Cite this paper:
CAI Laixing, XIAO Guolin, ZENG Zhigang, ZHANG Xunhua, GUO Xingwei, WANG Shuping. New insights into marine hydrocarbon geological conditions in the South Yellow Sea Basin: evidence from borehole CSDP-2[J]. Journal of Oceanology and Limnology, 2020, 38(4): 1169-1187

New insights into marine hydrocarbon geological conditions in the South Yellow Sea Basin: evidence from borehole CSDP-2

CAI Laixing1,2, XIAO Guolin2,3, ZENG Zhigang1,2, ZHANG Xunhua2,3, GUO Xingwei2,3, WANG Shuping4
1 Key Laboratory of Marine Geology and Environment, Institute of Oceanology, Chinese Academy of Sciences, Qingdao 266071, China;
2 Laboratory for Marine Mineral Resources, Pilot National Laboratory for Marine Science and Technology (Qingdao), Qingdao 266237, China;
3 Qingdao Institute of Marine Geology, China Geological Survey, Qingdao 266071, China;
4 Oil Industry Training Center, China University of Petroleum (East China), Qingdao 266580, China
Abstract:
The South Yellow Sea Basin (SYSB) has multiple sets of proven source rocks and good hydrocarbon prospects, but no industrial oil and gas has been explored at present. To solve this puzzle for petroleum geologists, we systematically investigated the marine hydrocarbon geological conditions based on cores and testing data from borehole CSDP-2, the first exploration well with continuous coring in SYSB. The qualities of source rocks are evaluated in detail according to organic matter abundance, type, and maturity. The reservoir characterization mainly includes porosity, permeability, and reservoir space. Displacement pressure test and stratum thickness are the main foundations for defining the caprocks. Then, the oil-source rock correlation in the Permian and stratum model are analyzed to determine the favorable source-reservoir-caprock assemblages. The results show that three sets of effective source rocks (the Lower Triassic, Upper Permian, and Lower Permian), two sets of tight sandstone reservoirs (the Upper Permian and Lower Silurian-Upper Devonian), and two sets of caprocks (the Lower Triassic and Carboniferous) combine to constitute the hydrocarbon reservoir-forming assemblages of "lower-generation and upper-accumulation" and "self-generation and self-accumulation", thus laying a solid foundation for promising petroleum prospects. The three sets of marine source rocks are characterized by successive generation and expulsion stages, which guarantees multistage hydrocarbon accumulation. Another three sets of continental source rocks distributed across the Middle Jurassic, Upper Cretaceous, and Paleogene depression areas, especially in the Northern Depression, may supplement some hydrocarbons for the Central Uplift through faults and the Indosinian unconformity. The favorable Permian exploration strata have been identified in the Central Uplift of SYSB. First, the Lower Permian and Upper Permian source rocks with high organic matter abundance and high thermal maturity supply sufficient hydrocarbons. Secondly, the interbedding relationship between the source rocks and sandstones in the Upper Permian strata ensures that hydrocarbons have been migrated into the nearby Upper Permian sandstones, reflecting near-source hydrocarbon accumulation. Finally, the good sealing property of the Lower Triassic Qinglong Formation caprocks plays an indispensable role in hydrocarbon preservation of the Permian reservoirs. This conclusion is supported by direct oil shows, gas logging anomalous layers, and hydrocarbon-bearing fluid inclusions.
Key words:    hydrocarbon geological conditions|near-source accumulation|relay hydrocarbon generation|multistage accumulation|favorable Permian|South Yellow Sea Basin|borehole CSDP-2   
Received: 2020-01-28   Revised: 2020-03-15
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Articles by CAI Laixing
Articles by XIAO Guolin
Articles by ZENG Zhigang
Articles by ZHANG Xunhua
Articles by GUO Xingwei
Articles by WANG Shuping
References:
Borkloe J K, Pan R F, Jin J N, Nyantakyi E K, Meng J H. 2016.Evaluation of shale gas potential of Cambrian Jiulaodong Formation in Wei-201 well block in Sichuan Basin, China.AAPG Bulletin, 4(2): T123-T140.
Cai L X, Guo X W, Xu Z H, Zhang X H, Li W Q, Xiao G L, Zhu X Q, Hou F H. 2018. Depositional environment of Upper Paleozoic in the Central Uplift of the South Yellow Sea Basin. Acta Sedimentologica Sinica, 36(4): 695-705.(in Chinese with English abstract)
Cai L X, Guo X W, Zhang X H, Zeng Z G, Xiao G L, Pang Y M, Wang S P. 2020. Pore-throat structures of the Permian Longtan Formation tight sandstones in the South Yellow Sea Basin, China: a case study from borehole CSDP-2.Journal of Petroleum Science and Engineering, 186:106733.
Cai L X, Wang J, Guo X W, Xiao G L, Zhu X Q, Pang Y M. 2017. Characteristics of sedimentary facies and source rocks of Mesozoic-Paleozoic in Central Uplift of South Yellow Sea: a case study of CSDP-2 coring well. Journal of Jilin University (Earth Science Edition), 47(4): 1 030-1 046. (in Chinese with English abstract)
Cai L X, Xiao G L, Guo X W, Wang J, Wu Z Q, Li B G. 2019.Assessment of Mesozoic and Upper Paleozoic source rocks in the South Yellow Sea Basin based on the continuous borehole CSDP-2. Marine and Petroleum Geology, 101: 30-42.
Cao Q, Ye J R, Shi W Z, Chen C F. 2009. Preliminary prediction and evaluation of source rocks in low-exploration basins:a case study on the northeast sag of the Northern South Yellow Sea Basin in China. Acta Petrolei Sinica, 30(4):522-529. (in Chinese with English abstract)
Chang X C, Shi B B, Han Z Z, Li T T. 2017. C5-C13 light hydrocarbons of crude oils from northern Halahatang oilfield (Tarim Basin, NW China) characterized by comprehensive two-dimensional gas chromatography.Journal of Petroleum Science and Engineering, 157: 223-231.
Chang X C, Wang Y, Xu Y H, Cui J, Wang T. 2018. On the changes of polycyclic aromatic compounds in waterflooded oil and their implications for geochemical interpretation. Organic Geochemistry, 120: 56-74.
Chen C F. 2019. Kinetics of hydrocarbon generation of carbonate rocks in South Yellow Sea Basin. Earth Science, 44(3): 872-879. (in Chinese with English abstract)
Chen L, Lu Y C, Fu X F, Xing F C, Wang C, Luo C. 2017.Oolitic shoal complexes characterization of the Lower Triassic Feixianguan Formation in the Yuanba Gas Field, Northeast Sichuan Basin, China. Marine and Petroleum Geology, 83: 35-49.
Cheng Q S, Gong J M, Li Z G, Chen J W, Zhang M, Chen Z Q, Tian R C. 2016. Cambrian source rocks in the land area of Yangtze block and implications for oil and gas exploration in the South Yellow Sea. Marine Geology Frontiers, 32(1): 66-72. (in Chinese with English abstract)
Choi S C, Ryu I C, Götze H J. 2015. Depth distribution of the sedimentary basin and Moho undulation in the Yellow Sea, NE Asia interpreted by using satellite-derived gravity field. Geophysical Journal International, 202(1): 41-53.
Deng Y R, Ren Z L, Ma W Q, Chen X P, Yang G L, Nanka E W. 2018. Reservoir properties and hydrocarbon charging threshold of Chang 8 tight sandstones in Fuxian area, Ordos Basin. Petroleum Geology and Experiment, 40(2):288-294. (in Chinese with English abstract)
Feng Z Q, Dong D Z, Tian J Q, Qiu Z, Wu W, Zhang C. 2018.Geochemical characteristics of Longmaxi Formation shale gas in the Weiyuan area, Sichuan Basin, China.Journal of Petroleum Science and Engineering, 167: 538-548.
Fu Y X, Tan S Z, Hou K W. 2019. Formation conditions and resource potentiality of Taizhou formation in North Sag of South Yellow Sea Basin. Journal of Jilin University(Earth Science Edition), 49(1): 230-239. (in Chinese with English abstract)
Gao S L, Tan S Z, Hou K W, Chen Z L, Xu Z Z. 2015.Distribution pattern of the Jurassic in the South Yellow Sea and its tectonic implications. Marine Geology Frontiers, 31(4): 7-12. (in Chinese with English abstract)
Gao X H, Zhang X H, Cai L X, Guo X W, Li W Q. 2019.Silurian-Carboniferous petrographic features and depositional facies in the Well CSDP-2 in the Central Uplift of the South Yellow Sea Basin. Journal of Jilin University (Earth Science Edition), 49(1): 53-64. (in Chinese with English abstract)
Guo X W, Xu H H, Zhu X Q, Pang Y M, Zhang X H, Lu H N. 2019. Discovery of Late Devonian plants from the southern Yellow Sea borehole of China and its palaeogeographical implications. Palaeogeography, Palaeoclimatology, Palaeoecology, 531: 108444.
Hakimi M H, Ahmed A F. 2016. Petroleum source rock characterisation and hydrocarbon generation modeling of the Cretaceous sediments in the Jiza sub-basin, eastern Yemen. Marine and Petroleum Geology, 75: 356-373.
Han C, Han M, Jiang Z X, Han Z Z, Li H, Song Z G, Zhong W J, Liu K X, Wang C H. 2019a. Source analysis of quartz from the Upper Ordovician and Lower Silurian black shale and its effects on shale gas reservoir in the Southern Sichuan Basin and its periphery, China. Geological Journal, 54(1): 438-449.
Han C, Jiang Z X, Han M, Wu M H, Lin W. 2016. The lithofacies and reservoir characteristics of the Upper Ordovician and Lower Silurian black shale in the Southern Sichuan Basin and its periphery, China. Marine and Petroleum Geology, 75: 181-191.
Han W X, Chang X C, Tao S Z, Hou L H, Ma W J, Yao J L, Meng S Q. 2019b. Geochemical characteristics and genesis of pre-salt gases in the Ordos Basin, China.Journal of Petroleum Science and Engineering, 179: 92-103.
Hao T Y, Huang S, Xu Y, Li Z W, Zhang L L, Wang J L, Suh M C, Kim K K. 2010. Geophysical understandings on deep structure in Yellow Sea. Chinese Journal of Geophysics, 53(6): 1 315-1 326. (in Chinese with English abstract)
Hu F. 2010. Hydrocarbon resources potential study in Mesozoic-Palaeozoic marine strata in the South Yellow Sea Basin. Offshore Oil, 30(3): 1-8 (in Chinese with English abstract)
Jiang S H, Gao S, Li S Z, Cao W, Wang G, Zhang H X, Zhao F Y. 2017. Gravity-magnetic anomaly and tectonic units in West Pacific Continent-Ocean Connection Zone. Earth Science Frontiers, 24(4): 152-170. (in Chinese with English abstract)
Korsch R J, Mai H Z, Sun Z C, Gorter J D. 1991. The Sichuan basin, southwest China: a late proterozoic (Sinian)petroleum province. Precambrian Research, 54(1): 45-63.
Li M Y, Zhu R, Lou Z H, Yin W, Hu Z Q, Zhu H Q, Jin A M. 2019. Diagenesis and its impact on the reservoir quality of the fourth member of Xujiahe Formation, Western Sichuan Depression, China. Marine and Petroleum Geology, 103: 485-498.
Li T D, Mo J, Xu H. 2003. Geological structures and petroleum resources in Yellow Sea. China Offshore Oil and Gas(Geology), 17(2): 79-83, 88. (in Chinese with English abstract)
Li W Y, Liu Y X, Xu J C. 2013. Comparative analysis and hydrocarbon exploration on South Yellow Sea Basin. Acta Geologica Sinica, 87(S1): 563-564.
Li W Y, Liu Y X, Xu J C. 2014. Onshore-offshore structure and hydrocarbon potential of the South Yellow Sea. Journal of Asian Earth Sciences, 90(4): 127-136.
Li X T, Wu Z Q, Zhang X H. 2015. Petroleum geology of the Cretaceous in the northern depression of South Yellow Sea Basin: evidence from seismic attribute analysis.Marine Geology & Quaternary Geology, 35(6): 119-126.(in Chinese with English abstract)
Li Y, Chang X C, Yin W, Sun T T, Song T T. 2017. Quantitative impact of diagenesis on reservoir quality of the Triassic Chang 6 tight oil sandstones, Zhenjing area, Ordos Basin, China. Marine and Petroleum Geology, 86: 1 014-1 028.
Liang J, Zhang P H, Chen J W, Gong J M, Yuan Y. 2017.Hydrocarbon preservation conditions in MesozoicPaleozoic marine strata in the South Yellow Sea Basin.Natural Gas Industry, 37(5): 10-19. (in Chinese with English abstract)
Liu G D. 2002. Building the next Great Wall-the second round of oil & gas exploration of China. Progress in Geophysics, 17(2): 185-190.
Liu R, Zhou H W, Zhang L, Zhong Z Q, Zeng W, Xiang H, Jin S, Lu X Q, Li C Z. 2010. Zircon U-Pb ages and Hf isotope compositions of the Mayuan migmatite complex, NW Fujian Province, Southeast China: constraints on the timing and nature of a regional tectonothermal event associated with the Caledonian orogeny. Lithos, 119(3-4):163-180.
Liu Y F, Hu W X, Cao J, Wang X L, Tang Q S, Wu H G, Kang X. 2018. Diagenetic constraints on the heterogeneity of tight sandstone reservoirs: a case study on the Upper Triassic Xujiahe Formation in the Sichuan Basin, southwest China. Marine and Petroleum Geology, 92:650-669.
Lu L Z. 1989. The metamorphic series and crustal evolution of the basement of the Yangtze platform. Journal of Southeast Asian Earth Sciences, 3(1-4): 293-301.
Ma Y S, He D F, Cai X Y, Liu B. 2017. Distribution and fundamental science questions for petroleum geology of marine carbonate in China. Acta Petrologica Sinica, 33(4): 1 007-1 020. (in Chinese with English abstract)
Ma Y S, Zhang S C, Guo T L, Zhu G Y, Cai X Y, Li M W. 2008.Petroleum geology of the Puguang sour gas field in the Sichuan Basin, SW China. Marine and Petroleum Geology, 25(4-5): 357-370.
Pang X Q, Li M W, Li S M, Jin Z J, Xu Z L, Chen A D. 2003.Origin of crude oils in the Jinhu Depression of North Jiangsu-South Yellow Sea Basin, eastern China. Organic Geochemistry, 34(4): 553-573.
Pang Y M, Guo X W, Han Z Z, Zhang X H, Zhu X Q, Hou F H, Han C, Song Z G, Xiao G L. 2019a. MesozoicCenozoic denudation and thermal history in the Central Uplift of the South Yellow Sea basin and the implications for hydrocarbon systems: constraints from the CSDP-2 borehole. Marine and Petroleum Geology, 99: 355-369.
Pang Y M, Guo X W, Zhang X H, Han Z Z, Zhu X Q, Hou F H, Cai L X. 2019b. Denudation of indosinian unconformity and tectonic evolution in the central uplift of South Yellow Sea Basin-Insights from CSDP-2 well. Geotectonica et Metallogenia, 43(2): 235-245. (in Chinese with English abstract)
Pang Y M, Guo X W, Zhang X H, Zhu X Q, Hou F H, Wen Z H, Han Z Z. 2020a. Late Mesozoic and Cenozoic tectonothermal history and geodynamic implications of the Great Xing’an Range, NE China. Journal of Asian Earth Sciences, 189: 104155.
Pang Y M, Zhang X H, Guo X W, Xiao G L, Han Z Z. 2017a.Basin modeling in the initial stage of exploration: a case study from the North Subbasin of the South Yellow Sea Basin. Acta Oceanologica Sinica, 36(9): 65-78.
Pang Y M, Zhang X H, Guo X W, Xiao G L, Zhu X Q. 2017b.Mesozoic and Cenozoic tectono-thermal evolution modeling in the Northern South Yellow Sea Basin.Chinese Journal of Geophysics, 60(8): 3 177-3 190. (in Chinese with English abstract)
Pang Y M, Zhang X H, Xiao G L, Shang L N, Guo X W, Wen Z H. 2018. The Mesozoic-Cenozoic igneous intrusions and related sediment-dominated hydrothermal activities in the South Yellow Sea Basin, the Western Pacific continental margin. Journal of Marine Systems, 180: 152-161.
Pang Y M, Guo X W, Shi B B, Zhang X H, Cai L X, Han Z Z, Chang X C, Xiao G L. 2020b. Hydrocarbon generation evaluation, burial history, and thermal maturity of the Lower Triassic-Silurian organic-rich sedimentary rocks in the Central Uplift of the South Yellow Sea Basin, East Asia. Energy & Fuels, https://doi.org/10.1021/acs.energyfuels.0c00552.
Peters K E. 1986. Guidelines for evaluating petroleum source rock using programmed pyrolysis. AAPG Bulletin, 70(3):318-329.
Seeley M E, Wang Q, Bacosa H, Rosenheim B E, Liu Z F. 2018. Environmental petroleum pollution analysis using ramped pyrolysis-gas chromatography-mass spectrometry.Organic Geochemistry, 124: 180-189.
Shi B B, Chang X C, Wei Y, Li Y, Mao L X. 2019. Quantitative evaluation model for tight sandstone reservoirs based on statistical methods-A case study of the Triassic Chang 8 tight sandstones, Zhenjing area, Ordos Basin, China.Journal of Petroleum Science and Engineering, 173: 601-616.
Song Y, Hu S Z, Xu J Y, Shen C B, Li S F, Su P, Xie W Q. 2020.Lacustrine environmental evolution and implications on source rock deposition in the Upper Cretaceous-Paleocene of the South Yellow Sea Basin, offshore eastern China.Marine and Petroleum Geology, 113: 104135.
Suo Y H, Li S Z, Dai L M, Liu X, Zhou L H. 2012. Cenozoic tectonic migration and basin evolution in East Asia and its continental margins. Acta Petrologica Sinica, 28(8):2 602-2 618. (in Chinese with English abstract)
Tan S Z, Chen C F, Xu Z Z, Hou K W, Wang J. 2018.Geochemical characteristics and hydrocarbon generation potentials of Paleozoic source rocks in the Southern Yellow Sea basin. Marine Geology and Quaternary Geology, 38(3): 116-124. (in Chinese with English abstract)
Wang G W, Chang X C, Yin W, Li Y, Song T T. 2017. Impact of diagenesis on reservoir quality and heterogeneity of the Upper Triassic Chang 8 tight oil sandstones in the Zhenjing area, Ordos Basin, China. Marine and Petroleum Geology, 83: 84-96.
Wang J Q, Gong J M, Zhang L, Cheng H Y, Liao J, Chen J W, Sun J, Yang C S. 2018. Discussion on preservation conditions of shale gas with “Sandwich” structure in South Yellow Sea basin. Marine Geology & Quaternary Geology, 38(3): 134-142. (in Chinese with English abstract)
Wang L J, Ye J R, Wu C L. 2005. Petroleum geological characteristics of Pre-Tertiary in South Yellow Sea Basin.Natural Gas Industry, 25(7): 1-3. (in Chinese with English abstract)
Wang Y J, Fan W M, Zhao G C, Ji S C, Peng T P. 2007. Zircon U-Pb geochronology of gneissic rocks in the Yunkai massif and its implications on the Caledonian event in the South China Block. Gondwana Research, 12(4): 404-416.
Wang Y Z, Xie Q W, Cao Y C, Lin M R, Wang Y S, Li Y Z, Wang X, Xi K L, Mi L S, Guo Y C, Du Y J. 2020b.Influence of multistage oil emplacement on carbonate cementation in the Eocene Shahejie Formation, Dongying Sag, Bohai Bay Basin, China. Marine and Petroleum Geology, 112: 104063.
Wang Y, Chang X C, Sun Y Z, Shi B B, Qin S J. 2020a.Investigation of fluid inclusion and oil geochemistry to delineate the charging history of Upper Triassic Chang 6, Chang 8, and Chang 9 tight oil reservoirs, Southeastern Ordos Basin, China. Marine and Petroleum Geology, 113:104115.
Wei G Q, Chen G S, Du S M, Zhang L, Yang W. 2008.Petroleum systems of the oldest gas field in China:neoproterozoic gas pools in the Weiyuan gas field, Sichuan Basin. Marine and Petroleum Geology, 25(4-5):371-386.
Wu Z Q, Zhang X H, Zhao W N, Qi J H, Cai L X. 2019. Marine oil and gas exploration prospects, problem and strategies in South Yellow Sea. Journal of Jilin University (Earth Science Edition), 49(1): 26-38. (in Chinese with English abstract)
Xi K L, Cao Y C, Liu K Y, Wu S T, Yuan G H, Zhu R K, Kashif M, Zhao Y W. 2019. Diagenesis of tight sandstone reservoirs in the Upper Triassic Yanchang Formation, southwestern Ordos Basin, China. Marine and Petroleum Geology, 99: 548-562.
Xiao G L, Cai L X, Guo X W, Dong H P, Pang Y M. 2019.Exploration enlightenment on residual “Black Jurassic” in Chinese offshore from exploration breakthrough in eastern sag of the North Yellow Sea Basin. Journal of Jilin University (Earth Science Edition), 49(1): 115-130.(in Chinese with English abstract)
Xiao G L, Cai L X, Guo X W, Wu Z Q, Dong H P, Li B G. 2017. Detailed assessment of Meso-Paleozoic hydrocarbon source rocks: implications from Well CSDP-2 on the Central Uplift of the South Yellow Sea Basin.Marine Geology Frontiers, 33(12): 24-36. (in Chinese with English abstract)
Xiao G L, Zhang Y G, Wu Z Q, Lei B H, Sun J, Wang J Q. 2014. Comparative assessment of hydrocarbon resource potential in the South Yellow Sea Basin. Marine Geology Frontiers, 30(7): 25-33. (in Chinese with English abstract)
Xiao G L. 2002. Reassessment of petroleum geologic features and potential reserves in the South Yellow Sea Basin.Marine Geology & Quaternary Geology, 22(2): 81-87. (in Chinese with English abstract)
Xie Z Y, Wei G Q, Li J, Yang W, Zhang G W, Guo J Y, Zhang L. 2013. Reservoir characteristics and accumulation modes of large carbonate gas fields in China. Acta Petrolei Sinica, 34(S1): 29-40. (in Chinese with English abstract)
Xiong M J, Zhang J S, Zhang W S, Yin C T. 2019. Heterogeneous tide-surge interaction during co-occurrence of tropical and extratropical cyclones in the radial sand ridges of the southern Yellow Sea. Journal of Oceanology and Limnology, 37(6): 1 879-1 898.
Xu J Y, Zhu X F, Song Y, Hu S Z. 2019a. Geochemical characteristics and oil-source correlation of Paleogene source rocks in the South Yellow Sea Basin. Earth Science, 44(3): 848-858. (in Chinese with English abstract)
Xu M, Chen J W, Liang J, Zhang Y G, Lei B H, Shi J, Wang J Q, Liu J, Liu H. 2019b. Basement structures underneath the northern South Yellow Sea basin (East China):implications for the collision between the North China and South China blocks. Journal of Asian Earth Sciences, 186: 104040.
Xu X M, Hong Y H, Zhou Q Z, Liu J Z, Yuan L R, Wang J H. 2018. Century-scale high-resolution black carbon records in sediment cores from the South Yellow Sea, China.Journal of Oceanology and Limnology, 36(1): 114-127.
Xu Y, Li Z W, Kim K H, Hao T Y, Liu J S. 2009. Crustal velocity structure and collision boundary between the Sino-Korea and Yangtze blocks in the Yellow Sea.Chinese Journal of Geophysics, 52(3): 646-652. (in Chinese with English abstract)
Xu Z Y, Jiang S, Yao G S, Liang X, Xiong S Y. 2019c. Tectonic and depositional setting of the lower Cambrian and lower Silurian marine shales in the Yangtze Platform, South China: implications for shale gas exploration and production. Journal of Asian Earth Sciences, 170: 1-19.
Yang R, Hu Q H, He S, Hao F, Guo X S, Yi J Z, He X P. 2018.Pore structure, wettability and tracer migration in four leading shale formations in the Middle Yangtze Platform, China. Marine and Petroleum Geology, 89: 415-427.
Yang T, Cao Y C, Friis H, Liu K Y, Wang Y Z, Zhou L L, Yuan G H, Xi K L, Zhang S M. 2020. Diagenesis and reservoir quality of lacustrine deep-water gravity-flow sandstones in the Eocene Shahejie Formation in the Dongying sag, Jiyang depression, eastern China. AAPG Bulletin, DOI:10.1306/1016191619917211.
Yang T, Cao Y C, Wang Y Z, Liu K Y, He C, Zhang S M. 2019.Determining permeability cut-off values for net pay study of a low-permeability clastic reservoir: a case study of the Dongying Sag, eastern China. Journal of Petroleum Science and Engineering, 178: 262-271.
Yao Y J, Xia B, Feng Z Q, Wang L L, Xu X. 2005. Tectonic evolution of the South Yellow Sea since the Paleozoic.Petroleum Geology and Experiment, 27(2): 124-128. (in Chinese with English abstract)
Yi S, Yi S, Batten D J, Yun H, Park S J. 2003. Cretaceous and Cenozoic non-marine deposits of the Northern South Yellow Sea Basin, offshore western Korea:palynostratigraphy and palaeoenvironments.Palaeogeography, Palaeoclimatology, Palaeoecology, 191(1): 15-44.
Yuan Y, Chen J W, Liang J, Xu M, Lei B H, Zhang Y X, Cheng Q S, Wang J Q. 2019. Hydrocarbon geological conditions and exploration potential of Mesozoic-Paleozoic marine strata in the South Yellow Sea Basin. Journal of Ocean University of China, 18(6): 1 329-1 343.
Yuan Y, Chen J W, Liang J, Zhang P H. 2017. Source-reservoirseal assemblage of marine Mesozoic-Paleozoic in South Yellow Sea Basin by land-ocean comparison. Petroleum Geology and Experiment, 39(2): 195-212. (in Chinese with English abstract)
Yue D L, Wu S H, Xu Z Y, Xiong L, Chen D X, Ji Y L, Zhou Y. 2018. Reservoir quality, natural fractures, and gas productivity of upper Triassic Xujiahe tight gas sandstones in western Sichuan Basin, China. Marine and Petroleum Geology, 89: 370-386.
Zhang P H, Chen J W, Liang J, Gong J M, Yuan Y, Dong G, Zhang Y G. 2016. Diagenesis and characteristics of the marine reservoirs in the South Yellow Sea Basin. Marine Geology Frontiers, 32(1): 35-42. (in Chinese with English abstract)
Zhang W S, Teng L, Zhang J S, Xiong M J, Yin C T. 2019a.Numerical study on effect of tidal phase on storm surge in the South Yellow Sea. Journal of Oceanology and Limnology, 37(6): 2 037-2 055.
Zhang X H, Guo X W, Wu Z Q, Xiao G L, Zhang X H, Zhu X Q. 2019b. Preliminary results and geological significance of Well CSDP-2 in the Central Uplift of South Yellow Sea Basin. Chinese Journal of Geophysics, 62(1): 197-218.(in Chinese with English abstract)
Zhang X H, Xiao G L, Wu Z Q, Li S L. 2017. Understanding and Discussion on Some Geological Problems of Oil and Gas Exploration in the South Yellow Sea. Beijing: Science Press, 302-311. (in Chinese)
Zhang X H, Yang J Y, Li G, Yang Y Q. 2015. Basement structure and distribution of Mesozoic-Paleozoic marine strata in the South Yellow Sea Basin. Chinese Journal of Geophysics, 58(1): 96-107.
Zhang Z P, Wang Y, Li J J, Liu S L, Yun Y B, Li J C. 2014.Dynamic evolution assessment of the Paleozoic hydrocarbon cap rocks in Bachu-Magati area, Tarim Basin. Oil and Gas Geology, 35(6): 839-852. (in Chinese with English abstract)
Zhao S J, Li S Z, Suo Y H, Guo L L, Dai L M, Jiang S H, Wang G. 2017. Structure and formation mechanism of the Yellow Sea Basin. Earth Science Frontiers, 24(4): 239-248. (in Chinese with English abstract)
Zhou X F, Zhang Y S, Yan D T, Tang J R, Wu Z X, Ma Z S, Zhou F, Zhao R, He J, Yu C. 2018. Quantitative evaluation of sealing capacity of Tertiary mudstone caprock in Lenghu area, Qaidam Basin. Earth Science, 43(S2): 226-233. (in Chinese with English abstract)
Zhu Q, Lin J, Hong Y H, Yuan L R, Liu J Z, Xu X M, Wang J H. 2018. Centennial-scale records of total organic carbon in sediment cores from the South Yellow Sea, China.Journal of Oceanology and Limnology, 36(1): 128-138.
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