Morphotectonics and evolutionary controls on the Pearl River Canyon system, South China Sea
Tóm tắt
Từ khóa
Tài liệu tham khảo
Anderson DE (2005) Holocene fluvial geomorphology of the Amargosa River through Amargosa Canyon, California. Earth Sci Rev 73:291–307
Antobreh AA, Krastel S (2006) Morphology, seismic characteristics and development of Cap Timiris Canyon, offshore Mauritania: a newly discovered canyon preserved-off a major arid climatic region. Mar Petrol Geol 23:37–59
Babonneau N, Savoye B, Cremer M, Klein B (2002) Morphology and architecture of the present canyon and channel system of the Zaire deep-sea fan. Mar Petrol Geol 19:445–467
Baztana J, Berne S, Olivet JL, Rabineau M, Aslanian D, Gaudin M, Rehault JP, Canals M (2005) Axial incision: the key to understand submarine canyon evolution (in the western Gulf of Lion). Mar Petrol Geol 22:805–826
Briais A, Patriat P, Tapponnier P (1993) Updated interpretation of magnetic anomalies an seafloor spreading stages in the South China Sea: implications for the tertiary tectonics of Southeast Asia. J Geophys Res 98:6299–6328
Carson B, Baker ET, Hickey BM, Nittrouer CA, De-Master DJ, Thorbjarnarson KW, Snyder GW (1986) Modern sediment dispersal and accumulation in Quinault submarine canyon-a summary. Mar Geol 71:1–13
Clift P (2006) Controls on the erosion of Cenozoic Asia and the flux of clastic sediment to the ocean. Earth Planet Sci Lett 241(3–4):571–580
Clift P, Lin J (2001) Preferential mantle lithospheric extension under the South China margin. Mar Petrol Geol 18:929–944
Clift P, Lin J, Barckhausen U (2002a) Evidence of low flexural rigidity and low viscosity lower continental crust during continental break-up in the South China Sea. Mar Petrol Geol 19:951–970
Clift P, Lee JL, Clark MK, Blusztajn J (2002b) Erosional response of South China to arc rifting and monsoonal strengthening, a record from the South China Sea. Mar Geol 184(3–4):207–226
Cullen A, Reemst P, Henstra G, Gozzard S, Ray A (2010) Rifting of the South China Sea: new perspective. Petrol Geosci 16:273–282
Damuth JE (1994) Neogene gravity tectonics and depositional processes on the deep Niger Delta continental margin. Mar Petrol Geol 11(3):321–346
Dantec NL, Hogarth LJ, Driscoll NW, Babckck JM, Barnhardt WA, Schwab WC (2010) Tectonic controls on nearshore sediment accumulation and submarine canyon morphology offshore La Jolla, Southern California. Mar Geol 268:115–128
Deptuck ME, Steffens GS, Barton M, Pirmez C (2003) Architecture and evolution of upper fan channel-belts on the Niger Delta slope and in the Arabian Sea. Mar Pet Geol 20:649–676
Ding WW, Li JB, Li J (2010) Forming mechanism of the submarine canyon on the north slope of the South China Sea. J Mar Sci 28:26–31 (in Chinese)
Farre JA, McGregor BA, Ryan WBF, Robb JM (1983) Breaching the shelfbreak passage from youthful to mature phase in submarine canyon evolution. Spec Publ Soc Econ Paleontol Mineral 33:25–39
Fuh SC, Chern CC, Liang SC, Yang YL, Wu SH, Chang TY, Lin JY (2009) The biogenic gas potential of the submarine canyon systems of Plio-Pleistocene foreland Basin, southwestern Taiwan. Mar Petrol Geol 26:1087–1099
Gingele FX, Deckker PD, Hillenbrand CD (2004) Late quaternary terrigenous sediments from the Murray Canyons area, offshore South Australia and their implications for sea level change, palaeoclimate and palaeodrainage of the MurrayeDarling Basin. Mar Geol 212:183–197
Gong CL, Wang YM, Zhu WL, Li WG, Xu Q, Zhang JM (2011) The Central Submarine Canyon in the Qiongdongnan Basin, northwestern South China Sea: architecture, sequence stratigraphy, and depositional processes. Mar Petrol Geol 28:1690–1702
Granata TC, Vidondo B, Duarte CM, Satta MP, Gracia M (1999) Hydrodynamics and particles transport associated with a submarine canyon of Blanes (Spain), NW Mediterranean Sea. Cont Shelf Res 19:1249–1263
Guan BX (1978) The warm current in the South China Sea. Oceanologia Et Limnologia Sinica 9:117–127
Guan BX, Fang GH (2006) Winter counter-wind currents off the southeastern China coast: a review. J Oceanogr 62:1–24
Hagen RA, Vergara H, Naar DF (1996) Morphology of San Antonio submarine canyon on the central Chile forearc. Mar Geol 129:197–205
Harris PT, Whiteway T (2011) Global distribution of large submarine canyons: geomorphic differences between active and passive continental margins. Mar Geol 285:69–86
Hayes DE, Nissen SS (2005) The South China sea margins: implications for rifting constrasts. Earth Planet Sci Lett 237:601–616
He YL, Xie XN, Kneller BC, Wang ZF, Li XS (2012) Architecture and controlling factors of canyon fills on the shelf margin in the Qiongdongnan Basin, northern South China Sea. Mar Petrol Geol. doi: 10.1016/j.marpetgeo.2012.03.002
Hsiung KH, Yu HS (2012) Sediment dispersal system in the Taiwan-South China Sea collision zone along a convergent margin: a comparison with the Papua New Guinea collision zone of the western Solomon Sea. J Asian Earth Sci. doi: 10.1016/j.jseaes.2012.10.006
Hsueh Y, Zhong LJ (2004) A pressure-driven South China Sea warm current. J Geophys Res Oceans 109:C09014
Jin QH (1989) Geology and oil gas resources in South China Sea. Geology Publishing House, Beijing, pp 84–111 (in Chinese)
Klaus A, Taylor B (1991) Submarine canyon development in the Izu-Bonin forearc: a SeaMARC II and seismic survey of Aoga Shima Canyon. Mar Geophys Res 13:131–152
Kottke B, Schwenk T, Breitzke M, Wiedicke M, Kudrass HR, Spiess V (2003) Acoustic facies and depositional processes in the upper submarine canyon swatch of no ground (Bay of Bengal). Deep Sea Res II 50:979–1001
Leach AS, Wallace MW (2001) Cenozoic submarine canyon systems in cool water carbonates from the Otway Basin, Victoria, Australia. In: PESA East Australasian basins symposium, Melbourne, Victoria, Australia, pp 465–473
Li X, Wei G, Shao L, Liu Y, Liang X, Jian Z, Sun M, Wang P (2003) Geochemical and Nd isotopic variations in sediments of the South China Sea; a response to Cenozoic tectonism in SE Asia. Earth Planet Sci Lett 211(3–4):207–220
Li G, Piper DJW, Campbell DC, Mosher D (2012) Turbidite deposition and the development of canyons through time on an intermittently glaciated continental margin: the Bonanza Canyon system, offshore eastern Canada. Mar Petrol Geol 29:90–103
Liu BJ, Yuan LZ, Shen J, Lian SY, He M, Pang X, Shu Y, Peng DJ (2006) Northern continental slope palaeogeomorphology and deep-water fan system response of Pearl River since 13.8 Ma, South China Sea. Acta Sedimentologica Sinica 24:476–482 (in Chinese)
Luedmann T, Wong HK (1999) Neotectonic regime on the passive continental margin of the northern South China Sea. Tectonophysics 311:113–138
Mayall M, Jones E, Casey M (2006) Turbidite channel reservoirs—key elements in facies prediction and effective development. Mar Petrol Geol 23:821–841
McHargue T, Pyrcz MJ, Sullivan MD, Clark JD, Fildani A, Romans BW, Covault JA, Levy M, Posamentier HW, Drinkwater NJ (2011) Architecture of turbidite channel systems on the continental slope: patterns and predictions. Mar Petrol Geol 28:728–743
Olabode SO, Adekoya JA (2008) Seismic stratigraphy and development of Avon Canyon in Benin (Dahomey) basin, southwestern Nigeria. J Afr Earth Sci 50:286–304
Oliveira A, Santos AL, Rodrigues A, Vitorino J (2007) Sedimentary particle distribution and dynamics on the Nazare canyon system and adjacent shelf (Portugal). Mar Geol 246(2–4):105–122
Pang X, Chen CM, Peng DJ, Zhu M, Shu Y, He M, Shen J, Liu BJ (2007) Sequence Stratigraphy of Deep-water Fan System of Pearl River, South China Sea. Earth Sci Frontiers 14:220–229
Peng DJ, Chen CM, Pang X, Zhu M, Yang F (2004) Discovery of deep-water fan system in South China Sea. Acta Petrolei Sinaca 25:17–23 (in Chinese)
Peng DJ, Pang X, Chen CM, Zhu M, Huang XL, Shu Y (2006) The characteristics and controlling factors for the formation of deep-water fan system in South China Sea. Acta Sedimentol Sin 24:10–18 (in Chinese)
Popescu I, Lericolais G, Panin N, Normand A, Dinu C, Drezen EL (2004) The Danube submarine canyon (Black Sea) morphology and sedimentary processes. Mar Geol 206:249–265
Posamentier HW, Kolla V (2003) Seismic geomorphology and stratigraphy of depositional elements in deep-water settings. Mar Petrol Geol 20:677–690
Puig P, Ogston AS, Mullenbach BL, Nittrouer CA, Sternberg RW (2003) Shelf-to-canyon sediment-transport processes on the Eel continental margin (northern California). Mar Geol 193:129–149
Rasmussen ES (1994) The relationship between submarine canyon fill and sea level change; an example from middle Miocene offshore Gabon, West Africa. Sediment Geol 90:61–75
Ru K, Pigott JD (1986) Episodic rifting and subsidence in the South China Sea. AAPG Bull 70:1136–1155
Shanmugam G (2003) Deep-marine tidal bottom currents and theri reworked sands in modern and ancient submarine canyons. Mar Petrol Geol 20:471–490
Shao L, Li XH, Wang PX, Jian ZM, Wei GJ, Pang X, Liu Y (2004) Sedimentary record of the tectonic evolution of the South China Sea since the oligocene-evidence from deep sea sediments of ODP site 1148. Adv Earth Sci 19:539–541 (in Chinese)
Shao L, Pang X, Qiao PJ, Chen CM, Li QY, Miao WL (2008) Sedimentary filling of the Pearl River Mouth Basin and its response to the evolution of the Pearl River. Acta Sedimentol Sin 26:179–185 (in Chinese)
Stow DAV, Mayall M (2000) Deep-water sedimentary systems: new models for the 21st century. Mar Petrol Geol 17:125–135
Su JL (2004) Overview of the South China Sea circulation and its influence on the coastal physical oceanography outside the Pearl River Estuary. Cont Shelf Res 24:1745–1760
Sun Z, Pang X, Zhong ZH, Zhou D, Chen CM, Hao HJ, He M, Huang CJ, Xu HH (2005) Dynamics of tertiary tectonic evolution of the Baiyun Sag in the Pearl River Mouth Basin. Earth Sci Frontiers 12(4):489–498 (in Chinese)
Sun Z, Zhong ZH, Keep M, Zhou D, Cai DS, Li X, Wu S, Jiang J (2009) 3D analogue modeling of the South China Sea: a discussion on breakup pattern. J Asian Earth Sci 34:544–556
Wang PX (1995) South China Sea since 150 Ka. Tongji University Press, Shanghai, p 12 (in Chinese)
Wang P, Prell WL, Blum P, Arnold EM, Buehring CJ, Chen M-P, Clemens SC, Clift PD, Colin CJG, Farrell JW, Higginson MJ, Jian Z, Kuhnt W, Laj CE, Lauer-Leredde C, Leventhal JS, Li A, Li Q, Lin J, McIntyre K, Miranda CR, Nathan SA, Shyu JP, Solheid PA, Su X, Tamburini F, Trentesaux A, Wang L (2000) In: Proceedings of ocean drilling program, initial report. Ocean Drilling Program, College Station, p 184
Wang HR, Wang YM, Qiu Y, Peng XC, Liu YY (2008) Geomorphology and its control of deep-water slope of the margin of the South China Sea. Acta Oceanologica Sinica 30:70–79 (in Chinese)
Xue HJ, Chai F, Pettigrew N, Xu DY, Shi M, Xu JP (2004) Kuroshio intrusion and the circulation in the South China Sea. J Geophys Res Oceans 109:C02017
Yu HS, Chiang CS, Shen SM (2009) Tectonically active sediment dispersal system in SW Taiwan margin with emphasis on the Gaoping (Kaoping) Submarine Canyon. J Mar Syst 76:369–382
Zheng XD, Zhu M, He M, Li HW, Lian SY, Zhang X (2007) Prediction of Liwan deep submarine fan sand body distribution, Baiyun Sag, Pearl River Mouth Basin. Petrol Explor Dev 34:529–533 (in Chinese)
Zhou D, Ru K, Chen HZ (1995) Kinematics of Cenozoic extension on the South China Sea continental margin and its implications for the tectonic evolution of the region. Tectonophysics 251:161–177
Zhou D, Sun Z, Liao J, Zhao ZX, He M, Wu XJ, Pang X (2009) Filling history and post-breakup acceleration of sedimentation in Baiyun Sag, Deepwater Northern South China Sea. J Earth Sci 20:160–171
Zhu MZ, Graham S, Pang X, McHargue T (2010) Characteristics of migrating submarine canyons from the middle Miocene to present: implications for paleoceanographic circulation, northern South China Sea. Mar Petrol Geol 27:307–319