Oil & Gas Geology ›› 2018, Vol. 39 ›› Issue (3): 438-453.doi: 10.11743/ogg20180303
Previous Articles Next Articles
Luan Guoqiang1, Dong Chunmei1,2, Lin Chengyan1,2, Ren Lihua1,2, Jiao Hongyan3, Zhao Haiyan3, Peng Xianguo3
Received:
2017-05-23
Revised:
2018-05-10
Online:
2018-06-28
Published:
2018-06-21
CLC Number:
Luan Guoqiang, Dong Chunmei, Lin Chengyan, Ren Lihua, Jiao Hongyan, Zhao Haiyan, Peng Xianguo. Development conditions, evolution process and depositional features of hyperpycnal flow[J]. Oil & Gas Geology, 2018, 39(3): 438-453.
Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks
[1] Bates C C.Rational theory of delta formation[J].AAPG Bulletin,1953,37(9):2119-2162. [2] Mulder T,Syvitski J P M.Turbidity currents generated at river mouths during exceptional discharges to the world oceans[J].The Journal of Geology,1995,103(3):285-299. [3] Mulder T,Syvitski J P M.Climatic and morphologic relationships of rivers:implications of sea-level fluctuations on river loads[J].The Journal of Geology,1996,104(5):509-523. [4] Forel F A.Les ravins sous-lacustres des fleuves glaciaires[M].Paris:Gauthier-Villars,1885. [5] Grover N C,Howard C L.The passage of turbid water through lake mead[J].Transactions of the American Society of Civil Engineers,1938,103(1):720-781. [6] Milliman J D,Syvitski J P M.Geomorphic/tectonic control of sediment discharge to the ocean:the importance of small mountainous rivers[J].The Journal of Geology,1992,100(5):525-544. [7] Buatois L A,Saccavino L L,Zavala C.Ichnologic signatures of hyperpycnal flow deposits in Cretaceous river-dominated deltas,Austral Basin,southern Argentina[M]//Slatt R M,Zavala C.Sediment transfer from shelf to deep water-Revisiting the delivery system.Tulsa:AAPG,2011:153-170. [8] Zavala C,Azúa G,Freije R H,et al.Grupo Curamalal(Paleozoico inferior),Cuenca paleozoica de Ventania,provincia de Buenos Aires,Argentina[J].Revista de la Asociación Geológica Argentina,2000,55(3):165-178. [9] Zavala C.Ancient lacustrine hyperpycnites:A depositional model from a case study in the Rayoso Formation(Cretaceous)of West-Central Argentina[J].Journal of Sedimentary Research,2006,76(1-2):41-59. [10] Zavala C,González R.Estratigrafia del Grupo Cuyo(Jurásico inferior-medio)en la Sierra de la Vaca Muerta,cuenca Neuquina[J].Boletín de Informaciones Petroleras,2001,65:40-54. [11] Zavala C.Tracking sea bed topography in the Jurassic:the Lotena Group in the Sierra de la Vaca Muerta(Neuquén Basin,Argentina)[J].Geologica Acta,2005,3(2):107-118. [12] Zavala C.Nuevos avances en la sedimentología y estratigrafía secuencial de la Formación Mulichinco en la Cuenca Neuquina[J].Boletín de Informaciones Petroleras,2000,63:40-54. [13] Gamero H,Zavala C,Contreras C.A reinterpretation of the Misoa facies types:Implications of a new depositional model,Maracaibo Basin,Venezuela[C]//2005 AAPG International Conference and Exhibition:Evolving stratigraphic techniques and interpretation Ⅲ.Paris:AAPG,2005. [14] Guzmán O,Campos C.The Pampatar Formation(Margarita Island,Venezuela):A result of gravity flows in deep marine water[C]//AAPG Hedberg Conference:Sediment transfer from shelf to deepwater-Revisiting the delivery mechanisms.Argentina:AAPG,2008. [15] Zavala C,Marcano J,Carvajal J.Proximity and laterality indexes:a new tool for the analysis of ancient hyperpycnal deposits in the subsurface[C]//GSTT 4th Geological Conference.Trinidad and Tobago:GSTT,2007. [16] Gamero H,Reader J,Izatt C,et al.Herrera sandstones in the Southern Basin Area,Trinidad:Evidence of hyperpycnites deposited away from ancient Oficina delta systems in eastern Venezuela[C]//2007 AAPG Annual Meeting Abstracts volume.California:AAPG,2007:51. [17] Zavala C.Stratigraphy and sedimentary history of the Plio-Pleistocene Sant'Arcangelo basin,Southern Apennines,Italy[J].Rivista Italiana Di Paleontologia E Stratigrafia,2000,106(3):399-416. [18] Zavala C,Valiente L B,Vallez Y.The origin of lofting rhythmites.Lessons from thin sections[C]//AAPG Hedberg Conference:Sediment transfer from shelf to deepwater-Revisiting the delivery mechanisms.Argentina:AAPG,2008. [19] Gamero H,Lewis N,Welsh R,et al.Evidences of a shelfal hyperpycnal deposition in the Pliocene sandstones in the Oilbird field,SE Coast,Trinidad:Impact on reservoir distribution and field redevelopment[C]//AAPG Hedberg Conference:Sediment transfer from shelf to deepwater-Revisiting the delivery mechanisms.Argentina:AAPG,2008. [20] 杨仁超,金之钧,孙冬胜,等.鄂尔多斯晚三叠世湖盆异重流沉积新发现[J].沉积学报,2015,33(1):10-20. Yang Renchao,Jin Zhijun,Sun Dongsheng,et al.Discovery of hyperpycnal flow deposits in the Late Triassic Lacustrine Ordos Basin[J].Acta Sedimentologica Sinica,2015,33(1):10-20. [21] Yang R,Jin Z,Van Loon A J,et al.Climatic and tectonic controls of lacustrine hyperpycnite origination in the Late Triassic Ordos Basin,central China:Implications for unconventional petroleum development[J].AAPG Bulletin,2017,101(1):95-117. [22] Yang T,Cao Y,Wang Y.A new discovery of the early cretaceous supercritical hyperpycnal flow deposits on Lingshan Island,East China[J].Acta Geologica Sinica(English Edition),2017,91(2):749-750. [23] Migeon S,Savoye B,Faugeres J C.Quaternary development of migrating sediment waves in the Var deep-sea fan:distribution,growth pattern,and implication for levee evolution[J].Sedimentary Geology,2000,133(3-4):265-293. [24] Mulder T,Migeon S,Savoye B,et al.Inversely graded turbidite sequences in the deep Mediterranean:a record of deposits from flood-generated turbidity currents?[J].Geo-Marine Letters,2001,21(2):86-93. [25] Ducassou E,Mulder T,Migeon S.Nile floods recorded in deep Mediterranean sediments[J].Quaternary Research,2008,70(3):382-391. [26] Plink-Björklund P,Steel R J.Initiation of turbidity currents:outcrop evidence for Eocene hyperpycnal flow turbidites[J].Sedimentary Geology,2004,165(1):29-52. [27] Girard F,Ghienne J F,Rubino J L.Occurrence of hyperpycnal flows and hybrid event beds related to glacial outburst events in a Late Ordovician Proglacial Delta(Murzuq Basin,SW Libya)[J].Journal of Sedimentary Research,2012,82(9):688-708. [28] Katz T,Ginat H,Eyal G,et al.Desert flash floods form hyperpycnal flows in the coral-rich Gulf of Aqaba,Red Sea[J].Earth & Planetary Science Letters,2015,417:87-98. [29] Wilson R D,Schieber J.Muddy prodeltaic hyperpycnites in the Lower Genesee Group of Central New York,USA:Implications for mud transport in Epicontinental Seas[J].Journal of Sedimentary Research,2014,84(10):866-874. [30] Lash G G.Hyperpycnal transport of carbonaceous sediment-Example from the Upper Devonian Rhinestreet Shale,western New York,U S A[J].Palaeogeography Palaeoclimatology Palaeoecology,2016,459:29-43. [31] Varban B L,Guy Plint A.Sequence stacking patterns in the Western Canada foredeep:Influence of tectonics,sediment loading and eustasy on deposition of the Upper Cretaceous Kaskapau and Cardium formations[J].Sedimentology,2008,55(2):395-421. [32] Bhattacharya J P,Maceachern J A.Hyperpycnal rivers and prodeltaic shelves in the Cretaceous Seaway of North America[J].Journal of Sedimentary Research,2009,79(4):184-209. [33] Soyinka O A,Slatt R M.Identification and micro-stratigraphy of hyperpycnites and turbidites in Cretaceous Lewis Shale,Wyoming[J].Sedimentology,2008,55(5):1117-1133. [34] Olariu C,Steel R J,Petter A L.Delta-front hyperpycnal bed geometry and implications for reservoir modeling:Cretaceous Panther Tongue delta,Book Cliffs,Utah[J].AAPG Bulletin,2010,94(6):819-845. [35] Pattison S A J.Isolated highstand shelf sandstone body of turbiditic origin,lower Kenilworth Member,Cretaceous Western Interior,Book Cliffs,Utah,USA[J].Sedimentary Geology,2005,177(1-2):131-144. [36] Pattison S A J,Williams H,Davies P.Clastic sedimentology,sedimentary architecture,and sequence stratigraphy of fluvio-deltaic,shoreface,and shelf deposits,Upper Cretaceous,Book Cliffs,eastern Utah and western Colorado[M]//Raynolds R G.Roaming the Rocky Mountains and Environs:Geological Field Trips.Denver:The Geolo-gical Society of America,2008(10):17-43. [37] de Luca P H V,Basilici G.A prodeltaic system controlled by hyperpycnal flows and storm waves:reinterpretation of the Punta Negra Formation(Lower-Middle Devonian,Argentine Precordillera)[J].Brazilian Journal of Geology,2013,43(4):673-94. [38] Lamb M P,Myrow P M,Lukens C,et al.Deposits from wave-infl-uenced turbidity currents:Pennsylvanian Minturn Formation,Colorado,U S A[J].Journal of Sedimentary Research,2008,78(7-8):480-98. [39] Mulder T,Joumes M,Bassetti M A,et al.Flood characterization in Rhǒne prodelta sediments[C]//EGU General Assembly Conference Abstracts.Vienna:EGU,2015:17. [40] Zavala C,Arcuri M,Di Meglio M,et al.Prodelta hyperpycnites:Facies,processes and reservoir significance.Examples from the lower cretaceous of Russia[C]//International Conference and Exhibition,Barcelona,Spain,2016.Spain:Society of Exploration Geophysicists and American Association of Petroleum Geologists,2016:73-73. [41] Lamb M P,Mohrig D.Do hyperpycnal-flow deposits record river-flood dynamics?[J].Geology,2009,37(12):1067-1070. [42] 李涛,谈广鸣,张俊华,等.水库异重流研究进展[J].中国农村水利水电,2006,9:21-24. Li Tao,Tan Guangming,Zhang Junhua,et al.Progress in the study of reservoir hyperpycnal flow[J].China Rural Water and Hydropower,2006,9:21-24. [43] 范家骅.异重流泥沙淤积的分析[J].中国科学,1980,(1):82-89. Fan Jiahua.Anylysis of hyperpycnal flow sediments diposition[J].Science China Press,1980,(1):82-89. [44] 范家骅.沉淀池异重流的实验研究[J].中国科学A辑,1984,(11):1053-1064. Fan Jiahua.Experiment study of hyperpycnal flow in sedimentation tank[J].Science China PressA,1984,(11):1053-1064. [45] 范家骅,王华丰,黄寅,等.异重流的研究和应用[M].北京:水利电力出版社,1959. Fan Jiahua,Wang Huafeng,Huang Yin,et al.The research and application of hyperpycnal flow[M].Beijing:Water Resources and Electric Power Press,1959. [46] 曹文洪,姜乃森,傅玲燕,等.白石水库泥沙问题的试验研究[J].水利水电技术,1997,(9):20-23. Cao Wenhong,Jiang Naisen,Fu Lingyan,et al.Model study on sedimentation problems in the Baishi Reservoir[J].Water Resources and Hydropower Engineering,1997,(9):20-23. [47] Mulder T,Migeon S,Savoye B,et al.Twentieth century floods recorded in the deep Mediterranean sediments[J].Geology,2001,29(11):1011-1014. [48] Mulder T,Syvitski J P M,Migeon S,et al.Marine hyperpycnal flows:initiation,behavior and related deposits.A review[J].Marine & Petroleum Geology,2003,20(6-8):861-882. [49] 解河海,张金良,郝振纯,等.水库异重流研究综述[J].人民黄河,2008,30(5):28-30. Xie Hehai,Zhang Jinliang,Hao Zhenchun,et al.Review on the research of reservoir hyperpycnal flow[J].Yellow River,2008,30(5):28-30. [50] Mulder T,Syvitski J P M,Skene K I.Modeling of erosion and deposition by turbidity currents generated at river mouths[J].Journal of Sedimentary Research,1998,68(1):124-137. [51] Johnson K S,Paull C K,Barry J P,et al.A decadal record of underflows from a coastal river into the deep sea[J].Geology,2001,29(11):1019-1022. [52] Bell H S.The effect of entrance mixing on the size of density currents in Shaver Lake[J].Eos Transactions American Geophysical Union,1947,28(5):780-791. [53] Parsons J D,Bush J W M,Syvitski J P M.Hyperpycnal plume formation from riverine outflows with small sediment concentrations[J].Sedimentology,2001,48(2):465-478. [54] Macquaker J H S.Mudstone sedimentation at high latitudes:Ice as a transport medium for mud and supplier of nutrients[J].Journal of Sedimentary Research,2005,75(4):696-709. [55] Alexander J,Mulder T.Experimental quasi-steady density currents[J].Marine Geology,2002,186(3-4):195-210. [56] Summerfield M A.Global geomorphology[M].Longdon and New York:Routledge,2014. [57] Petter A L,Steel R J.Hyperpycnal flow variability and slope organization on an Eocene Shelf Margin,Central Basin,Spitsbergen[J].AAPG Bulletin,2006,90(10):1451-1472. [58] Wright L D,Yang Z S,Bornhold B D,et al.Hyperpycnal plumes and plume fronts over the Huanghe(Yellow River)delta front[J].Geo-Marine Letters,1986,6(2):97-105. [59] Allen P A.From landscapes into geological history[J].Nature,2008,451(7176):274. [60] Milliman J D,Meade R H.World-wide delivery of river sediment to the oceans[J].The Journal of Geology,1983,91(1):1-21. [61] Allen P A,Allen J R.Basin analysis:Principles and application to petroleum play assessment[M].Oxford:Wiley-Black well,2013. [62] Wilson L.Variations in mean annual sediment yield as a function of mean annual precipitation[J].American Journal of Science,1973,273(4):335-349. [63] Meade R H.Sources,sinks,and storage of river sediment in the Atlantic Drainage of the United States[J].The Journal of Geology,1982,90(3):235-252. [64] Pinet P,Souriau M.Continental erosion and large-scale relief[J].Tectonics,1988,7(3):563-582. [65] Dickinson W R.Provenance and sediment dispersal in relation to paleotectonics and paleogeography of sedimentary basins[M]//Kleinspehn K L,Paola C.New perspectives in basin analysis.New York:Springer,1988:3-25. [66] Mutti E.Turbidite systems and their relations to depositional sequences[M]//Zuffa G G.Provenance of arenites.Cosenza:Springer,1985:65-93. [67] Shanmugam G,Moiola R J,Damuth J E.Eustatic control of submarine fan development[M]//Bouma A H,Normark W R,BarnesN E.Submarine fans and related turbidite systems.New York:Springer,1985:23-28. [68] Mutti E,Normark W R.An integrated approach to the study of turbidite systems[M]//Paul Weimer P,Link M H.Seismic facies and sedimentary processes of submarine fans and turbidite systems.New York:Springer,1991:75-106. [69] Posamentier H W,Erskine R D,Mitchum R M.Models for submarine-fan deposition within a sequence-stratigraphic framework[M]//Paul Weimer P,Link M H.Seismic facies and sedimentary processes of submarine fans and turbidite systems.New York:Springer,1991:127-136. [70] Normark W R,Posamentier H,Mutti E.Turbidite systems:State of the art and future directions[J].Reviews of Geophysics,1993,31(2):91-116. [71] Plinkbjorklund P,Mellere D,Steel R J.Turbidite variability and architecture of sand-prone,deep-water slopes:Eocene Clinoforms in the Central Basin,Spitsbergen[J].Journal of Sedimentary Research,2001,71(6):895-912. [72] Plink-Björklund P,Steel R.Perched-delta architecture and the detection of sea level fall and rise in a slope-turbidite accumulation,Eocene Spitsbergen[J].Geology,2002,30(2):115-118. [73] Mellere,Plink-Bjorklund,Crabaugh,et al.Deltas vs rivers on the shelf-edge:Their relative contributions to the growth of shelf-margins and basin-floor fans(Barremian & Eocene,Spitsbergen)[J].Gcssepm Proceedings,2000,20:981-1009. [74] Zavala C,Arcuri M,Gamero H,et al.A genetic facies tract for the analysis of sustained hyperpycnal flow deposits[M]//Slatt R M,Zavala C.Sediment transfer from shelf to deep water-Revisiting the delivery system.Tulsa:AAPG,2011:31-51. [75] Peakall J,Felix M,Mccaffrey B,et al.Particulate gravity currents:Perspectives[M].Oxford:Wiley,2009. [76] Leclair,Suzanne F.Preservation of cross-strata due to the migration of subaqueous dunes:An experimental investigation[J].Sedimentology,2002,49(6):1157-1180. [77] Baas J H.Conditions for formation of massive turbiditic sandstones by primary depositional processes[J].Sedimentary Geology,2004,166(3-4):293-310. [78] Zavala C,Arcuri M,Valiente L B.The importance of plant remains as diagnostic criteria for the recognition of ancient hyperpycnites[J].Revue De Paleobiologie,2012,11(6):457-469. [79] Nakajima T.Hyperpycnites deposited 700 km away from river mouths in the Central Japan Sea[J].Journal of Sedimentary Research,2006,76(1):60-73. [80] Weimer P,Slatt R M,Bouroullec R,et al.Introduction to the petroleum geology of deepwater setting[M].New York:AAPG,2006. [81] Mulder T,Chapron E.Flood deposits in continental and marine environments:Character and significance[M]//Slatt R M,Zavala C.Sediment transfer from shelf to deep water-Revisiting the delivery system.Tulsa:AAPG,2011:1-30. [82] Zavala C,Arcuri M.Intrabasinal and extrabasinal turbidites:Origin and distinctive characteristics[J].Sedimentary Geology,2016,337:36-54. [83] Mcconnico T S,Bassett K N.Gravelly Gilbert-type fan delta on the Conway Coast,New Zealand:Foreset depositional processes and clast imbrications[J].Sedimentary Geology,2007,198(3):147-166. [84] Khripounoff A,Vangriesheim A,Crassous P,et al.High frequency of sediment gravity flow events in the Var submarine canyon(Mediterranean Sea)[J].Marine Geology,2009,263(1-4):1-6. [85] Macquaker J H S,Bohacs K M.On the accumulation of mud[J].Science,2007,318(5857):1734-1735. [86] Ichaso A A,Dalrymple R W.Tide-and wave-generated fluid mud deposits in the Tilje Formation(Jurassic),offshore Norway[J].Geology,2009,37(6):539-542. [87] Aplin A C,Macquaker J H S.Mudstone diversity:Origin and implications for source,seal,and reservoir properties in petroleum systems[J].AAPG Bulletin,2011,95(12):2031-2059. [88] Ghadeer S G,Macquaker J H S.The role of event beds in the preservation of organic carbon in fine-grained sediments:Analyses of the sedimentological processes operating during deposition of the Whitby Mudstone Formation(Toarcian,Lower Jurassic)preserved in northeast England[J].Marine and Petroleum Geology,2012,35(1):309-320. [89] Wilson R D,Schieber J.Sediment transport processes and lateral facies gradients across a muddy shelf:Examples from the Geneseo Formation of central New York,United States[J].AAPG Bulletin,2017,101(4):423-431. [90] 谈明轩,朱筱敏,朱世发.异重流沉积过程和沉积特征研究[J].高校地质学报,2015,21(1):94-104. Tan Mingxuan,Zhu Xiaomin,Zhu Shifa.Research on sedimentary process and characteristics of hyperpycnal flows[J].Geological Journal of China Universities,2015,21(1):94-104. [91] Yoshida M,Yoshiuchi Y,Hoyanagi K.Occurrence conditions of hyperpycnal flows,and their significance for organic-matter sedimentation in a Holocene estuary,Niigata Plain,Central Japan[J].Island Arc,2009,18(2):320-332. [92] Feng Z Q,Zhang S,Cross T A,et al.Lacustrine turbidite channels and fans in the Mesozoic Songliao Basin,China[J].Basin Research,2009,22(1):96-107. [93] 秦雁群,万仑坤,计智锋,等.深水块体搬运沉积体系研究进展[J].石油与天然气地质,2018,39(1):140-152. Qin Yanqun,Wan Lunkun,Ji Zhifeng,et al.Progress of research on deep-water mass-transport deposits[J].Oil & Gas Geology,2018,39(1):140-152. [94] 王永诗,王勇,郝雪峰,等.深层复杂储集体优质储层形成机理与油气成藏——以济阳坳陷东营凹陷古近系为例[J].石油与天然气地质,2016,37(4):490-498. Wang Yongshi,Wang Yong,Hao Xuefeng,et al.Genetic mechanism and hydrocarbon accumulation of quality reservoir in deep and complicated reservoir rocks:A case from the Palaeogene in Dongying Sag,Jiyang Depression[J].Oil & Gas Geology,2016,37(4):490-498. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||