| [1] | Holmes A. Principles of physical geology[M]. London: Nelson, 1965. |
| [2] | Blair T C, McPherson J G. Quaternary sedimentology of the Rose Creek fan delta, Walker Lake, Nevada, USA, and implications to fan-delta facies models[J]. Sedimentology, 2008, 55(3): 579-615. |
| [3] | Hori K, Nagasawa S, Sato Y, et al. Response of a coarse-grained, fluvial to coastal depositional system to glacio-eustatic sea-level fluctuation since the last glacial maximum: An example from the Tenryu River, Japan[J]. Journal of Sedimentary Research, 2017, 87(2): 133-151. |
| [4] | Uner S, Ozsayin E, Dirik R K, et al. Reconstructing the sedimentary evolution of the Miocene Aksu Basin based on fan delta development (eastern Mediterranean-Turkey)[J]. Turkish Journal of Earth Sciences, 2018, 27(1): 32-48. |
| [5] | Postma G. Depositional architecture and facies of river and fan deltas: A synthesis[M]//Colella A, Prior D B. Coarse‐grained deltas. Oxford, UK: The International Association of Sedimentologists, 1990: 13-27. |
| [6] | Gómez-Paccard M, López-Blanco M, Costa E, et al. Tectonic and climatic controls on the sequential arrangement of an alluvial fan/fan-delta complex (Montserrat, Eocene, Ebro Basin, NE Spain)[J]. Basin Research, 2012, 24(4): 437-455. |
| [7] | Joeckel R M, Nicklen B L, Carlson M P. Low-accommodation detrital apron alongside a basement uplift, Pennsylvanian of Midcontinent North America[J]. Sedimentary Geology, 2007, 197(1/2): 165-187. |
| [8] | Stollhofen H, Stanistreet I G, von Hagke C, et al. Pliocene⁃Pleistocene climate change, sea level and uplift history recorded by the Horingbaai fan-delta, NW Namibia[J]. Sedimentary Geology, 2014, 309: 15-32. |
| [9] | Patranabis-Deb S, Chaudhuri A K. A retreating fan-delta system in the Neoproterozoic Chattisgarh rift Basin, central India: Major controls on its evolution[J]. AAPG Bulletin, 2007, 91(6): 785-808. |
| [10] | Machlus M, Enzel Y, Goldstein S L, et al. Reconstructing low levels of Lake Lisan by correlating fan-delta and lacustrine deposits[J]. Quaternary International, 2000, 73-74: 137-144. |
| [11] | 袁晓光,李维锋,张宝露,等. 玛北斜坡百口泉组沉积相与有利储层分布[J]. 特种油气藏,2015,22(3):70-73. Yuan Xiaoguang, Li Weifeng, Zhang Baolu, et al. Sedimentary facies and favorable reservoir distribution in Baikouquan Fm in Mabei Slope[J]. Special Oil & Gas Reservoirs, 2015, 22(3): 70-73. |
| [12] | Peng B, Jin Z, Wang J, et al. Sedimentology and sequence stratigraphy of a retrogradational fan-delta system within Lower Triassic in the Mabei area, Junggar Basin (Northwestern China)[J]. Russian Geology and Geophysics, 2018, 59(6): 606-619. |
| [13] | 邹妞妞,张大权,史基安,等. 准噶尔西北缘玛北地区扇三角洲砂砾岩岩相分类及储集意义[J]. 地质学报,2017,91(2):440-452. Zou Niuniu, Zhang Daquan, Shi Ji’an, et al. Lithofacies classification of glutenite in the fan delta of the Mabei area in the northwestern Junggar Basin and its reservoir significance[J]. Acta Geologica Sinica, 2017, 91(2): 440-452. |
| [14] | 陈新,卢华复,舒良树,等. 准噶尔盆地构造演化分析新进展[J]. 高校地质学报,2002,8(3):257-267. Chen Xin, Lu Huafu, Shu Liangshu, et al. Study on tectonic evolution of Junggar Basin[J]. Geological Journal of China Universities, 2002, 8(3): 257-267. |
| [15] | 姚宗全,于兴河,高阳,等. 地震多属性拟合技术在粗粒扇体沉积相图编制中的应用:以玛131井区百口泉组二段为例[J]. 沉积学报,2017,35(2):371-382. Yao Zongquan, Yu Xinghe, Gao Yang, et al. Application of multiple seismic attributes matching technology in mapping coarse-grain fan deposition: A case from Triassic Baikouquan Formation member 2 in Ma 131 area[J]. Acta Sedimentologica Sinica, 2017, 35(2): 371-382. |
| [16] | 朱世发,刘欣,朱筱敏,等. 准噶尔盆地克—百逆掩断裂带上下盘储层差异性及其形成机理[J]. 沉积学报,2014,33(1):194-201. Zhu Shifa, Liu Xin, Zhu Xiaomin, et al. The Formation mechanism of reservoir differences between the Hanging wall and the Foot wall of Ke-Bai overthrust fault, Junggar Basin[J]. Acta Sedimentologica Sinica, 2014, 33(1): 194-201. |
| [17] | 唐勇,尹太举,覃建华,等. 大型浅水扇三角洲发育的沉积物理模拟实验研究[J]. 新疆石油地质,2017,38(3):253-263. Tang Yong, Yin Taiju, Qin Jianhua, et al. Development of large-scale shallow-water fan delta: Sedimentary laboratory simulation and experiments [J]. Xinjiang Petroleum Geology, 2017, 38(3): 253-263. |
| [18] | Kang X, Hu W X, Cao J, et al. Controls on reservoir quality in fan-deltaic conglomerates: Insight from the Lower Triassic Baikouquan Formation, Junggar Basin, China[J]. Marine and Petroleum Geology, 2019, 103: 55-75. |
| [19] | Jia H B, Ji H C, Li X W, et al. A retreating fan-delta system in the Northwestern Junggar Basin, northwestern China-Characteristics, evolution and controlling factors[J]. Journal of Asian Earth Sciences, 2016, 123: 162-177. |
| [20] | Liu B B, Tan C P, Yu X H, et al. Sedimentary characteristics and controls of a retreating, coarse-grained fan-delta system in the Lower Triassic, Mahu Depression, northwestern China[J]. Geological Journal, 2019, 54(3): 1141-1159. |
| [21] | Blair T C, McPherson J G. Alluvial fans and their natural distinction from rivers based on morphology, hydraulic processes, sedimentary processes, and facies assemblages[J]. Journal of Sedimentary Research, 1994, 64(3a): 450-489. |
| [22] | D’Arcy M, Whittaker A C, Roda-Boluda D C. Measuring alluvial fan sensitivity to past climate changes using a self-similarity approach to grain-size fining, Death Valley, California[J]. Sedimentology, 2017, 64(2): 388-424. |
| [23] | 李维锋,李罗照,彭德堂,等. 新疆和静巴音布鲁克地区侏罗系扇三角洲沉积[J]. 新疆石油地质,1999,20(5):405-407. Li Weifeng, Li Luozhao, Peng Detang, et al. Jurassic fan-delta in Bayinbuluk area, Hejing, Xinjiang[J]. Xinjiang Petroleum Geology, 1999, 20(5): 405-407. |
| [24] | 李兴,张立强,施辉,等. 准噶尔盆地玛湖凹陷百口泉组沉积古环境分析:以玛18井为例[J]. 岩性油气藏,2016,28(2):80-85. Li Xing, Zhang Liqiang, Shi Hui, et al. Sedimentary environment of Lower Triassic Baikouquan Formation in Mahu Sag, Junggar Basin: A case study from Ma 18 well[J]. Lithologic Reservoirs, 2016, 28(2): 80-85. |