qinling orogenic belt and detachment layers in the covering strata are the two most important
determinants of deformation style. After the collision between the North China block and Yangtze block at the end of the Middle
Triassic, the northward intracontinental subduction along the southern edge of the Qinling orogenic belt was initiated, which
led to the corresponding southward thrusting in the upper crust. The thrusting propagated towards the foreland through the
Jurassic and extended to the southernmost part of the southern Daba Mountains around the end of the Early Cretaceous, with
thrusting deformation to be preferentially developed along major detachment layers and progressing upwards from the Lower
Sinian through the Lower Cambrian and Silurian to Middle-Lower Triassic.
Translated from Geotectonica et Metallogenia, 2006, 30(3): 294–304 [译自: 大地构造与成矿学] 相似文献
7.
《International Geology Review》2012,54(5):469-477
The Late Precambrian through Silurian tectonic evolution of east-central South China is modeled in terms of a history of rift, drift, and collision during Late Proterozoic, Sinian, and Late Ordovician-Early Silurian times, respectively. We review the regional stratigraphie development of this area, focusing particularly on north-central Hunan province, and argue from our observations and those of others that the Jiangnan, Xuefeng, and Jiuling ranges of the Nanling realm approximately demarcate the paleogeographic transition in Sinian to Ordovician times of shelf to off-shelf environments developed along a passive-type continental margin that started rifting in the pre-Sinian Late Proterozoic. The rift sequence is recorded by the Penhsi (= Banxi) Group, which rests unconformably above an older-presumed Middle to early Late Proterozoic-low-grade metamorphic basement. The Penhsi varies markedly in thickness but is everywhere characterized by nonmarine to paralic clastic facies. The Penhsi conformably to disconformably underlies the Sinian through Lower Paleozoic sequence throughout central South China, which developed along an E-facing, passive-type continental margin. This passive-type margin was destroyed by the Guangxian Orogeny. The Guangxian Orogeny was marked initially by the northwestward progradation of deep-marine turbidites of Late Ordovician age in the most off-shelf regions, progressing to earliest Silurian age on the shelf to the northwest. Folding and concomitant thrusting in the off-shelf regions, and subsequent erosion beneath the unconformably overlying nonmarine Middle Devonian strata, truncate the stratigraphie record of the orogen within the Early Silurian. Farther northwest, in regions undisturbed by the Guangxian Orogeny, Silurian foreland-basin sedimentation included the entire Lower Silurian succession, which grades rapidly upward from basinal to inter-tonguing marine and nonmarine elastics. This reflects a change from flexurally induced subsidence first outpacing local sedimentation, followed by sedimentation outstripping and then keeping pace with subsidence. 相似文献
8.
为了研究鄂西地区深层地质结构及其对油气成藏的控制作用,本文以断层相关褶皱理论为基础,采取浅表大剖面和地震剖面解析相结合的手段,对研究区的构造单元进行了重新厘定。经过一系列研究之后,制定出了新的构造单元划分方案,并得出了相应结论:1)基于寒武系底界的构造T0图,对鄂西地区构造单元进行了重新厘定;新划分的构造单元自北西到南东可分为利川构造带、恩施构造带、宣恩构造带、南北镇构造带、桑植—石门构造带和雪峰逆冲掩伏带;2)鄂西地区具备北西、南东分带性和垂向分层性。研究区的共性大于个性,整体的变形受基底滑脱层的形态变化的影响,呈现出多排背斜并排发育的现象。每一个新的构造单元以背斜为主体,其隆升基本上都受控于基底发育的基底逆冲断层,少数受控于基底双向逆冲构造。 相似文献
9.
南大巴山冲断褶皱带区域构造大剖面的构建和结构分析 总被引:2,自引:0,他引:2
大巴山冲断带的结构复杂,在平面上城口-房县断裂将其分为北、南大巴山冲断褶皱带,北大巴山被认为是南秦岭造山带和扬子地块之间的拼合带,南大巴山代表了典型的前陆冲断褶皱带的特点。本文主要针对南大巴山冲断带进行构造解析。研究指出,南大巴山冲断带剖面上具有多层次和多期次滑脱变形的特点:浅层次的滑脱面为下三叠统嘉陵江组灰岩中的石膏层,卷入的层序为其后的中生界;深层次滑脱体系为沿着震旦系页岩和嘉陵江组膏盐层两个滑动面之间活动形成的冲断变形。完成了切过南大巴山不同构造部位的3条多资料约束的综合地质剖面,以此详细解析了冲断带深浅层次的冲断结构及分布规律,在平衡恢复的基础上,分析了该冲断带的几何结构和运动过程,确定了大巴山和川东两个不同构造单元的空间对接关系,提出南大巴山冲断带为一多层次、空间上强烈收缩的复杂薄皮冲断体系。 相似文献
10.
雪峰山陆内造山带的构造特征与演化 总被引:49,自引:2,他引:47
在对雪峰山的地质构造及其演化作了研究,并和阿尔卑斯式、阿巴拉契亚式的造山带和远程推覆体作了对比研究以后,作者认为:雪峰山地区的地质构造以具有多期,多层次的层滑构造为主要特色。其主要特征表现为在垂向剖面上有着多个区域性滑脱层,发育株罗山式褐挣矣逆冲叠瓦推覆构造,但它不是阿巴拉契式远程异地推覆体而是准原地型的。逆掩推覆虽然使原来沉积相带变窄,但并未破坏原来扬子地块东南边缘自北西向南东的由台地相--斜坡相--深水盆地相的沉积古地理格局,它是陆内造山带常见的构造样式,是在陆内裂陷的背景上由于裂谷关闭时陆块拼贴碰撞(即所谓软碰撞)和陆内俯冲产生的。雪峰山地区也发育伸展剥离和滑覆构造,伴随每一次挤压造山、地壳加厚的过程,在后造山期,也有地壳的隆升、地壳的拉伸和厚度减薄,它是深部岩石圈拆沉作用在地壳中的表现。 相似文献
11.
对于雪峰山及其北西侧邻区发育的厚皮-薄皮构造样式前人已进行过较多研究,但关于厚皮和薄皮构造组合样式间的关系及转换过程则较少涉及,因此难以建立起区域性运动学模式;并导致对华南大地构造,特别是中—新生代构造体制的不同认识。对穿越雪峰山北东段及其北西侧邻区的薄皮-厚皮(桑植—安化)剖面进行了详细的构造样式、运动学与变形过程分析,结合地震剖面和大地电磁测深对深部构造的解释,综合区域构造关系,我们认为:早志留世至中泥盆世雪峰山板溪群等基底沿高角度断层逆冲抬升形成厚皮构造;中三叠世至侏罗纪,厚皮构造重新活化,大庸断裂带(亦称慈利—张家界—保靖断裂带)由一系列高角度断层向下收敛并沿板溪群内的板岩发育平缓的顺层滑脱断层,同时向北西侧逆冲形成薄皮构造。其薄皮构造样式主要为箱状向斜及受由深至浅的断坪-断坡式拆离断层控制的平缓背斜。 相似文献
12.
雪峰山中段古生代变形的特征及意义——以绥宁-靖州-天柱-新晃剖面为例 总被引:2,自引:0,他引:2
对雪峰山中段绥宁-靖州(会同)-天柱-新晃剖面的研究表明,雪峰山中段的变形自东向西减弱,由东部的向西倒转紧闭褶皱过渡到西部的开阔褶皱。东部(绥宁-靖州段)卷入褶皱的为南华系和震旦系—下古生界,褶皱样式表明东部在南华系与板溪群之间存在一区域性的滑脱面,本段缩短11km。剖面西段(靖州(会同)-天柱-新晃段)卷入变形的为板溪群、南华系和震旦系—下古生界,主要滑脱面位于板溪群下部或冷家溪群与板溪群之间,该段缩短46km。东西2段之间的界线是早期控制板溪群和南华系沉积的正断层。研究得出的缩短量为最小值,与前人的研究结果一致,表明古生代雪峰山逆冲推覆距离不大。雪峰山中段石炭系与南华系之间的超覆不整合、靖州盆地的构造属性和雪峰山剖面的变形特征显示,雪峰山中段的变形发生在早古生代。雪峰山早古生代变形是早期裂谷的反转,属薄皮构造。 相似文献
13.
南大巴山前陆冲断带构造样式及变形机制分析 总被引:35,自引:9,他引:26
大巴山构造带位于秦岭造山带和四川盆地的过渡部位,形成于印支-燕山期,定型于喜山期。按照构造变形样式及其组合特征,从北东向南西可依次划分为北大巴山逆冲推覆构造带、南大巴山前陆褶皱-冲断带(又包括叠瓦断层带、断层-褶皱带和滑脱褶皱带等3个亚带)和四川盆地东北部低缓构造区等3个构造带(区)。南大巴山冲断带地表构造以类侏罗山式褶皱为显著特征,主要发育叠瓦断层系、断层相关褶皱、被动顶板双重构造、反冲断层系和冲起构造等变形样式。北东-南西向挤压应力和滑脱层是控制南大巴山及其前缘构造变形的主要因素,结合区域地质研究成果,建立了南大巴山及其前缘地区依次从震旦系-下寒武统-志留系-中下三叠统逐渐抬高的多层次滑脱前展模式。 相似文献
14.
The Chos Malal fold and thrust belt (FTB) is a thick-skinned mountain belt formed by Mesozoic deposits of the Neuquén Basin during the Andean orogeny. Four structural cross-sections in the entire deformed area, supported by field and subsurface data, suggest a strong link between thick and thin-skinned structures. Major Andean thrusts branching from a detachment placed 12 km into the crust created large basement wedges, which were inserted in the cover producing minor order structures. The westernmost of these wedges is exposed forming the Cordillera del Viento, while others basement slices at depth were interpreted from seismic lines. These thick-skinned structures transferred deformation to the cover along the Auquilco Formation and contributed to create all thin-skinned structures surveyed in the Chos Malal FTB. We recognized half-graben geometries in the seismic lines, preserving their extensional configuration, which suggests that the main normal faults were not inverted. Shortenings calculated from the restoration of the four cross-sections are 16.9 km (29.7%), 16.9 km (29.7%), 14.7 km (26.9%) and 14.15 km (26.3%), which evidence a slight diminution of the contraction toward the south probably associated with the plunge of the Cordillera del Viento structure in this segment of the Chos Malal FTB. 相似文献
15.
东山峰背斜是湘鄂西褶皱冲断带的一部分,剖面构造为基底和盖层组成的双层结构。由于江南-雪峰基底拆离推覆隆起带向NW方向的推挤,导致湘鄂西区沉积盖层沿南华系和震旦系陡山沱组下段、寒武系牛蹄塘组、志留系龙马溪组等三个主滑面发生了三个层次的滑脱和褶皱,形成自底部滑脱层向上传播的以前展式的正向(倾向SE)冲断系。铅锌矿的产出层位与矿源层的分布层位有一定的依存关系,寒武系下统牛蹄塘组是区内主要的铅锌矿源层,矿源层与构造形迹共同控制了东山峰背斜范围内的铅锌矿分布。背斜两翼构造形迹的不同,造成了两翼铅锌矿化特征的差异,背斜西部轴部转折区带是最具找矿潜力的部位。 相似文献
16.
塔里木盆地南部玛东早古生代褶皱-冲断带 总被引:2,自引:0,他引:2
玛东褶皱-冲断带位于塔里木盆地南部,走向NE-SW,由NW向SE方向冲断。褶皱冲断带发育于寒武-奥陶系,以中寒武统膏-盐层为主滑脱面。中志留统及其以上地层不整合于褶皱冲断带之上。它是世界上保存最好的早古生代褶皱冲断带之一。根据卷入变形最新地层、不整合于褶皱-冲断带之上的最老地层和上奥陶统上部的生长地层,玛东褶皱-冲断带的变形时间为晚奥陶世-早志留世。玛东褶皱-冲断带与其东南侧的塘南褶皱-冲断带同为塔里木盆地南缘早古生代前陆褶皱-冲断带的组成部分,塘南褶皱-冲断带是该早古生代前陆褶皱-冲断带主体的残余,其向NW的主冲断方向代表该前陆褶皱-冲断带的主冲断方向;玛东褶皱-冲断带是该早古生代前陆褶皱-冲断带的前锋,其向SE的冲断具有反冲性质。它们是昆仑早古生代造山作用的重要记录,也是昆仑早古生代碰撞造山带的组成部分,现今保存最好的部分。 相似文献
17.
Main Structural Styles and Deformation Mechanisms in the Northern Sichuan Basin, Southern China 总被引:3,自引:2,他引:1
The Triassic Jialingjiang Formation and Leikoupo Formation are characterized by thick salt layers. Three tectono-stratigraphic sequences can be identified according to detachment layers of Lower-Middle Triassic salt beds in the northern Sichuan Basin, i.e. the sub-salt sequence composed of Sinian to the Lower Triassic Feixianguan Formation, the salt sequence of the Lower Triassic Jialingjiang Formation and Mid-Triassic Leikoupou Formation, and the supra-salt sequence composed of continental clastics of the Upper-Triassic Xujiahe Formation, Jurassic and Cretaceous. A series of specific structural styles, such as intensively deformed belt of basement-involved imbricated thrust belt, basement-involved and salt-detached superimposed deformed belt, buried salt-related detached belt, duplex, piling triangle zone and pop-up, developed in the northern Sichuan Basin. The relatively thin salt beds, associated with the structural deformation of the northern Sichuan Basin, might act as a large decollement layer. The deformation mechanisms in the northern Sichuan Basin included regional compression and shortening, plastic flow and detachment, tectonic upwelling and erosion, gravitational sliding and spreading. The source rocks in the northern Sichuan Basin are strata underlying the salt layer, such as the Cambrian, Silurian and Permian. The structural deformation related to the Triassic salt controlled the styles of traps for hydrocarbon. The formation and development of hydrocarbon traps in the northern Sichuan Basin might have a bearing upon the Lower-Middle Triassic salt sequences which were favorable to the hydrocarbon accumulation and preservation. The salt layers in the Lower-Middle Triassic formed the main cap rocks and are favorable for the accumulation and preservation of hydrocarbon. 相似文献
18.
Surface and subsurface data are integrated to characterize the structural architecture of the Marathon fold and thrust belt in west Texas. Multiple detachment levels are present within the thrust belt and result in distinct structural domains. In addition to the basal décollement, whose stratigraphic position varies along strike, we recognize a regionally extensive detachment zone in the late Mississippian to early Pennsylvanian lower Tesnus Formation. The Lower Tesnus Detachment forms a structural domain boundary that can be observed along strike in the surface data and at depth in the subsurface. The stratigraphic intervals above and below this detachment exhibit characteristic patterns of deformation. The Lower Tesnus Detachment is folded by imbrication and the formation of duplexes in the early Mississippian to Ordovician section, suggesting that the detachment may have initially formed as a perched décollement in the foreland that was subsequently exploited as a roof thrust in a duplex system as deformation progressed in a break-forward sequence and older strata were incorporated into the toe of the allochthonous wedge. The structural model presented here for the Marathon region may be applicable across much of the Ouachita orogenic system. 相似文献
19.
The structure of the Chilean Frontal Cordillera, located over the Central Andes flat-slab subduction segment (27°–28.5°S), is characterized by a thick-skinned deformation, affecting both the pre-rift basement and the Mesozoic and Cenozoic infill of the NNE-SSW Lautaro and Lagunillas Basins, which were developed during the Pangea-Gondwana break-up. The compressive deformation show a complex interaction between Mesozoic rift structures and thrust systems, affecting a suite of Permo-Triassic (258–245 Ma) granitic blocks. We used a combination of geological mapping, new structural data, balanced and restored cross sections and geochronological data to investigate the geometry and kinematics of the Andean thick-skinned thrust systems of the region. The thrust systems include double-vergent thick-skinned thrust faults, basement-cored anticlines and minor thin-skinned thrusts and folds. The presence of Triassic and Jurassic syn-rift successions along the hanging wall and footwall of the basement thrust faults are keys to suggest that the current structural framework of the region should be associated with the shortening of previous Mesozoic half grabens. Based on this interpretation, we propose a deformation mechanism characterized by the tectonic inversion of rift-related faults and the propagation of basement ramps that fold and cut both, the early normal faults and the basement highs. New U–Pb ages obtained from synorogenic deposits (Quebrada Seca and Doña Ana formations) indicate at least three important compressive pulses. A first pulse at ∼80 Ma (Late Cretaceous), a second pulse related to the K-T phase of Andean deformation and, finally, a third pulse that occurred during the lower Miocene. 相似文献
20.
雪峰隆起是扬子准地台与南华褶皱系的分界单元,经历晋宁晚期古隆起、加里东期末局部隆起和中生代全面隆起3个阶段的演化历程,上叠中生代陆相盆地。雪峰山构造带主要为陆内造山带,据变形特征从NW至NE划分为3个平行的NNE-NEE向弧形构造带。呈现出从中深层次韧性、脆韧性-中浅层次韧脆性变形-浅层次脆性变形的变化规律。雪峰山及邻区推滑覆构造十分发育,主要形成于中生代,组成不对称背冲式扇形雪峰推滑覆构造系。雪峰隆起西侧武陵坳陷为被动陆缘区,有下、上两大套海相生储盖组合及加里东期、印支期、中生代等三大油气形成阶段。雪峰山隆起及其邻区侏罗山式褶皱及推覆构造发育,其下可能保存部分残存海相油气藏。 相似文献