LIU Hanyao, LIN Changsong, ZHANG Zhongtao, ZHANG Bo, JIANG Jing, TIAN Hongxun, LIU Huan. High-resolution sequence architecture and depositional evolution of the Quaternary in the northeastern shelf margin of the South China Sea[J]. Acta Oceanologica Sinica, 2019, 38(5): 86-98. doi: 10.1007/s13131-019-1442-2
Citation: LIU Hanyao, LIN Changsong, ZHANG Zhongtao, ZHANG Bo, JIANG Jing, TIAN Hongxun, LIU Huan. High-resolution sequence architecture and depositional evolution of the Quaternary in the northeastern shelf margin of the South China Sea[J]. Acta Oceanologica Sinica, 2019, 38(5): 86-98. doi: 10.1007/s13131-019-1442-2

High-resolution sequence architecture and depositional evolution of the Quaternary in the northeastern shelf margin of the South China Sea

doi: 10.1007/s13131-019-1442-2
  • Received Date: 2017-12-05
  • The northeastern shelf margin of the South China Sea (SCS) is characterized by the development of large scale foresets complexes since Quaternary. Based on integral analysis of the seismic, well logging and paleontological data, successions since~3.0 Ma can be defined as one composite sequence, consist of a set of regional transgressive to regressive sequences. They can be further divided into six 3rd order sequences (SQ0-SQ5) based on the Exxon sequence stratigraphic model. Since~1.6 Ma, five sets of deltaic systems characterized by development of wedge-shaped foresets complexes or clinoforms had been identified. High-resolution seismic data and the thick foresets allowed further divided of sub-depositional sequences (4th order) of regression to transgression, which is basically consistent with published stacked benthic foram O-isotope records. Depositional systems identified in the study area include deltaic deposits (inner-shelf deltas and shelf-edge deltas), incised valleys, and slope slumping massive deposits. Since~1.6 Ma, clinoforms prograded from the southern Panyu Lower Uplift toward the northern Baiyun Depression, shelf slope break migrated seaward, whereas the shelf edge of SQ0 migrated landward. The development of incised valleys in the continental shelf increased upward, especially intensive on the SB3 and SB2. The slumping massive deposits increased abruptly since SB2, which corresponds to the development of incised valleys. The evolution of depositional systems of continental slope mainly controlled by the combined influence of sea level changes, tectonic movements, sediment supply and climate changes. Since~3.0 Ma, relative sea level of the northern SCS had been experienced transgression (~3.0 Ma BP) to regression (~1.6 Ma BP). The regional regression and maximum transgressions of the composite sequences were apparently enhanced by uplift or subsidence related to tectono-thermal events. In addition, climatic variations including monsoon intensification and the mid-Pleistocene transition may have enhanced sediment supply by increasing erosion rate and have an indispensable influence on the development of the incised valleys and 5 sets of deltaic systems since~1.6 Ma.
  • loading
  • Alves T M, Bell R E, Jackson A L, et al. 2014. Deep-water continental margins:geological and economic frontiers. Basin Research, 26(1):3-9, doi: 10.1111/bre.2014.26.issue-1
    Anastasakis G, Piper D J W. 2013. The changing architecture of sea-level lowstand deposits across the Mid-Pleistocene Transition:South Evoikos Gulf, Greece. Quaternary Science Reviews, 73:103-114, doi: 10.1016/j.quascirev.2013.04.018
    Carvajal C, Steel R, Petter A. 2009. Sediment supply:The main driver of shelf-margin growth. Earth-Science Reviews, 96(4):221-248, doi: 10.1016/j.earscirev.2009.06.008
    Catuneanu O. 2006. Principles of Sequence Stratigraphy. Canada:Elsevier Science, 1-16
    Catuneanu O, Abreu V, Bhattacharya J P, et al. 2009. Towards the standardization of sequence stratigraphy. Earth-Science Reviews, 92(1-2):1-33
    Chen Cangmin. 2000. Petroleum geology and conditions for hydrocarbon accumulation in the eastern Pearl River Mouth Basin. China Offshore Oil and Gas (Geology) (in Chinese), 14(2):73-83
    Chen P P H, Chen Z Y, Zhang Qimin. 1993. Sequence stratigraphy and continental margin development of the northwestern shelf of the South China Sea. AAPG Bulletin, 77(5):842-862
    Chiocci F L, Ercilla G, Torre J. 1997. Stratal architecture of western Mediterranean margins as the result of the stacking of quaternary lowstand deposits below ‘glacio-eustatic fluctuation base-level’. Sedimentary Geology, 112(3-4):195-217
    Clift P, Lee J I, Clark M K, et al. 2002. Erosional response of South China to arc rifting and monsoonal strengthening; A record from the South China Sea. Marine Geology, 184(3-4):207-226
    Clift P D, Hodges K V, Heslop D, et al. 2008. Correlation of Himalayan exhumation rates and Asian monsoon intensity. Nature Geoscience, 1(12):875-880, doi: 10.1038/ngeo351
    Ding Weiwei, Li Jiabiao, Li Jing, et al. 2013. Morphotectonics and evolutionary controls on the Pearl River Canyon system, South China Sea. Marine Geophysical Research, 34(3-4):221-238
    Dixon J F, Stee R J, Olariu C. 2012. River-dominated, shelf-edge deltas:delivery of sand across the shelf break in the absence of slope incision. Sedimentology, 59(4):1133-1157, doi: 10.1111/sed.2012.59.issue-4
    Dong Wei, Lin Changsong, Qin Chenggang, et al. 2008. High resolution sequence framework, depositional pattern and litho-stratigraphic traps of Hanjiang formation in Panyu Uplift, Pearl River Mouth Basin. Geoscience (in Chinese), 22(5):794-802
    Elderfield H, Ferretti P, Greaves M, et al. 2012. Evolution of ocean temperature and ice volume through the mid-Pleistocene climate transition. Science, 337(6095):704-709, doi: 10.1126/science.1221294
    Feng Zhiqiang, Feng Wenke, Xue Wanjun, et al. 1996. Evaluation of Marine Geologic Hazards and Engineering Geological Conditions in the Northern South China Sea (in Chinese). Nanjing, China:Hehai University Publishing House, 177-178
    Ge Huangmin, Li Qianyu, Zhong Guangfa, et al. 2012. High resolution Quaternary seismic sequence stratigraphy and paleo-environmental evolution in the northern South China Sea. Marine Geology & Quaternary Geology (in Chinese), 32(4):49-60
    Gong Zisheng, Li Sitian. 2004. Dynamic Research of Oil and Gas Accumulation in Northern Marginal Basins of South China Sea (in Chinese). Beijing:Science Press, 1-50
    Gong Chenglin, Wang Yingmin, Steel R J, et al. 2016. Flow processes and sedimentation in unidirectionally migrating deep-water channels:From a three-dimensional seismic perspective. Sedimentology, 63(3):645-661, doi: 10.1111/sed.2016.63.issue-3
    Gong Chenglin, Wang Yingmin, Zhu Weilin, et al. 2013. Upper Miocene to Quaternary unidirectionally migrating deep-water channels in the Pearl River Mouth Basin, northern South China Sea. AAPG Bulletin, 97(2):285-308, doi: 10.1306/07121211159
    Haq B L, Hardenbol J, Vail P R. 1987. Chronology of fluctuating sea levels since the Triassic. Science, 235(4793):1156-1167, doi: 10.1126/science.235.4793.1156
    Henriksen S, Hampson G J, Helland-Hansen W, et al. 2009. Shelf edge and shoreline trajectories, a dynamic approach to stratigraphic analysis. Basin Research, 21(5):445-453, doi: 10.1111/bre.2009.21.issue-5
    Huang Baoqi, Jian Zhimin, Zhao Quanhong, et al. 2005. Variations in deep-water masses from the northern south China Sea since the late Pliocene. Earth Science-Journal of China University of Geosciences (in Chinese), 30(5):529-533
    Huang Chiyue, Wu Weiyu, Chang C P, et al. 1997. Tectonic evolution of accretionary prism in the arc-continent collision terrane of Taiwan. Tectonophysics, 281(1-2):31-51
    Huang Zhenguo, Zhang Weiqiang, Chai Fuxiang. 1995. The submerged Zhujiang delta. Acta Geographica Sinica (in Chinese), 50(3):206-214
    Imbrie J, Berger A, Boyle E A, et al. 1993. On the structure and origin of major glaciation cycles 2. The 100,000-year cycle. Paleoceanography, 8(6):699-735, doi: 10.1029/93PA02751
    Jian Zhimin, Huang Wei. 2003. Rapid climate change and high-resolution deep-sea sedimentary records. Advance in Earth Sciences (in Chinese), 18(5):673-680
    Jian Zhimin, Wang Pinxian, Zhao Quanhong, et al. 2001. Late pliocene enhanced east asian winter monsoon:evidence of isotope and foraminifers from the northern south china sea. Quaternary Sciences (in Chinese), 21(5):461-469
    Jiang Jing, Shi Hesheng, Lin Changsong, et al. 2017. Sequence architecture and depositional evolution of the Late Miocene to quaternary northeastern shelf margin of the South China Sea. Marine and Petroleum Geology, 81:79-97, doi: 10.1016/j.marpetgeo.2016.12.025
    Kou Yangqi. 1990. Ancient River Channels in the northern South China Sea shelf and engineering geologic significance. Marine Geology & Quaternary Geology (in Chinese), 10(1):37-45
    Kou Yangqi, Du Deli. 2010. Sedimentary features of shallow ancient river channels on the northern shelf of the South China Sea. Acta Geologica Sinica (in Chinese), 8(1):85-98
    Lüdmann T, Wong H K. 1999. Neotectonic regime on the passive continental margin of the northern South China Sea. Tectonophysics, 311(1-4):113-138
    Lüdmann T, Wong H K, Wang Pinxian. 2001. Plio-Quaternary sedimentation proce50, 000 years. Journal of Geophysical Research, 92(D7):8411-8425, doi: 10.1029/JD092iD07p08411
    Qin Guoquan. 1996. Application of micropaleontology to the sequence stratigraphic studies of late Cenozoic in the Zhujiang River Mouth Basin. Marine Geology & Quaternary Geology (in Chinese), 16(4):1-18
    Shackleton N J. 1987. Oxygen isotopes, ice volume and sea level. Quaternary Science Reviews, 6(3-4):183-190
    Sun Zhen, Zhong Zhihong, Zhou Di, et al. 2008. Dynamics analysis of the Baiyun Sag in the Pearl River Mouth Basin, North of the South China Sea. Acta Geologeca Sinica, 82(1):73-83
    Tang Song, Shao Lei, Zhao Quanhong. 2004. Characteristics of clay mineral in South China Sea since Oligocene and its significance. Acta Sedimentologica Sinica (in Chinese), 22(2):337-342
    Vail P R. 1987. Seismic stratigraphy interpretation using sequence stratigraphy, Part 1:seismic stratigraphy interpretation procedure. In:Bally A W, ed. Atlas of Seismic Stratigraphy. Tulsa, OK:AAPG Studies in Geology, 27:1-10
    Vail P R, Audemard F, Bowman S A, et al. 1991. The stratigraphic signatures of tectonics, eustasy and sedimentology-an overview. In:Einsele G, Ricken W, Seilacher A, eds. Cycles and Events in Stratigraphy. Berlin:Springer-Verlag, 617-659
    Vail P R, Mitchum R M, Todd R G, et al. 1977a. Seismic stratigraphy and global changes in sea level. In Payton C E, ed. Seismic Stratigraphy-Applications to Hydrocarbon Exploration. Tulsa:American Association of Petroleum Geologists, 26:49-212
    Vail P R, Mitchum R M, Todd R G, et al. 1977b. Seismic stratigraphy and global changes of sea-level, Part 9. Seismic interpretation of elastic dep?sitional fades. In:Payton C E, ed. Seismic Stratigraphy-Application to Hydrocarbon Exploration. Tulsa:American Association of Petroleum Geologists, 26:83-97
    Wang Pinxian, Jian Zhimin, Zhao Quanhong, et al. 2003. Evolution of the South China Sea and monsoon history revealed in deep-sea records. Chinese Science Bulletin, 48(23):2549-2561, doi: 10.1360/03wd0156
    Wang Pinxian, Li Qianyu. 2009. The South China Sea:Paleoceanography and Sedimentology. Netherlands:Springer, 1-50
    Wang Pinxian, Li Qianyu, Tian Jun. 2014. Pleistocene paleoceanography of the South China Sea:Progress over the past 20 years. Marine Geology, 352:381-396, doi: 10.1016/j.margeo.2014.03.003
    Wang Guozhi, Wang Chenshan, Zeng Yunfu. 1999. Sedimentary Evidence of the Western Yunnan Plateau Uplift since Miocene. Bulletin of Mineralogy, Petrology and Geochemistry (in Chinese), 18(3): 167-170
    Wu Shiguo, Liu Zhan, Wang Wanyin, et al. 2004. Late Cenozoic neotectonics in the Dongsha islands region and its responds to collision between Chinese continental margin and Luzon. Oceanologia et Limnologia Sinica (in Chinese), 35(6):481-490
    Wu Jinggu, Xu Qiang, Zhu Yanhe. 2010. Generation and dvolution of the shelf-ddge delta in Oligocene and Miocene of Baiyun Sag in the South China Sea. Earth Science (in Chinese), 35(4):681-690
    Xie Lihua, Lin Changsong, Dong Wei, et al. 2009. High-resolution sequence stratigraphy of Zhujiang Formation and Zhuhai formation in Panyu low uplift of the Zhujiang River mouth basin. Geology in China (in Chinese), 36(2):366-377
    Xie Hui, Zhou Di, Li Yuanping, et al. 2014. Cenozoic tectonic subsidence in deepwater sags in the Pearl River Mouth Basin, northern South China Sea. Tectonophysics, 615-616:182-198
    Zhang Yulan. 2008. Sporopollen and algae in Core C4 of northern South China Sea and its paleoenvironment. Journal of Tropical Oceanography (in Chinese), 27(6):44-48
    Zhang Xunhua, Li Yancheng, Qi Zhenhua, et al. 1997. An approach to the formation and evolution model of South China Sea Basin. Marine Geology & Quaternary Geology (in Chinese), 17(2):1-7
    Zhang Peizhen, Molnar P, Downs W R. 2001. Increased sedimentation rates and grain sizes 2-4 Myr ago due to the influence of climate change on erosion rates. Nature, 410(6831):891-897, doi: 10.1038/35073504
    Zhao Quanhong, Jian Zhimin, Wang Jiliang, et al. 2001. Neogene oxygen isotopic stratigraphy, ODP Site 1148, northern South China Sea. Science in China Series D:Earth Sciences, 44(10):934-942, doi: 10.1007/BF02907086
    Zheng Hongbo, Powell C M, An Zhisheng, et al. 2000. Pliocene uplift of the northern Tibetan Plateau. Geology, 28(8):715-718, doi: 10.1130/0091-7613(2000)28<715:PUOTNT>2.0.CO;2
    Zhisheng A, Kutzbach J E, Prell W L, et al. 2001. Evolution of Asian monsoons and phased uplift of the Himalaya-Tibetan plateau since Late Miocene times. Nature, 411(6833):62-66, doi: 10.1038/35075035
    Zhou Wei, Wang Yingmin, Gao Xianzhi, et al. 2015. Architecture, evolution history and controlling factors of the Baiyun submarine canyon system from the middle Miocene to Quaternary in the Pearl River Mouth Basin, northern South China Sea. Marine and Petroleum Geology, 67:389-407, doi: 10.1016/j.marpetgeo.2015.05.015
    Zhu Yanhe, Zhu Weilin, Xu Qiang, et al. 2011. Sedimentary response to shelf-edge delta and slope deep-water fan in 13.8 Ma of Miocene epoch in Pearl River Mouth Basin. Journal of Central South University (Science and Technology) (in Chinese), 42(12):3827-3834
    Zhuo Haiteng, Wang Yingmin, Shi Hesheng, et al. 2015. Contrasting fluvial styles across the mid-Pleistocene climate transition in the northern shelf of the South China Sea:Evidence from 3D seismic data. Quaternary Science Reviews, 129:128-146, doi: 10.1016/j.quascirev.2015.10.012
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索

    Article Metrics

    Article views (809) PDF downloads(365) Cited by()
    Proportional views
    Related

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return