| [1] | 陈昭年,陈发景. 1996. 松辽盆地反转构造运动学特征[J]. 现代地质,10(3):390-396. Chen Zhaonian, Chen Fajing. 1996. Kinematic characteristics of inversion structures in Songliao Basin[J]. Geoscience, 1996, 10(3): 390-396. |
| [2] | 董万百,张祥国,钟建华,等. 2024. 松辽盆地古龙凹陷青山口组页岩油储层中的重力坠落砂脉的发现及其意义[J]. 地质科学,59(1):180-198. Dong Wanbai, Zhang Xiangguo, Zhong Jianhua, et al. 2024. Discovery and significances of gravity fall and dikes in shale oil reservoirs of Qingshankou Formation in Gulong Sag, Songliao Basin[J]. Chinese Journal of Geology, 59(1): 180-198. |
| [3] | 付秀丽,蒙启安,文政,等. 2024. 松辽盆地白云岩沉积环境及成因机理[J]. 沉积学报,42(1):113-129. Fu Xiuli, Meng Qi’an, Wen Zheng, et al. 2024. Sedimentary environment and genetic mechanism of dolomites in the Qingshankou Formation, Songliao Basin[J]. Acta Sedimentologica Sinica, 42(1): 113-129. |
| [4] | 何文渊,白雪峰,钟建华,等. 2024a. 松辽盆地古龙页岩油储层干酪根的有机元素组成及其N元素的地球化学意义[J]. 地质学报,98(6):1840-1866. He Wenyuan, Bai Xuefeng, Zhong Jianhua, et al. 2024a. Organic element compositions and its N geochemical significances of the kerogen of Gulong shale oil reservoir in Songliao Basin[J]. Acta Geologica Sinica, 98(6): 1840-1866. |
| [5] | 何文渊,崔宝文,王凤兰,等. 2022. 松辽盆地古龙凹陷白垩系青山口组储集空间与油态研究[J]. 地质论评,68(2):693-741. He Wenyuan, Cui Baowen, Wang Fenglan, et al. 2022. Study on reservoir spaces and oil states of the Cretaceous Qingshankou Formation in Gulong Sag, Songliao Basin[J]. Geological Review, 68(2): 693-741. |
| [6] | 何文渊,蒙启安,付秀丽,等. 2024b. 松辽盆地古龙凹陷青山口组页岩沉积环境特征及其有机质富集机理[J]. 沉积学报,42(5):1799-1816. He Wenyuan, Meng Qi’an, Fu Xiuli, et al. 2024b. Geochemical study of the sedimentary eenvironment and its organic matter enrichment mechanism in Qingshankou Formation shale, Gulong Sag, Songliao Basin[J]. Acta Sedimentologica Sinica, 42(5): 1799-1816. |
| [7] | 何文渊,赵莹,钟建华,等. 2023. 松辽盆地古龙凹陷青山口组页岩油储层中有机质微孔特征[J]. 地质论评,69(3):1161-1183. He Wenyuan, Zhao Ying, Zhong Jianhua, et al. 2023. Study on organic matter and micropores of Qingshankou Formation shale oil reservoir in Gulong Sag, Songliao Basin[J]. Geological Review, 69(3): 1161-1183. |
| [8] | 何文渊,赵莹,钟建华,等. 2024c. 松辽盆地古龙凹陷白垩系青山口组页岩油储层中微米孔缝特征及油气意义[J]. 岩性油气藏,36(3):1-18. He Wenyuan, Zhao Ying, Zhong Jianhua, et al. 2024c. Characteristics and significance of micron pores and micron fractures in shale oil reservoirs of Cretaceous Qingshankou Formation in Gulong Sag, Songliao Basin[J]. Lithologic Reservoirs, 36(3): 1-18. |
| [9] | 刘翰林,邹才能,邱振,等. 2023. 陆相黑色页岩沉积环境及有机质富集机制:以鄂尔多斯盆地长7段为例[J]. 沉积学报,41(6):1810-1829. Liu Hanlin, Zou Caineng, Qiu Zhen, et al. 2023. Sedimentary depositional environment and organic matter enrichment mechanism of lacustrine black shales: A case study of the Chang 7 member in the Ordos Basin[J]. Acta Sedimentologica Sinica, 41(6): 1810-1829. |
| [10] | 庞彦明,张元庆,蔡敏,等. 2021. 松辽盆地古龙页岩油水平井开发技术经济界限[J]. 大庆石油地质与开发,40(5):134-143. Pang Yanming, Zhang Yuanqing, Cai Min, et al. 2021. Technical and economic limit of horizontal well development for Gulong shale oil in Songliao Basin[J]. Petroleum Geology & Oilfield Development in Daqing, 40(5): 134-143. |
| [11] | 邱振,邹才能. 2020. 非常规油气沉积学:内涵与展望[J]. 沉积学报,38(1):1-29. Qiu Zhen, Zou Caineng. 2020. Unconventional petroleum sedimentology: Connotation and prospect[J]. Acta Sedimentologica Sinica, 38(1): 1-29. |
| [12] | 邵红梅,高波,潘会芳,等. 2021. 松辽盆地古龙页岩成岩—孔隙演化[J]. 大庆石油地质与开发,40(5):56-67. Shao Hongmei, Gao Bo, Pan Huifang, et al. 2021. Diagenesis-pore evolution for Gulong shale in Songliao Basin[J]. Petroleum Geology & Oilfield Development in Daqing, 40(5): 56-67. |
| [13] | 孙龙德. 2020. 古龙页岩油(代序)[J]. 大庆石油地质与开发,39(3):1-7. Sun Longde. 2020. Shale oil in Gulong Sag[J]. Petroleum Geology and Oilfield Development in Daqing, 39(3): 1-7. |
| [14] | 王凤兰,付志国,王建凯,等. 2021. 松辽盆地古龙页岩油储层特征及分类评价[J]. 大庆石油地质与开发,40(5):144-156. Wang Fenglan, Fu Zhiguo, Wang Jiankai, et al. 2021. Characteristics and classification evaluation of Gulong shale oil reservoir in Songliao Basin[J]. Petroleum Geology & Oilfield Development in Daqing, 40(5): 144-156. |
| [15] | 王广昀,王凤兰,蒙启安,等. 2020. 古龙页岩油战略意义及攻关方向[J]. 大庆石油地质与开发,39(3):8-19. Wang Guangyun, Wang Fenglan, Meng Qi’an, et al. 2020. Strategic significance and research direction for Gulong shale oil[J]. Petroleum Geology & Oilfield Development in Daqing, 39(3): 8-19. |
| [16] | 王小军,宋永,郭旭光,等. 2023. 陆相咸化湖盆细粒沉积岩分类及其石油地质意义[J]. 沉积学报,41(1):303-317. Wang Xiaojun, Song Yong, Guo Xuguang, et al. 2023. Classification of fine-grained sedimentary rocks in saline lacustrine basins and its petroleum geological significance[J]. Acta Sedimentologica Sinica, 41(1): 303-317. |
| [17] | 印森林,谢建勇,程乐利,等. 2022. 陆相页岩油研究进展及开发地质面临的问题[J]. 沉积学报,40(4):979-995. Yin Senlin, Xie Jianyong, Cheng Leli, et al. 2022. Advances in continental shale oil research and problems of reservoir geology[J]. Acta Sedimentologica Sinica, 40(4): 979-995. |
| [18] | 钟建华,曹梦春,倪良田,等. 2018. 砂脉的研究现状与进展[J]. 古地理学报,20(1):119-132. Zhong Jianhua, Cao Mengchun, Ni Liangtian, et al. 2018. Situation of study and development tendency of sandy dykes[J]. Journal of Palaeogeography, 20(1): 119-132. |
| [19] | 钟建华,倪良田,汪立东,等. 2020a. 青岛灵山岛南背来石下白垩统大型砂脉的发现及其形成动力学研究[J]. 地质论评,66(6):1457-1476. Zhong Jianhua, Ni Liangtian, Wang Lidong, et al. 2020a.Discovery of large sand dykes in the Lower Cretaceous of southern Beilaishi, Lingshan Island, Qingdao, and their formation dynamics[J]. Geological Review, 66(6): 1457-1476. |
| [20] | 钟建华,孙宁亮,郝兵,等. 2020b. 山东灵山岛北背来石剖面下白垩统顺层砂脉的特征及其成因动力学分析[J]. 古地理学报,22(4):635-646. Zhong Jianhua, Sun Ningliang, Hao Bing, et al. 2020b.Characteristics and dynamics origin of the Lower Cretaceous sill in northern Beilaishi section of Lingshan Island, Shandong province[J]. Journal of Palaeogeography, 22(4): 635-646. |
| [21] | De Machuca B C, Perucca L P. 2015. Fault-related carbonate breccia dykes in the La Chilca area, eastern Precordillera, San Juan, Argentina[J]. Journal of South American Earth Sciences, 58: 100-110. |
| [22] | Greb S F, Archer A W. 2007. Soft-sediment deformation produced by tides in a meizoseismic area, Turnagain Arm, Alaska[J]. Geology, 35(5): 435-438. |
| [23] | He W Y, Zhong J H, Sun N L. 2023. Discovery and significance of tempestites and storm deposits in the Qingshankou Formation of the Gulong Sag, northeastern China[J]. Frontiers in Earth Science, 10: 999135. |
| [24] | Meshram D C, Sangode S J, Gujar A R, et al. 2011. Occurrence of soft sediment deformation at Dive Agar beach, west coast of India: Possible record of the Indian Ocean tsunami (2004)[J]. Natural Hazards, 57(2): 385-393. |
| [25] | Monnier D, Gay A, Imbert P, et al. 2015. Sand injectites network as a marker of the palaeo-stress field, the structural framework and the distance to the sand source: Example in the Vocontian Basin, SE France[J]. Journal of Structural Geology, 79: 1-18. |
| [26] | Montenat C, Barrier P, D'Estevou P O. 1991. Some aspects of the recent tectonics in the strait of Messina, Italy[J]. Tectonophysics, 194(3): 203-215. |
| [27] | Obermeier S F. 1996. Using liquefaction-induced features for paleoseismic analysis[J]. International Geophysics, 62: 331-396. |
| [28] | Obermeier S F, Weems R E, And R B J, et al. 1989. Liquefaction evidence for repeated Holocene earthquakes in the coastal region of south Carolina[J]. Annals of the New York Academy of Sciences, 558(1): 183-195. |
| [29] | Schieber J. 2015. Discussion: “Mud dispersal across a Cretaceous prodelta: Storm-generated, wave-enhanced sediment gravity flows inferred from mudstone microtexture and microfacies” by Plint (2014), Sedimentology 61, 609-647[J]. Sedimentology, 62(1): 389-393. |
| [30] | Scholz C H. 2010. A note on the scaling relations for opening mode fractures in rock[J]. Journal of Structural Geology, 32(10): 1485-1487. |
| [31] | Sims J D. 1973. Earthquake-induced structures in sediments of Van Norman Lake, San Fernando, California[J]. Science, 182(4108): 161-163. |
| [32] | Sun N L, He W Y, Zhong J H, et al. 2023. Widespread development of bedding-parallel calcite veins in medium–high maturity organic-rich lacustrine shales (Upper Cretaceous Qingshankou Formation, northern Songliao Basin, NE China): Implications for hydrocarbon generation and horizontal compression[J]. Marine and Petroleum Geology, 158: 106544. |