The sedimentary facies characteristics and lithofacies palaeogeography during Middle-Late Cambrian, Sichuan Basin and adjacent area

Feifan Lu , Xiucheng Tan , Teng Ma , Ling Li , Aiwei Zhao , Chengpeng Su , Jingqing Wu , Haitao Hong

Petroleum ›› 2017, Vol. 3 ›› Issue (2) : 212 -231.

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Petroleum ›› 2017, Vol. 3 ›› Issue (2) :212 -231. DOI: 10.1016/j.petlm.2016.12.007
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The sedimentary facies characteristics and lithofacies palaeogeography during Middle-Late Cambrian, Sichuan Basin and adjacent area
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Abstract

Combined with the regional strata filling characteristics of Middle-Upper Cambrian, the present paper conducts a systematic research on sedimentary facies in the basin and its peripheral area by utilizing 164 field outcrops and drilling and coring data. Further, the method of “multi-factor comprehensive synthesis based on single-factor analysis” was employed to investigate the sedimentary facies and palaeogeography of the study area and establish the sedimentary facies model. Stratigraphic reveals that the study area represents the pattern of thin-northwest and thick-southeast by stretching northeast-southwest. Within the present basin, the pattern of “one thin and two thick” predominates, while outside the basin “four thin and three thick” filling feature was found. Sedimentary facies shows that the study area was featured by rimmed carbonate platform. Specifically, carbonate platform, slope and northeastern corner Qinling paleooceanic Basin and southeastern corner Jiangnan Bain was identified from the west to the east. The carbonate platform contains restricted platform, evaporation-restricted platform, semi-restricted platform and the platform margin. Single factor analysis and lithofacies palaeogeographic characteristics manifests that during Middle-Late Cambrian, the western Old land evolved into peneplain stage, and that the eastern and southwestern sub-sags remained connected to the open-sea to some extent. At the time, the shllow seawater circulation was relatively restricted, while the ancient seabed tended to be flat and evaporation characteristics significantly diminished. Secondary sea-level fluctuation intensively influenced the development of scaled grain beach. It is suggested that tide marginal beach, intraplatform shoal subfacies zone, along with Shiqian-SangZhi in southeast and Zhenba-Xinshan in northeast platform-margin beach subfacies zone to be preferable targets for the favorable reservoir facies zone and potential oil and gas reservoir area.

Keywords

Sedimentary facies / Paleogeography / Carbonate platform / Platform margin / Sedimentary facies model

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Feifan Lu, Xiucheng Tan, Teng Ma, Ling Li, Aiwei Zhao, Chengpeng Su, Jingqing Wu, Haitao Hong. The sedimentary facies characteristics and lithofacies palaeogeography during Middle-Late Cambrian, Sichuan Basin and adjacent area. Petroleum, 2017, 3(2): 212-231 DOI:10.1016/j.petlm.2016.12.007

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Acknowledgments

This research is from the projects for National Natural Science foundation of China (41402126), major special projects for national science-technology of “twelfth five-year plan” (2011ZX05004-005-03), projects of CNPC science and innovation Fund (2011D-5006-0105) and joint Funding results for scientific research innovation team construction plan of Sichuan provincial universities and colleges “natural gas geology”.

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

D.G. Liang, Review and expectation on the discovery of Ordovician Lunnan-Tahe Oilfield, Tarim Basin, Acta Pet Sin. 29 (1) (2008) 153-158.
[2]

Y.S. Ma, Y.X. Cai, P.R. Zhao, et al., Distribution and further exploration of the large-medium sized gas fields in Sichuan Basin, Acta Pet. Sin. 31 (3) (2010) 347-354.
[3]

C.N. Zou, J.H. Du, C.C. Xu, et al. Formation, distribution, resource potential and discovery of the Sinian Cambrian giant gas field, Sichuan Basin, SW China, Petroleum Explor. Dev. 41 (3) (2014) 278-293.
[4]

G.Q. Wei, J.H. Du, C.C. Xu, et al., Characteristics and accumulation modes of large gas reservoirs in Sinian-Cambrian of Gaoshiti-Moxi region, Sichuan Basin, Acta Pet. Sin. 36 (1) (2015) 1-12.
[5]

M.L. Zhang, Z.Y. Xie, X.Z. Li, et al., Characteristics of lithofacies paleogeography of Cambrian in Sichuan Basin, Acta Sedimentol. Sin. 28 (1) (2010) 128-139.
[6]

W.M. Huang, S.G. Liu, G.Q. Xu, et al., Characteristics of paleo oil pools from Sinian to lower paleozoic, Geol. Rev. 57 (2) (2011) 285-299.
[7]

L. Li, J.S. Xie, H.B. Deng, et al., Study on characteristics and its stratigraphic classification and correlation of Cambrian in Sichuan Basin, Geol. Mineral Resour. South China 28 (3) (2012) 197-202.
[8]

W. Yang, W.R. Xie, G.Q. Wei, et al., Swquence lithofacies paleogeography, favorable reservoir distribution and exploration zones of the Cambrian and Ordovician in Sichuan Basin,China, Acta Pet. Sin. 33 (2) (2012) 21-34.
[9]

C.C. Xu, P. Shen, Y.M. Yang, et al., Accumulation conditions and enrichment patterns of natural gas in the lower Cambrian Longwangmiao Fm reservoirs of the Leshan-Longnüsi Paleohigh,Sichuan Basin, Nat. Gas Ind. 34 (3) (2014) 1-7.
[10]

H. Yin, The Study of Sedimentary Faeiesand Reservoir ProPerty of Cambrian in Leshan-longnüsi Paleo-uplift Area, Southwest Petroleum University, Chengdu, 2007.
[11]

L. Li, X.C. Tan, J.W. Xia, et al., Influences of eustatic movement on the Cambrian reservoirs of bank facies in Weiyuan gas field, the Sichuan Basin, Nat. Gas Ind. 28 (4) (2008) 19-21.
[12]

L. Li, X.C. Tan, L.Z. Zhao, et al., Prediction of thin shoal-facies reservoirs in the carbonate platform interior: a case from the Cambrian Xixiangchi Group of the Weiyuan area, Sichuan Basin, Petroleum Explor. Dev. 40 (3) (2013) 334-340.
[13]

Z.J. Jin, Y. Zhou, First discovery of a destroyed large upper Cambrian oil pool in Wangcun town, south China, Nat. Gas Geosicence 20 (2) (2009) 159-161.
[14]

R. Li, D. Zhang, Z. Zhao, et al., Lithogenic and accumulation characteristics as well as quality affecting factors of Mid-dle-Upper Cambrian strata and Sinian Denying Formation dolomite reservoirs on the western side of the Xuefeng Moun-tain, Geol. Bull. China 31 (11) (2012) 1852-1861.
[15]

X.B. Li, A. Liu, X.W. Zeng, et al., Characteristics of carbonate reservoirs of Cambrian Loushanguan formation to the west of Xuefeng mountain, Petroleum Geol. Exp. 34 (2) (2012) 153-157.
[16]

S.F. Wang, W. Li, F. Zhang, et al., Developmental mechanism of advantageous Xixiangchi Group reservoirs in Leshan-Longnüsi palaeohigh, Petroleum Explor. Dev. 35 (2) (2008) 170-174.
[17]

L. Zhou, Z.H. Kang, Z. Liu, et al., Characteristics of Xixiangchi Group carbonate reservoir space in Leshan-Longnüsi palaeo-uplift, Sichuan Basin, J. Central South Univ. 45 (12) (2014) 4393e4401 (Science and Technology).
[18]

S.Q. Xu, Z.Y. Dai, X.G. Jiang, et al., Oil and gas exploration prospects of Cambrain Xixiangchi member in palaeo-uplift zone, Nat. Gas Explor. Dev. 29 (4) (2006) 4-8.
[19]

W. Yang, M.Y. Hu, H.J. Song, et al., Diagenesis of middle and upper Cambrian reservoirs in southern part of Sichuan Basin, Mar. Orig. Pet. Geol. 13 (4) (2008) 29-36.
[20]

X.Q. Jiang, H.L. Guan, G.X. Liu, et al., Diagenesis of middle and upper Cambrian Loushanguan Group reservoirs in Nanchuan area, Sichuan Basin, Petroleum Geol. Exp. 37 (3) (2015) 314-319.
[21]

J.Q. Liu, J.S. Lin, W.M. Feng, et al., The ree geochemical characteristics of middle-up Cambrian dolomite in southeast Sichuan Basin and its significance: a case study of Ghangshutian profile in Bijie Guizhou, Acta Pwtrologica Mineralogica 34 (1) (2008) 87-94.
[22]

J.Q. Liu, Z. Zhao, J.S. Lin, et al., The characteristics and genetic mechanism of middle-upper Cambrian dolomite on the southeast margin of Sichuan Basin, Geol. China 41 (5) (2014) 1682-1692.
[23]

K.H. Yu, Z.K. Jin, K. Su, et al., Paleogeography of middle Cambrian and origin of Dolomites in the middle-upper Yangtze plate, Acta Sedimentol. Sin. 32 (2) (2014) 244-252.
[24]

H.J. Lei, G.R. Li, J.L. Zhou, et al., Carbonate Diagenesis Feature and Controlling over Reservoirs of Camrian in South Area of Sichuan Basin, J. Northeast Petroleum Univ. 39 (2) (2015) 59-68.
[25]

D. Xiao, X.C. Tan, A.H. Xi, et al., Palaeokarst characteristics of carbonate rocks of the Middle Permian Maokou Formation in southern Sichuan Basin: example of strata-bound eogenetic karst in palaeo-continental settings, J. Palaeogeogr. 17 (4) (2015) 457-476.
[26]

Z.J. Zhao, G.Z. Fan, X.N. Wu, et al., Reservoir types, exploration domains and exploration Strategy of marine carbonates in China, Mar. Orig. Pet. Geol. 12 (1) (2007) 1-11.
[27]

X.C. Tan, Y. Nie, H. Liu, et al., Research on the method of recoverying microtopography of epeiric carbonate platform in depositional stage: a case study from the layer A of Jia 22 member in moxi gas field, Sichuan Basin, Acta Sedimentol. Sin. 29 (3) (2011) 486-494.
[28]

Z.J. Shi, J. Peng, Y. Wang, Reservoir features and controlling factors of dengying formation in southeast Sichuan, China, J. Chengdu Univ. Technol. 37 (1) (2010) 1e8 (Science & Technology Edition).
[29]

B. Luo, X.C. Tan, L. Li, et al., Discovery and geologic significance of paleokarst unconformity bet ween Changxing Formation and Feixianguan Formation in Shunan area of Sichuan Basin, Acta Pet. Sin. 31 (3) (2010) 408-414.
[30]

M.D. Jin, W. Zeng, X.C. Tan, et al., Characteristics and controlling factors of beach-controlled karst reservoirs in Cambrian Longwangmiao Formation, Moxi-Gaoshiti area, Sichuan Basin, NW China, Petroleum Explor. Dev. 41 (6) (2014) 650-660.
[31]

J.G. Zhou, C.C. Xu, G.S. Yao, et al., Genesis and evolution of lower Cambrian Longwangmiao Formation reservoirs, Sichuan Basin, SW China, Petroleum Explor. Dev. 42 (2) (2015) 158-166.
[32]

X. Ding, J.S. Chen, X.C. Tan, et al., Structural characteristics of intra-platform shoal in the Leikoupo Formation (T2) in the transitional zone of the central and southern Sichuan Basin, Petroleum Explor. Dev. 39 (4) (2012) 444-451.
[33]

L. Li, X.C. Tan, L.Z. Zhao, et al., Prediction of thin shoal-facies reservoirs in the carbonate platform interior: a case from the Cambrian Xixiangchi Group of the Weiyuan area, Sichuan Basin, Petroleum Explor. Dev. 40 (3) (2013) 359-366.
[34]

X.F. Yang, X.Z. Wang, H. Tang, et al., Research sedimentary microfacies of the Longwangmiao Formation in moxi area, central Sichuan Basin, Acta Sedimentol. Sin. 33 (5) (2015) 972-982.
[35]

Y.S. Ma, X.Y. Cai, P.R. Zhao, Characteristics and formation mechanisms of reef-shoal carbonate reservoirs of Changxing-Feixianguan formations, Yuanba gas field, Acta Pet. Sin. 35 (6) (2014) 1001-1011.
[36]

J.G. Zhou, C. Fang, H.C. Ji, et al., A development rule of lower Cambrian Longwangmiao grain beaches in the Sichuan Basin, Nat. Gas Ind. 34 (8) (2014) 27-36.
[37]

Z.Q. Gao, T.L. Fan,Carbonate platform-margin architecture and its influence on Cambrian-Ordovician reef-shoal development, Tarim Basin, NW China, Mar. Petroleum Geol. 68 (A) (2015) 291-306.
[38]

T. Ma, X.C. Tan, L. Li, et al., Sedimentary characteristics and distribution of grain shoals in the lower cambrian Longwangmiao Formation of Sichuan Basin and its adjacent areas, J. Palaeogeogr. 17 (2) (2015) 213-228.
[39]

M.D. Jin, X.C. Tan, L. Li, et al., Characteristics and distribution of grain bank of the lower Cambrian Longwangmiao Formation in Moxi-Gaoshiti area, Sichuan Basin, J. Palaeogeogr. 17 (3) (2015) 347-357.
[40]

A.W. Zhao, X.C. Tan, L. Li, et al., Characteristics and distribution of grain banks in the cambrian Xixiangchi Group of Sichuan Basin and its adjacent areas, J. Palaeogeogr. 17 (1) (2015) 21-32.
[41]

G.W. Wang, P.P. Li, F. Hao, et al., Impact of sedimentology, diagenesis, and solid bitumen on the development of a tight gas grainstone reservoir in the Feixianguan Formation, Jiannan area, China: implications for gas exploration in tight carbonate reservoirs, Mar. Petroleum Geol. 64 (2015) 250-265.
[42]

H.Q. Tian, Research and Compilation of Lithofacies Palaeogeography of the Cambrian in South China, Petroleum University Publishing House, Dongying, 1998.
[43]

Z.Z. Feng, Y.M. Peng, Z.K. Jin, et al., Lithofacies palaeogeography of the late Cambrian in China, J. Palaeogeogr. 4 (3) (2002) 1-10.
[44]

M.X. Mei, Y.S. Ma, H. Zhang, et al., Sequence-stratigraphic frameworks for the Cambrian of the Upper-Yangtze region: ponder on the sequence stratigraphic background of the Cambrian biological diversity events, J. Stratigr. 31 (1) (2007) 68-78.
[45]

K.H. Yu, Z.K. Jin, K. Su, et al., The Cambrian sedimentary characteristics and their implications for oil and gas exploration in north margin of Middle-Upper Yangtze Plate, Sci. China Earth Sci. 43 (9) (2013) 1418-1435.
[46]

W. Liang, C.L. Mou, K.K. Zhou, et al., Lithofacies palaeogeography of the cambrian in central and southern hunan province, J. Palaeogeogr. 16 (1) (2014) 41-54.
[47]

J. Li, D.F. He, Palaeogeography and tectonic-depositional environment evolution of the Cambrian in Sichuan Basin and adjacent areas, J. Palaeogeogr. 16 (4) (2014) 441-460.
[48]

C. Zhao, X.B. Li, J.L. Huan, et al. Characteristics of the sequence stratigraphy and sequence stratigraphy framework, the middle to upper cambrian in western Xuefeng Mountains area, J. Jilin Univ., 45 (2) (2015) 518e532 (Earth Science Edition).
[49]

W. Liang, C.L. Mou, K.K. Zhou, et al., Palaeogeography of the Cambrian epoch 3-Furongian in the middle and upper Yangtze region, J. Palaeogeogr. 17 (2) (2015) 172-185.
[50]

Z.W. Guo, K.L. Deng, Y.H. Han, et al., Sichuan Basin Formation and Development, Geological publishing House, Beijing, 1996.
[51]

Z.Q. Li, M. Pan, D.M. Xiao, et al., Studies of extension-compression tectonic dynamic setting in Sichuan Basin, Acta Sci. Nat. Univ. Pekin. 37 (1) (2001) 87-93.
[52]

X.J. Zhou, F. Yang, Tectonic evolution and proto types analysis from Neoproterozoic to early Paleozoic in south China, Petroleum Geol. Exp. 29 (5) (2007) 446-451.
[53]

Y. Zhong, Y.L. Li, X.B. Zhang, et al. Evolution characteristics of central Sichuan palaeouplift and its relationship with early cambrian mianyang-Changning intracratonic sag, J. Chengdu Univ., Technol. 41 (6) (2014) 703e712 (Science & Technology Edition).
[54]

Q.S. Wang, Rise to land of northern area of central Guizhou during middle and late meitan age of early ordovician, J. guizhou Inst. Technol. 19 (1) (1990) 84-85.
[55]

L. Yuan, J.B. Yao, G.R. Li, et al., Division and sedimentary model of middleupper Cambrian sequence strata in Sichuan Basin, Mar. Orig. Pet. Geol. 18 (3) (2013) 19-28.
[56]

K.H. Yu, Z.K. Jin, X.D. Dong, et al., Sedimentary characteristics of the Cambrian slope controlled by synsedimentary faults in northern margin of Yangtze Platform, J. Palaeogeogr. 15 (3) (2013) 401-412.
[57]

S.C. Peng, New global subdivision on Cambrian Chronostratigraphy, Bull. Chin. Acadamy Sci. 21 (4) (2006) 325-328.
[58]

S.C. Peng, Jiangshanian Stage (Cambrian, Furongian) and the GSSP for the base of the stage established formally, J. Stratigr. 35 (4) (2011) 393-396.
[59]

X.D. Gu, X.H. Liu, Rock Strata in Sichuan Province, China University of Geosciences Press, Wuhan, 1997.
[60]

Y.Y. Qian, X. Chen, The Cambro-ordovician stratigraphy of the Emeishan region,Western Sichuan, Acta Geol. Sin. 2 (1978) 124-134.
[61]

Y.M. Peng, B. Gao, R.Q. Zhang, et al., Distinguishing indicators and prospect significance of Cambrian dissolved gypseous breccias in southern Sichuan Basin, Petroleum Geol. Exp. 33 (1) (2011) 22-27.
[62]

X.F. Zhang, Research of Characteristics and Accumulation Condition on the Cambrian Gypsum-salt Rocks in Sichuan Basin, Chengdu Univerisity of Technology, Chengdu, 2010.
[63]

Y.G. Wang, J. Zhang, X.G. Liu, et al., Sedimentary facies of evaporative carbonate platform of the Feixianguan formation of lower Triassic in northeastern Sichuan Basin, J. Palaeogeogr. 7 (3) (2005) 357-371.
[64]

L. Li, X.C. Tan, X. Ding, et al., Difference in depositional characteristics between intra-platform and marginal-platform shoals in Leikoupo Formation, Sichuan Basin and its impact on reservoirs, Acta Pet. Sin. 32 (1) (2011) 70-76.
[65]

J. Zhang, Y.G. Wang, Characteristics of carbonate evaporation tableland edge deposition in early Feixianguan epoch at Hekou region of Xuanhan in Sichuan, Nat. Gas Ind. 23 (2) (2003) 19-22.
[66]

B.Z. He, C.L. Jiao, S.L. Wang, et al., Characteristics and exploration prospect of carbonate platform margin of late ordovician Lianglitage formation in the Tazhong area, Tarim Basin, Acta Geol. Sin. 83 (7) (2009) 1039-1046.
[67]

H.D. Chen, Y.J. Zhong, X.S. Xu, et al., Types and characteristics of carbonate platform margins of marine carbonate rock in three major basins in western China, Acta Petrol. Sin. 30 (3) (2014) 609-621.
[68]

F.X. Huang, H.D. Chen, M.C. Hou, et al., Filling process and evolutionary model of sedimentary sequence of Middle-Upper Yangtze craton in Caledonian (Cambrian-Silurian), Acta Petrol. Sin. 27 (8) (2011) 2299-2317.
[69]

Q. Yu, C.L. Mu, H.Q. Zhang, et al., Sedimentary evolution and reservoir distribution of northern Upper Yangtze plate in Sinian-Early Paleozoic, Acta Petrol. Sin. 27 (3) (2011) 672-680.
[70]

J.S. Ren, The Tectonic Map of China and Adacent Regions, Geology Publishing House, Beijing, 1998.
[71]

M.H. Chen, J.C. Liang, G.L. Zhang, et al., Boundary between Yangtze and Cathaysian plates in Caledonian, Geol. J. China Univ. 12 (1) (2006) 111-122.
[72]

X.C. Sheng, Z.F. Guo, X.M. Liu, Characteristics of Middle-Upper Cambrian dolomite reservoir in the Xingshan area of the southern margin of Qinling and Dabie orogenic belt, Petroleum Geol. Exp. 31 (2) (2009) 172-176.
[73]

Z.Z. Feng, Y.M. Peng, Z.K. Jin, et al., Lithofacies palaeogeography of the Cambrian in south China, J. Palaeogeogr. 3 (1) (2001) 1-4.
[74]

X.P. Yuan, J.B. Liu, Research history and progress on reflux seepage dolostone, J. Palaeogeogr. 14 (2) (2012) 219-228.
[75]

B.J. Liu, X.S. Xu, Atlas of Lithofacies and Paleogeography in South China (Sinian to Triassic), Science Press, Beijing, 1994.
[76]

Y.S. Ma, H.D. Chen, G.L. Wang, et al., Sequence Stratigraphy and Palaeogeography in Southern China, Science Press, Beijing, 2009.
[77]

J. Zhang, Z. He, H.B. Xu, et al., Petrological characteristics and origin of permian Fengcheng formation dolomitic rocks in Wuerhe-Fengcheng area, Junggar Basin, Acta Sedimentol. Sin. 30 (5) (2012) 859-867.
[78]

R. Schmalz, F. Deep-water evaporite deposition: a genetic model, AAPG Bull. 53 (4) (1969) 798-823.
[79]

L.A. Hardie, H.P. Eugster, The depositional environment of marine evaporates; a case for shallow, clastic accumulation, Sedimentology 16 (3/4) (1971) 187-220.
[80]

Y. Ren, D.K. Zhong, C.L. Gao, et al., Sedimentary facies of the lower cambrian Longwangmiao Formation in eastern Sichuan Basin and its adjacent areas, J. Palaeogeogr. 3 (2015) 335-346.
[81]

X.C. Tan, L. Li, H. Liu, et al., Mega-shoaling in carbonate platform of the middle Triassic Leikoupo formation, Sichuan Basin, southwest China, Sci. China Earth Sci. 44 (3) (2014) 457-471.
[82]

Z.K. Jin, L. Shi, B.S. Gao, et al. Carbonate facies and facies models, Acta Sedimentol. Sin. 31 (6) (2013) 965-979.
[83]

X.S. Xu, W. Liu, Y.P. Men, et al., Probe into the tectonic nature of Neoproterozoic southern hunan-northern Guangxi marine Basin, Acta Geol. Sin. 86 (12) (2012) 1890-1904.
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