[1] 刘宝珺. 沉积岩石学[M]. 北京: 地质出版社, 1980.
LIU Baojun. Sedimentary petrology[M]. Beijing: Geological Publishing House, 1980.
[2] 冯增昭. 沉积岩石学[M]. 北京: 石油工业出版社, 1993.
FENG Zengzhao. Sedimentary petrology[M]. Beijing: Petroleum Industry Press, 1993.
[3] 姜在兴. 沉积学[M]. 北京: 石油工业出版社, 2010.
JIANG Zaixing. Sedimentology[M]. Beijing: Petroleum Industry Press, 2010.
[4] NORTH C P, WARWICK G L.Fluvial fans: Myths, misconceptions, and the end of the terminal-fan model[J]. Journal of Sedimentary Research, 2007, 77(9): 693-701.
[5] HARTLEY A J, WEISSMANN G S, NICHOLS G J, et al.Large distributive fluvial systems: Characteristics, distribution, and controls on development[J]. Journal of Sedimentary Research, 2010, 80(2): 167-183.
[6] SAMBROOK G H,BEST J L,ASHWORTH P J.et al.Fluvial form in modern continental sedimentary basins: Distributive fluvial systems[J]. Geology, 2010, 38(12): 39-42.
[7] MOSCARIELLO A.Alluvial fans and fluvial fans at the margins of continental sedimentary basins: Geomorphic and sedimentological distinction for geo-energy exploration and development[M]. London: Geological Society Special Publications, 2017.
[8] 张昌民, 胡威, 朱锐, 等. 分支河流体系的概念及其对油气勘探开发的意义[J]. 岩性油气藏, 2017, 29(3): 1-9.
ZHANG Changmin, HU Wei, ZHU Rui, et al.Concept of distributive fluvial system and its significance to oil and gas exploration and development[J]. Lithologic Reservoirs, 2017, 29(3): 1-9.
[9] 刘宗堡, 张云峰, 刘云燕, 等. 末端扇沉积体系研究现状及石油地质意义[J]. 中国矿业大学学报, 2018, 47(3): 520-530.
LIU Zongbao, ZHANG Yunfeng, LIU Yunyan, et al.Status quo of the terminal fan sedimentary system study and its petroleum geological significance[J]. Journal of China University of Mining & Technology, 2018, 47(3): 520-530.
[10] DENNY C S.Fans and pediments[J]. American Journal of Science, 1967, 265: 81-105.
[11] ANSTEY R L.Physical characteristics of alluvial fans[J]. Technical Report Series, 1965, 20(1): 11-13.
[12] ANSTEY R L.A comparison of alluvial fans in west Pakistan and the United States[J]. Pakistan Geographical Review, 1966, 21(1): 14-20.
[13] SCHUMM S A. The fluvial system[M]. Caldwell, New Jersey, USA: The Blackburn Press, 1977: 338.
[14] NEMEC W, STEEL R J, GJELBERG J, et al.Exhumed rotational slides and scar infill features in a Cretaceous delta front, eastern Spitsbergen[J]. Polar Research, 1988, 6(1): 105-112.
[15] 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(3): 450-469.
[16] GALLOWAY W E, HOBDAY D K.Fuel-mineral resource base[M]. Berlin: Springer, 1996: 1-5.
[17] READING H G.Sedimentary environments and facies[M]. 3rd ed. Oxford: Blackwell Scientific Publications, 1996.
[18] VENTRA D, CLARKE L E.Geology and geomorphology of alluvial and fluvial fans Current progress and research perspectives[M]. London: Geological Society Special Publication, 2018.
[19] WANG J, PLINK-BJÖRKLUND P. Stratigraphic complexity in fluvial fans: Lower Eocene Green River Formation, Uinta Basin, USA[J]. Basin Research, 2019, 31(5): 892-919.
[20] FRIEND P.Distinctive features of some ancient river systems[J]. Dallas Geological Society, 1977, 5: 531-542.
[21] SYVITSKI J P, OVEREEM I, BRAKENRIDGE G R, et al.Floods, floodplains, delta plains: A satellite imaging approach[J]. Sedimentary Geology, 2012, 267(1): 1-14.
[22] LEWIN J, ASHWORTH P J.The negative relief of large river floodplains (Review)[J]. Earth Science Reviews, 2014, 129: 1-23.
[23] LEWIN J, ASHWORTH P, STRICK R.Spillage sedimentation on large river floodplains[J]. Earth Surface Processes and Landforms, 2017, 42(2): 290-305.
[24] PIETSCH T J, NANSON G C, OLLEY J M.Late Quaternary changes in flow-regime on the Gwydir distributive fluvial system, southeastern Australia[J]. Quaternary Science Reviews, 2013, 69: 168-180.
[25] MCCARTHY T S, STANISTREET I G, CAIRNCROSS B, et al.Incremental aggradation on the Okavango Delta-fan, Botswana[J]. Geomorphology, 1988, 1(3): 267-278.
[26] MACK G.H. Spillover models for axial rivers in regions of continental extension: The Rio Mimbres and Rio Grande in the southern Rio Grande rift, USA[J]. Sedimentology, 1997, 44: 637-652.
[27] GABRIS G, NAGY B.Climate and tectonically controlled river style changes on the Sajo-Hernad alluvial fan (Hungary)[M]. London: Geological Society Special Publications, 2005.
[28] FORDHAM A M, NORTH C P, HARTLEY A J, et al.Dominance of lateral over axial sedimentary fill in dryland rift basins[J]. Petroleum Geoscience, 2010, 16(3): 299-304.
[29] ASLAN A, WHITE W A, WARNE A G, et al.Holocene evolution of the western Orinoco Delta, Venezuela[J]. Geological Society of America Bulletin, 2003, 115(4): 479-498.
[30] CHAKRABORTY T, KAR R, GHOSH P, et al.Kosi megafan: Historical records, geomorphology and the recent avulsion of the Kosi River[J]. Quaternary International, 2010, 227(2): 143-160.
[31] NICHOLS G J, FISHER J A.Processes, facies and architecture of fluvial distributary system deposits[J]. Sedimentary Geology, 2007, 195(1/2): 75-90.
[32] TRENDELL A M, ATCHLEY S C, NORDT L C.Facies analysis of a probable large-fluvial-fan depositional system: The Upper Triassic Chinle Formation at Petrified Forest National Park, Arizona, U.S.A[J]. Journal of Sedimentary Research, 2013, 83(10): 873-895.
[33] IELPI A, GHINASSI M.A sedimentary model for early Palaeozoic fluvial fans, Alderney Sandstone Formation (Channel Islands, UK)[J]. Sedimentary Geology, 2016, 342: 31-46.
[34] CAIN S A, MOUNTNEY N P.Spatial and temporal evolution of a terminal fluvial fan system: The Permian Organ Rock Formation, south-east Utah, USA[J]. Sedimentology, 2009, 56(6): 1774-1800.
[35] DAVIDSON S K, HARTLEY A J, WEISSMANN G S, et al.Geomorphic elements on modern distributive fluvial systems[J]. Geomorphology, 2013, 180: 82-95.
[36] FIELDING C R, ASHWORTH P J, BEST J L, et al.Tributary, distributary and other fluvial patterns: What really represents the norm in the continental rock record[J]. Sedimentary Geology, 2012, 261(15): 15-32.
[37] EREL Y, BLUM J, BIERMAN P, et al.Late Quaternary depositional landforms in Nahal Yael, Israel: Impact of climatic change on an arid watershed[J]. Geological Society of America Bulletin, 2012, 124: 705-722.
[38] WALSTRA J, HEYVAERT V M, VERKINDEREN P.Assessing human impact on alluvial fan development: A multidisciplinary case-study from Lower Khuzestan (SW Iran)[J]. Geodinamica Acta, 2010, 23(5): 267-285.
[39] EDMONDS D, HAJEK E, DOWNTON N, et al.Avulsion flow-path selection on rivers in foreland basins[J]. Geology, 2016, 44(9): 695-698.
[40] SLINGERLAND R, SMITH N D.River avulsions and their deposits[J]. Annual Review of Earth and Planetary Sciences, 2004, 32: 257-285.
[41] MIKESELL L R, WEISSMANN G S, KARACHEWSKI J A.Stream capture and piracy recorded by provenance in fluvial fan strata[J]. Geomorphology, 2010, 115(3): 267-277.
[42] ESCALONA R, YOROZUYA A, EGASHIRA S, et al.Fluvial fan process due to swing phenomena[J]. International Journal of Erosion Control Engineering, 2016, 9(2): 25-31.
[43] BENNETT G L, WEISSMANN G S, BAKER G S, et al.Regional- scale assessment of a sequence-bounding paleosol on fluvial fans using ground-penetrating radar, eastern San Joaquin Valley, California[J]. Geological Society of America Bulletin, 2006, 118: 724-732.
[44] GALVE J P, ALVARADO G E, VICENTE J P, et al.Megafan formation driven by explosive volcanism and active tectonic processes in a humid tropical environment[J]. Terra Nova, 2016, 28(6): 427-433.
[45] GIBERT J M, SÁEZ A. Paleohydrological significance of trace fossil distribution in Oligocene fluvial-fan-to-lacustrine systems of the Ebro Basin, Spain[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 2009, 272(3): 162-175.
[46] TOORENENBURG K A, DONSELAAR M, NOORDIJK N, et al.On the origin of crevasse-splay amalgamation in the Huesca fluvial fan (Ebro Basin, Spain): Implications for connectivity in low net-to- gross fluvial deposits[J]. Sedimentary Geology, 2016, 343: 156-164.
[47] GOHAIN K, PARKASH B.Morphology of the Kosi megafan[J]. Alluvial Fans, 1990, 37: 151-178.
[48] BLAIR T C.Features and origin of the giant Cucomungo Canyon alluvial fan, Eureka Valley, California[J]. Special Paper of the Geological Society of America, 2003, 370: 105-126.
[49] FONTANA A, MOZZI P, MARCHETTI M.Alluvial fans and megafans along the southern side of the Alps[J]. Sedimentary Geology, 2014, 301: 150-171.
[50] LEIER A L, DECELLES P G, PELLETIER J D.Mountains, monsoons, and megafans[J]. Geology, 2005, 33(4): 289.
[51] WEISSMANN G, HARTLEY A, SCUDERI L, et al.Fluvial geomorphic elements in modern sedimentary basins and their potential preservation in the rock record: A review[J]. Geomorphology, 2015, 250: 187-219.
[52] NICHOLS G J, HIRST J P.Alluvial fans and fluvial distributary systems, Oligo-Miocene, northern Spain; contrasting processes and products[J]. Journal of Sedimentary Research, 1998, 68(5): 879-889.
[53] CHAKRABORTY T, GHOSH P.The geomorphology and sedimentology of the Tista megafan, Darjeeling Himalaya: Implications for megafan building processes[J]. Geomorphology, 2010, 115(3): 252-266.
[54] 吴胜和, 冯文杰, 印森林, 等. 冲积扇沉积构型研究进展[J]. 古地理学报, 2016, 18(4): 497-512.
WU Shenghe, FENG Wenjie, YIN Senlin, et al.Research advances in alluvial fan depositional architecture[J]. Journal of Palaeogeography, 2016, 18(4): 497-512.
[55] KELLY S B, OLSEN H.Terminal fans: A review with reference to Devonian examples[J]. Sedimentary Geology, 1993, 85: 339-347.
[56] 朱筱敏. 沉积岩石学[M]. 北京: 石油工业出版社, 2008.
ZHU Xiaomin. Sedimentary petrology[M]. Beijing: Petroleum Industry Press, 2008.
[57] BRYANT M, FALK P, PAOLA C.Experimental study of avulsion frequency and rate of deposition[J]. Geology, 1995, 23(4): 365.
[58] OLARIU C, BHATTACHARYA J.Terminal distributary channels and delta front architecture of river-dominated delta systems[J]. Journal of Sedimentary Research, 2006, 76(1): 212-233.
[59] POSAMENTIER H W, KOLLA V.Seismic geomorphology and stratigraphy of depositional elements in deep-water settings[J]. Journal of Sedimentary Research, 2003, 73(3): 367-388.
[60] ZAITLIN B A, DALRYMPLE R W, BOYD R.The stratigraphic organization of incised-valley systems associated with relative sea-level change[J]. Special Publications, 1994, 51: 45-60.
[61] RALPH T J, HESSE P P.Downstream hydrogeomorphic changes along the Macquarie River, southeastern Australia, leading to channel breakdown and floodplain wetlands[J]. Geomorphology, 2010, 118(1): 48-64.
[62] BROWNE G H, NAISH T R.Facies development and sequence architecture of a late Quaternary fluvial-marine transition, Canterbury plains and shelf, New Zealand: Implications for forced regressive deposits[J]. Sedimentary Geology, 2003, 158(1): 57.
[63] DECELLES P G, CAVAZZA W.A comparison of fluvial megafans in the Cordilleran (Upper Cretaceous) and modern Himalayan foreland basin systems[J]. Geological Society of America Bulletin, 1999, 111(9): 1315-1334.
[64] LAWTON T F, SCHELLENBACH W L, NUGENT A E.Late Cretaceous fluvial-megafan and Axial-River systems in the southern Cordilleran Foreland Basin: Drip tank member of straight cliffs formation and adjacent strata, Southern Utah, U.S.A[J]. Journal of Sedimentary Research, 2014, 84(5): 407-434.
[65] KELLY S B, OLSEN H.Terminal fans: A review with reference to Devonian examples[J]. Sedimentary Geology, 1993, 85(1): 339-347.
[66] LEANZA H A.Las sedimentitas huitrinianas yrayosianas (Creta´cico inferior) en el a´mbito central ymeridional de la cuenca Neuquina, Argentina[J]. Servicio Geológico Minero Argentino, 2003, 2: 1-13.
[67] 张昌民, 朱锐, 郭旭光, 等. 干旱地区河流扇三角洲—河流扇演替模式: 来自黄羊泉扇的启示[J]. 地球科学, 2020, 45(5): 1791-1806.
ZHANG Changmin, ZHU Rui, GUO Xuguang, et al.Arid fluvial fan delta - fluvial fan transition: Lessons from Huangyangquan fan area[J]. Earth Science, 2020, 45(5): 1791-1806.
[68] 张金亮, 戴朝强, 张晓华. 末端扇:在中国被忽略的一种沉积作用类型[J]. 地质评论, 2007, 53(2): 170-179.
ZHANG Jinliang, DAI Chaoqiang, ZHANG Xiaohua.Terminal fan: A type of sedimentation ignored in China[J]. Geological Review, 2007, 53(2): 170-179.
