盆-山转换带构造变形特征及成因机制——以四川盆地东南部桑木场背斜为例

doi:10.11743/ogg20210212

Abstract

Abstract:

The Sangmuchang Anticline, sitting at a crucial location where the front of "trough-like" fold belt in western Hubei and Hunan Provinces superimposing the "barrier-style" fold belt in southeastern Sichuan Basin, was chosen to be studied to gain insight into the superimposition relationship between the belts as well as the tectonic deformation characteristics and genetic mechanisms of this mountain-basin transitional zone from Xuefeng Mountains to the Sichuan Basin.Available seismic and logging data together with DEM digital elevation and other related geological information were combined with fault-related fold theories to perform a fine interpretation of multiple 2D seismic sections crossing the anticline for architectural characterization and to establish a kinematics model with the balanced section restoration technique for tectonic evolution analysis.The study has concluded that the deformation of the anticline involves layered decollement with a mutual structural superposition in vertical direction, and that with some consistently deformed cap-rocks and bedding shear deformation dominating along the decollement surface, the overall structure of the anticline is under the joint influence of basement occurrence and Qiyueshan Fault.The fault is a concealed system formed by the combination of several basement thrusting faults striking near south-east, and the deep basement wedge and imbricated structures are thereby in superimposition, jointly controlling the anticline deformation.Further analysis shows that the anticline deformation initiated since the middle of Yanshan period, and its tectonic evolution has experienced the superposition of multiple tectonic movements.Under the westward thrusting of Xuefeng Mountains, the east-to-west progressive tectonic deformation of the west of Hunan and Hubei "trough-like" fold belt controls the activity of the deep tectonic wedges and the imbricated structures, which in turn control the main tectonic form of the anticline.The influence of the "partition-style" fold belt in the interior of the southeastern Sichuan Basin on the tectonic deformation of the dorsal basin-mountain transitional zone is mainly reflected in the anterior flank of the dorsal slope, resulting in the broad gentle fore wing and the steep narrow back wing of the anticline.

Key words: layered decollement deformation, geological architecture, structural evolution, Qiyueshan Fault, basin-mountain transitional zone, Sichuan Basin

CLC Number:

TE121.1

Jinhe Yang. Characteristics and genetic mechanism of tectonic deformation in basin-mountain transitional zone: A case study of Sangmuchang Anticline in southeastern Sichuan Basin[J]. Oil & Gas Geology, 2021, 42(2): 416-429.

Figures/Tables 8

Fig.1

Fig.2

Fig.3

Fig.4

Fig.5

Fig.6

Fig.7

Fig.8

References 56

1	钟城, 秦启荣, 何威, 等. 桑木场背斜沙溪庙组节理特征与构造解析[J]. 科学技术与工程, 2017, 17 (30): 194- 201. doi: 10.3969/j.issn.1671-1815.2017.30.028
	Zhong Cheng , Qin Qirong , He Wei , et al. Characteristic and tectonic analysis for joints of Shaximiao Formation in the Sangmuchang Anticline[J]. Science Technology and Engineering, 2017, 17 (30): 194- 201. doi: 10.3969/j.issn.1671-1815.2017.30.028
2	吴航, 邱楠生, 常健, 等. 川东多套滑脱层褶皱构造带形成物理模拟[J]. 地球科学, 2019, 44 (3): 784- 797.
	Wu Hang , Qiu Nansheng , Chang Jian , et al. Physical simulation on development of multilayer detachment fold belt in Eastern Sichuan[J]. Earth Science, 2019, 44 (3): 784- 797.
3	霍建峰, 高健, 郭小文, 等. 川东地区龙马溪组页岩不同岩相孔隙结构特征及其主控因素[J]. 石油与天然气地质, 2020, 41 (6): 1162- 1175.
	Huo Jianfeng , Gao Jian , Guo Xiaowen , et al. Characteristics and controlling factors of pore structures of various lithofacies in shales of Longmaxi Formation, eastern Sichuan Basin[J]. Oil & Gas Geology, 2020, 41 (6): 1162- 1175.
4	洪克岩, 李博, 姜生玲, 等. 湘鄂西低勘探程度区构造解释及页岩气保存条件——以来凤咸丰区块为例[J]. 断块油气田, 2017, 24 (6): 779- 782.
	Hong Keyan , Li Bo , Jiang Shengling. , et al. Structural interpretation and shale gas preservation conditions of low exploration level region, western Hunan-Hubei: taking Laifeng-Xianfeng Block as an example[J]. Fault-Block Oil and Gas Field, 201, 24 (6): 779- 782.
5	胡璐宇. 渝东南地区构造特征及其对页岩气富集的影响[D]. 徐州: 中国矿业大学, 2017.
	Hu Luyu. Tectonic Characteristics and its effect on shale gas enrichment in the regional of Southeastern Chongqing[D]. Xuzhou: China University of Mining and Technology, 2017.
6	黄仁春, 魏祥峰, 王强. 四川盆地东南缘丁山地区页岩气成藏富集的关键控制因素[J]. 海相油气地质, 2017, 22 (2): 25- 30. doi: 10.3969/j.issn.1672-9854.2017.02.004
	Huang Renchun , Wei Xiangfeng , Wang Qiang . Key Factors of shale gas accumulation in Dingshan Area of Southeastern Sichuan Basin[J]. Marine Origin Petroleum Geology, 2017, 22 (2): 25- 30. doi: 10.3969/j.issn.1672-9854.2017.02.004
7	郭卫星, 熊亮, 魏力民. 川东南构造变形特征及其对页岩气保存的影响[J]. 煤田地质与勘探, 2016, 44 (6): 21- 26. doi: 10.3969/j.issn.1001-1986.2016.06.004
	Guo Weixing , Xiong Liang , Wei Limin . Structure deformation of southeast Sichuan and its influences on preservation of shale gas[J]. Coal Geology & Exploration, 2016, 44 (6): 21- 26. doi: 10.3969/j.issn.1001-1986.2016.06.004
8	魏峰, 陈孔全, 庹秀松. 川东齐岳山断层北部差异构造变形特征[J]. 石油实验地质, 2019, 41 (3): 348- 354.
	Wei Feng , Chen Kongquan , Tuo Xiusong . Differential tectonic deformation in the northern Qiyueshan Fault, eastern Sichuan Basin[J]. Petroleum Geology and Experiment, 2019, 41 (3): 348- 354.
9	刘学锋, 刘成鑫. 渝鄂湘边区构造样式分析[J]. 石油天然气学报, 2002, 24 (2): 1- 4. doi: 10.3969/j.issn.1000-9752.2002.02.001
	Liu Xuefeng , Liu Chengxin . Analysis of structural styles at the juncture of Chongqing, Hubei and Hunan[J]. Journal of Jianghan Petroleum Institute, 2002, 24 (2): 1- 4. doi: 10.3969/j.issn.1000-9752.2002.02.001
10	张必龙, 朱光, DazhiJ, 等. 川东"侏罗山式"褶皱的数值模拟及成因探讨[J]. 地质论评, 2009, 55 (5): 701- 711. doi: 10.3321/j.issn:0371-5736.2009.05.012
	Zhang Bilong , Zhu Guang , Dazhi J , et al. Numerical modeling and formation mechanism of the Eastern Sichuan Jura-type Folds[J]. Geological Review, 2009, 55 (5): 701- 711. doi: 10.3321/j.issn:0371-5736.2009.05.012
11	杨坤光, 李学刚, 戴传固, 等. 黔东南隔槽式褶皱成因分析[J]. 地学前缘, 2012, 19 (5): 53- 60.
12	柏道远, 钟响, 贾朋远, 等. 雪峰造山带及邻区构造变形和构造演化研究新进展[J]. 华南地质与矿产, 2015, 31 (4): 321- 343. doi: 10.3969/j.issn.1007-3701.2015.04.001
	Bo Daoyuan , Zhong Xiang , Jia Pengyan , et al. Progresses in the deformations and tectonic evolutions of the Xuefeng Orogenic Belt and its adjacent areas[J]. Geology and Mineral Resources of South China, 2015, 31 (4): 321- 343. doi: 10.3969/j.issn.1007-3701.2015.04.001
13	柏道远, 熊雄, 杨俊, 等. 齐岳山断裂东侧盆山过渡带褶皱特征及其变形机制[J]. 大地构造与成矿学, 2015, 39 (6): 1008- 1021.
	Bo Daoyuan , Xiong Xiong , Yang Jun , et al. Characteristics and dynamic mechanisms of the folds in the basin-mountain transition zone, East of the Qiyueshan Fault[J]. Geotectonica et Metallogenia, 2015, 39 (6): 1008- 1021.
14	颜丹平, 汪新文, 刘友元. 川鄂湘边区褶皱构造样式及其成因机制分析[J]. 现代地质, 2000, 14 (1): 37- 43.
	Yan Danping , Wang Wenxin , Liu Youyuan . Analysis of fold style and it's formation mechanism in the area of boundary among Sichuan, Hubei and Hunan[J]. Geoscience, 2000, 14 (1): 37- 43.
15	颜丹平, 邱亮, 陈峰, 等. 华南地块雪峰山中生代板内造山带构造样式及其形成机制[J]. 地学前缘, 2018, 25 (1): 1- 13.
	Yan Danping , Qiu Liang , Chen Feng , et al. Structural style and kinematics of the Mesozoic Xuefengshan intraplate orogenic belt, South China Block[J]. Earth Science Frontiers, 2018, 25 (1): 1- 13.
16	Yan D , Zhou M , Song H , et al. Origin and tectonic significance of a Mesozoic multi-layer over-thrust system within the Yangtze Block (South China)[J]. Tectonophysics, 2003, 361 (3): 239- 254.
17	Yan D P , Zhang B , Zhou M F , et al. Constraints on the depth, geometry and kinematics of blind detachment faults provided by fault-propagation folds: An example from the Mesozoic fold belt of South China[J]. Journal of Structural Geology, 2009, 31 (2): 150- 162. doi: 10.1016/j.jsg.2008.11.005
18	庹秀松, 陈孔全, 罗顺社, 等. 渝东大焦石坝地区差异构造变形[J]. 石油与天然气地质, 2019, 40 (5): 1074- 1083.
	Tuo Xiusong , Chen Kongquan , Luo Shunshe , et al. Differential structural deformation of the Dajiaoshiba area, East Chongqing[J]. Oil & Gas Geology, 2019, 40 (5): 1074- 1083.
19	赵旭东. 四川盆地东缘构造几何学与运动学[D]. 北京: 中国地质大学(北京), 2017.
	Zhao Xudong. Structural Geometrics and Kinematics of Eastern Margin of Sichuan Basin[D]. Beijing: China University of Geosciences, Beijing, 2017.
20	庹秀松, 陈孔全, 罗顺社, 等. 四川盆地东南缘齐岳山断裂构造特征与页岩气保存条件[J]. 石油与天然气地质, 2020, 41 (5): 1017- 1027.
	Tuo Xiusong , Chen Kongquan , Luo Shunshe , et al. Structural characteristics of Qiyueshan Fault and shale gas preservation at the southeastern margin of Sichuan Basin[J]. Oil & Gas Geology, 2020, 41 (5): 1017- 1027.
21	范存辉, 李虎, 钟城, 等. 川东南丁山构造龙马溪组页岩构造裂缝期次及演化模式[J]. 石油学报, 2018, 39 (4): 379- 390.
	Fan Cunhui , Li Hu , Zhong Cheng , et al. Tectonic fracture stages and evolution model of Longmaxi Formation shale, Dingshan structure, Southeast Sichuan[J]. Acta Petrolei Sinica, 2018, 39 (4): 379- 390.
22	王东. 川东南桑木场-酒店垭构造形成演化与多期流体充注[D]. 成都: 成都理工大学, 2009.
	Wang Dong. Theevolution and multi-phase fluids injection of Sangmuchang-Jiudianya Structure, Southeast of Sichuan Basin[D]. Chengdu: Chengdu University of Technology, 2009.
23	张旭亮. 鄂西-渝东地区构造演化及成因机制[D]. 北京: 中国地质大学(北京), 2019.
	Zhang Xuliang. Tectonic evolution and genetic mechanism of Western Hubei and Eastern Chongqing Area[D]. Beijing: China University of Geosciences, Beijing, 2019.
24	吴航. 川东地区中-新生代构造隆升过程研究[D]. 北京: 中国石油大学(北京), 2019.
	Wu Hang. Meso-Cenozoic tectonic uplift process of the Eastern Sichuan Basin[D]. Beijing: China University of Petroleum, Beijing, 2019.
25	覃作鹏, 刘树根, 邓宾, 等. 川东南构造带中新生代多期构造特征及演化[J]. 成都理工大学学报(自然科学版), 2013, 40 (6): 703- 711.
	Tan Zuopeng , Liu Shugen , Deng Bin , et al. Multiphase structural features and evolution of Southeast Sichuan tectonic belt in China[J]. Journal of Chengdu University of Technology(Science & Technology Edition), 2013, 40 (6): 703- 711.
26	孙博, 邓宾, 刘树根, 等. 多期叠加构造变形与页岩气保存条件的相关性-以川东南焦石坝地区为例[J]. 成都理工大学学报(自然科学版), 2018, 45 (1): 109- 120. doi: 10.3969/j.issn.1671-9727.2018.01.09
	Sun Bo , Deng Bin , Liu Shugen , et al. Discussion on correlation between multistage superimposed tectonic deformation and shale gas preservation conditions in the Jiaoshiba shale-gas field, Sichuan, China[J]. Journal of Chengdu University of Technology(Science & Technology Edition), 2018, 45 (1): 109- 120. doi: 10.3969/j.issn.1671-9727.2018.01.09
27	邓宾, 刘树根, 王国芝, 等. 四川盆地南部地区新生代隆升剥露研究——低温热年代学证据[J]. 地球物理学报, 2013, 56 (6): 1958- 1973.
	Deng Bin , Liu Shugen , Wang Guozhi , et al. Cenozoic uplift and exhumation in southern Sichuan Basin-Evidence from low-temperature thermochronology[J]. Chinese Journal of Geophysics, 2013, 56 (6): 1958- 1973.
28	邓宾, 刘树根, 刘顺, 等. 四川盆地地表剥蚀量恢复及其意义[J]. 成都理工大学学报(自然科学版), 2009, 36 (6): 675- 686. doi: 10.3969/j.issn.1671-9727.2009.06.013
	Deng Bin , Liu Shugen , Liu Shun , et al. Restoration of exhumation thickness and its significance in Sichuan Basin, China[J]. Journal of Chengdu University of Technology(Science & Technology Edition), 2009, 36 (6): 675- 686. doi: 10.3969/j.issn.1671-9727.2009.06.013
29	李双建, 李建明, 周雁, 等. 四川盆地东南缘中新生代构造隆升的裂变径迹证据[J]. 岩石矿物学杂志, 2011, 30 (2): 225- 233. doi: 10.3969/j.issn.1000-6524.2011.02.007
	Li Shuangjian , Li Jianming , Zhou Yan , et al. Fission track evidence for Mesozoic-Cenozoic uplifting in the southeastern margin of Sichuan basin[J]. Acta Petrologica et Mineralogica, 2011, 30 (2): 225- 233. doi: 10.3969/j.issn.1000-6524.2011.02.007
30	钟城, 秦启荣, 魏志红, 等. 酒店垭-桑木场构造须家河组节理发育特征与应力场解析[J]. 现代地质, 2018, 32 (2): 279- 288.
	Zhong Cheng , Qin Qirong , Wei Zhihong , et al. Characteristics and tectonic stress field of joints in Xujiahe Formation of Jiudianya-sangmuchang Structure[J]. Geoscience, 2018, 32 (2): 279- 288.
31	李三忠, 王涛, 金宠, 等. 雪峰山基底隆升带及其邻区印支期陆内构造特征与成因[J]. 吉林大学学报(地球科学版), 2011, 41 (1): 93- 105.
	Li Sanzhong , Wang Tao , Jin Chong , et al. Features and causes of indosinian intracontinental structures in the Xuefengshan Precambrian basement and its neighboring regions[J]. Journal of Jilin University(Earth Science Edition), 2011, 41 (1): 93- 105.
32	丘元禧, 张渝昌, 马文璞. 雪峰山陆内造山带的构造特征与演化[J]. 高校地质学报, 1998, 4 (4): 432- 443.
	Qiu Yuanxi , Zhang Yuchang , Ma Wenpu . Tectonics and geological evolution of xuefengintra continental orogene, South China[J]. Geological Journal of China Universitiesf, 1998, 4 (4): 432- 443.
33	唐永, 周立夫, 陈孔全, 等. 川东南构造应力场地质分析及构造变形成因机制讨论[J]. 地质论评, 2018, 64 (1): 15- 28.
	Tang Yong , Zhou Lifu , Chen Quanli , et al. Analysis of tectonic stress field of Southeastern Sichuan and formation mechanism of tectonic deformation[J]. Geological Review, 2018, 64 (1): 15- 28.
34	汪昌亮, 颜丹平, 张冰, 等. 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[J]. 现代地质, 2011, 25 (6): 1021- 1031. doi: 10.3969/j.issn.1000-8527.2011.06.001
	Wang Changliang , Yan Danping , Zhang bing , et al. Structural style and deformational characteristics of the thick-skinned thrust belt in the Western Xuefeng Mountain[J]. Geoscience, 2011, 25 (6): 1021- 1031. doi: 10.3969/j.issn.1000-8527.2011.06.001
35	张小琼, 单业华, 倪永进, 等. 中生代川东褶皱带的数值模拟: 两阶段的构造演化模型[J]. 大地构造与成矿学, 2015, 39 (6): 1022- 1032.
	Zhang Xiaoqiong , Shan Yebi , Ni Yongjin , et al. Numerical modeling of the Mesozoic East Sichuan Fold Belt: A Two-stage Tectonic Model[J]. Geotectonica et Metallogenia, 2015, 39 (6): 1022- 1032.
36	贾小乐. 川东南构造几何学与运动学特征及其与雪峰山西段的构造关系探讨[D]. 北京: 中国地质大学(北京), 2016.
	Jia Xiaole. Structural geometry and kinematics of Southeast Sichuan Basin: Insights into tectonic relationship with the western segment of Xue Feng Mountain Orogenic Belt[D]. Beijing: China University of Geosciences, Beijing, 2016.
37	汪新伟, 沃玉进, 周雁, 等. 上扬子地区褶皱-冲断带的运动学特征[J]. 地学前缘, 2010, 17 (3): 200- 212.
	Wang Xinwei , Wo Yujin , Zhou Yan , et al. The kinematics of the fold-thrust zones in the western Yangtze Area[J]. Earth Science Frontiers, 2010, 17 (3): 200- 212.
38	李英强. 川西南地区构造几何学、运动学与成因机制[D]. 北京: 中国地质大学(北京), 2015.
	Li Yingqiang. Structural geometrics, kinematics and formation mechanism of Southwestern Sichuan Basin[D]. Beijing: China University of Geosciences, Beijing, 2015.
39	曾晓, 王鹏, 刘叶. 多滑脱层体系对川东南构造变形的影响分析[J]. 地球科学前沿, 2020, 10 (6): 524- 532.
	Zeng Xiao , Wang Peng , Liu Ye . Analysis of the influence of multi-slip delamination system on the tectonic deformation in Southeastern Sichuan[J]. Advances in Geosciences, 2020, 10 (6): 524- 532.
40	姜永涛, 张永志, 吴然, 等. 青藏高原东缘地应变演化特征[J]. 地震工程学报, 2015, 37 (1): 152- 158. doi: 10.3969/j.issn.1000-0844.2015.01.0152
	Jiang Yongtao , Zhang Yongzhi , Wu Ran , et al. Evolution Characteristics of crustal strain at the eastern margin of the Tibetan Plateau[J]. China Earthquake Engineering Journal, 2015, 37 (1): 152- 158. doi: 10.3969/j.issn.1000-0844.2015.01.0152
41	闫全人, 王宗起, 刘树文, 等. 青藏高原东缘构造演化的SHRIMP锆石U-Pb年代学框架[J]. 地质学报, 2006, 80 (9): 1285- 1294. doi: 10.3321/j.issn:0001-5717.2006.09.006
	Yan Quanren , Wang Zongqi , Liu Shuwen , et al. Eastern margin of the Tibetan Plateau: A window to probe the complex geological history from the Proterozoic to the Cenozoic Revealed by SHRIMP analyses[J]. Acta Geologica Sinica, 2006, 80 (9): 1285- 1294. doi: 10.3321/j.issn:0001-5717.2006.09.006
42	叶卓, 高锐, 李秋生, 等. 青藏高原向东挤出与向北扩展——高原隆升深部过程之探讨[J]. 科学通报, 2018, 63 (31): 3217- 3228.
	Ye Zhuo , Gao Rui , Li Qiusheng , et al. Eastward extrusion and northward expansion of the Tibetan Plateau-Discussions for the deep processes of the plateau uplift[J]. Chinese Science Bulletin, 2018, 63 (31): 3217- 3228.
43	邹玉涛, 段金宝, 赵艳军, 等. 川东高陡断褶带构造特征及其演化[J]. 地质学报, 2015, 89 (11): 2046- 2052.
	Zou Yutao , Duan Jinbao , Zhao Yanjun , et al. Tectonic characteristics and evolution of the high and steep fault folding belt in East Sichuan[J]. Acta Geologica Sinica, 2015, 89 (11): 2046- 2052.
44	刘心怡. 关于川东-湘鄂西一带隔挡、隔槽式褶皱形成机制综述[J]. 中山大学研究生学刊: 自然科学, 2013, 34 (2): 53- 59.
	Liu Xinyi . Summary of forming mechanism of the comb-like and trough-like folds in Eastern Sichuan and Western Hunan-Hubei Region[J]. Journal of the Graduates Sun YAT-SEN University(Natural Sciences.Medicine), 2013, 34 (2): 53- 59.
45	Dong S W , Zhang Y Q , Gao R , et al. A possible buried Paleoproterozoic collisional orogen beneath central South China: Evidence from seismic-reflection profiling[J]. Precambrian Research, 2015, 264 (3): 1- 10.
46	梅廉夫, 刘昭茜, 汤济广, 等. 湘鄂西-川东中生代陆内递进扩展变形: 来自裂变径迹和平衡剖面的证据[J]. 地球科学-中国地质大学学报, 2010, 35 (2): 161- 174.
	Mei Lianfu , Liu Shaoqian , Tang Jiguang , et al. Mesozoic intra-continental progressive deformation in Western Hunan-Hubei-Eastern Sichuan Provinces of China: Evidence from apatite fission track and balanced cross-section[J]. Editorial Committee of Earth Science-Journal of China University of Geosciences, 2010, 35 (2): 161- 174.
47	庹秀松, 陈孔全, 罗顺社, 等. 渝东大焦石坝地区差异构造变形[J]. 石油与天然气地质, 2019, 40 (5): 1074- 1083.
	Tuo Xiusong , Chen Kongquan , Luo Shunshe , et al. Differential structural deformation of the Dajiaoshiba area, East Chongqing[J]. Oil & Gas Geology, 2019, 40 (5): 1074- 1083.
48	潘磊, 徐祖新, 李让彬, 等. 川东南涪陵地区基底断裂特征与油气成藏[J]. 特种油气藏, 2020, 27 (4): 19- 25.
	Pan Lei , Xu Zuxin , Li Rangbin , et al. Basement fault characterization and hydrocarbon accumulation in Fuling of Southeastern Sichuan[J]. Special Oil & Gas Reservoirs, 2020, 27 (4): 19- 25.
49	马军. 页岩裂缝成因及其对含气性影响——以渝东南地区阳春沟构造带五峰-龙马溪组为例[J]. 油气藏评价与开发, 2020, 10 (3): 126- 134.
	Ma Jun . Origin of shale fractures and its influence on gas-bearing properties: A case study of Wufeng-Longmaxi Formation in Yangchungou structural belt in southeast Chongqing[J]. Reservoir Evaluation and Development, 2020, 10 (3): 126- 134.
50	朱洪建, 琚宜文, 孙岩, 等. 构造变形作用下页岩孔裂隙结构演化特征及其模式——以四川盆地及其周缘下古生界海相页岩为例[J]. 石油与天然气地质, 2021, 42 (1): 186- 200.
	Zhu Hongjian , Ju Yiwen , Sun Yan , et al. Evolution characteristics and models of shale pores and fractures under tectonic deformation: A case study of the Lower Paleozoic marine shale in the Sichuan Basin and its periphery[J]. Oil & Gas Geology, 2021, 42 (1): 186- 200.
51	孙帅, 侯贵廷. 岩石力学参数影响断背斜内张裂缝发育带的概念模型[J]. 石油与天然气地质, 2020, 41 (3): 455- 462.
	Sun Shuai , Hou Guiting . Analysis of conceptual models for the influence of rock mechanics on tensile zone in faulted anticlines[J]. Oil & Gas Geology, 2020, 41 (3): 455- 462.
52	张伟康, 何登发. 三角剪切断层传播褶皱应变分布[J]. 石油与天然气地质, 2018, 39 (5): 1065- 1072.
	Zhang Weikang , He Dengfa . Strain distribution of tri-shear fault propagation folding[J]. Oil & Gas Geology, 2018, 39 (5): 1065- 1072.
53	孙同文, 高喜成, 吕延防, 等. 断裂转换带作为油气侧向、垂向运移通道的研究进展[J]. 石油与天然气地质, 2019, 40 (5): 1011- 1021.
	Sun Tongwen , Gao Xicheng , Lv Yanfang , et al. Research progress in fault transformation zones as lateral or vertical hydrocarbon migration pathways[J]. Oil & Gas Geology, 2019, 40 (5): 1011- 1021.
54	霍建峰, 高健, 郭小文, 等. 川东地区龙马溪组页岩不同岩相孔隙结构特征及其主控因素[J]. 石油与天然气地质, 2020, 41 (6): 1162- 1175.
	Huo Jianfeng , Gao Jian , Guo Xiaowen , et al. Characteristics and controlling factors of pore structures of various lithofacies in shales of Longmaxi Formation, eastern Sichuan Basin[J]. Oil & Gas Geology, 2020, 41 (6): 1162- 1175.
55	邓铭哲, 张伟康. 四川盆地秭归复向斜构造变形机制及构造意义[J]. 石油与天然气地质, 2018, 39 (5): 182- 196.
	Deng Mingzhe , Zhang Weikang . Structural deformation mechanism and significance of the Zigui synclinorium, Sichuan Basin[J]. Oil & Gas Geology, 2018, 39 (5): 182- 196.
56	田鹤, 曾联波, 徐翔, 等. 四川盆地涪陵地区海相页岩天然裂缝特征及对页岩气的影响[J]. 石油与天然气地质, 2020, 41 (3): 474- 483.
	Tian He , Zeng Lianbo , Xu Xiang , et al. Characteristics of natural fractures in marine shale in Fuling area, Sichuan Basin, and their influence on shale gas[J]. Oil & Gas Geology, 2020, 41 (3): 474- 483.

[1]	Zhiliang HE, Xin YANG, Jian GAO, Lu YUN, Zicheng CAO, Huili Li, Jiaqi YANG. Hydrocarbon enrichment effects in the non-foreland area of the Tarim Basin under the coevolution control of the Tethys and Paleo-Asian oceans [J]. Oil & Gas Geology, 2024, 45(3): 637-657.
[2]	Rui FANG, Yuqiang JIANG, Changcheng YANG, Haibo DENG, Chan JIANG, Haitao HONG, Song TANG, Yifan GU, Xun ZHU, Shasha SUN, Guangyin CAI. Occurrence states and mobility of shale oil in different lithologic assemblages in the Jurassic Lianggaoshan Formation， Sichuan Basin [J]. Oil & Gas Geology, 2024, 45(3): 752-769.
[3]	Xiao HE, Maja ZHENG, Yong LIU, Qun ZHAO, Xuewen Shi, Zhenxue Jiang, Wei WU, Ya WU, Shitan NING, Xianglu TANG, Dadong LIU. Characteristics and differential origin of Qiongzhusi Formation shale reservoirs under the “aulacogen-uplift” tectonic setting， Sichuan Basin [J]. Oil & Gas Geology, 2024, 45(2): 420-439.
[4]	Changbo ZHAI, Liangbiao LIN, Donghua YOU, Fengbin LIU, Siyu LIU. Sedimentary microfacies characteristics and organic matter enrichment pattern of the 1^st member of the Middle Permian Maokou Formation， southwestern Sichuan Basin [J]. Oil & Gas Geology, 2024, 45(2): 440-456.
[5]	Heyi ZHANG, Shuai YANG, Xihua ZHANG, Hanlin PENG, Qian LI, Cong CHEN, Zhaolong GAO, Anqing CHEN. Sedimentary microfacies and environmental evolution of the Middle Permian Maokou Formation in the eastern Sichuan Basin： A case study of the Yangjiao section in Wulong District， Chongqing， China [J]. Oil & Gas Geology, 2024, 45(2): 457-470.
[6]	Hui PAN, Yuqiang JIANG, Xun ZHU, Haibo DENG, Linke SONG, Zhanlei WANG, Miao LI, Yadong ZHOU, Linjie FENG, Yongliang YUAN, Meng WANG. Evaluation of geological sweet spots in fluvial tight sandstone gas： A case study of the first submember of the second member of the Jurassic Shaximiao Formation， central Sichuan Basin [J]. Oil & Gas Geology, 2024, 45(2): 471-485.
[7]	Baoshou ZHANG, Benjian ZHANG, Hua WANG, Jianfa CHEN, Kaixuan LIU, Shuang DOU, Xin DAI, Shuangling CHEN. The Jinqiu gas field in the Sichuan Basin： A typical helium-bearing to helium-rich gas field with the Mesozoic sedimentary rocks as helium source rocks [J]. Oil & Gas Geology, 2024, 45(1): 185-199.
[8]	Zhili ZHANG, Yanping QIAO, Shuang DOU, Kunyu LI, Yuan ZHONG, Luya WU, Baoshou ZHANG, Xin Dai, Xin JIN, Bin WANG, Jinmin SONG. Karst paleogeomorphology and reservoir control model of the 2^nd member of Dengying Formation in Penglai gas area， Sichuan Basin， China [J]. Oil & Gas Geology, 2024, 45(1): 200-214.
[9]	Guangfu WANG, Fengxia LI, Haibo WANG, Tong ZHOU, Yaxiong ZHANG, Ruyue WANG, Ning LI, Yuxin CHEN, Xiaofei XIONG. Difficulties and countermeasures for fracturing of various shale gas reservoirs in the Sichuan Basin [J]. Oil & Gas Geology, 2023, 44(6): 1378-1392.
[10]	Zongquan HU, Ruyue WANG, Jing LU, Dongjun FENG, Yuejiao LIU, Baojian SHEN, Zhongbao LIU, Guanping WANG, Jianhua HE. Storage characteristic comparison of pores between lacustrine shales and their interbeds and differential evolutionary patterns [J]. Oil & Gas Geology, 2023, 44(6): 1393-1404.
[11]	Dongfeng HU, Zhihong WEI, Ruobing LIU, Xiangfeng WEI, Wei WANG, Qingbo WANG. Discovery of the Qijiang shale gas field in a structurally complex region on the southeastern margin of the Sichuan Basin and its implications [J]. Oil & Gas Geology, 2023, 44(6): 1418-1429.
[12]	Hongyan WANG, Shangwen ZHOU, Qun ZHAO, Zhensheng SHI, Dexun LIU, Pengfei JIAO. Enrichment characteristics， exploration and exploitation progress， and prospects of deep shale gas in the southern Sichuan Basin， China [J]. Oil & Gas Geology, 2023, 44(6): 1430-1441.
[13]	Zhensheng SHI, Shengxian ZHAO, Tianqi ZHOU, Shasha SUN, Yuan YUAN, Chenglin ZHANG, Bo LI, Ling QI. Types and genesis of horizontal bedding of marine gas-bearing shale and its significance for shale gas： A case study of the Wufeng-Longmaxi shale in southern Sichuan Basin， China [J]. Oil & Gas Geology, 2023, 44(6): 1499-1514.
[14]	Ruikang BIAN, Chuanxiang SUN, Haikuan NIE, Zhujiang LIU, Wei DU, Pei LI, Ruyue WANG. Types， characteristics， and exploration targets of deep shale gas reservoirs in the Wufeng-Longmaxi formations， southeastern Sichuan Basin [J]. Oil & Gas Geology, 2023, 44(6): 1515-1529.
[15]	Shuangjian LI, Zhi LI, Lei ZHANG, Yingqiang LI, Xianwu MENG, Haijun WANG. Hydrocarbon accumulation conditions and exploration targets of the Triassic subsalt ultra-deep sequences in the western Sichuan Depression， Sichuan Basin [J]. Oil & Gas Geology, 2023, 44(6): 1555-1567.

Characteristics and genetic mechanism of tectonic deformation in basin-mountain transitional zone: A case study of Sangmuchang Anticline in southeastern Sichuan Basin

RichHTML

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

Figures/Tables 8

References 56

Related Articles 15

Recommended Articles

Metrics