Abstract
Shallow-water deltas are important reservoirs for hydrocarbon resources, and there are many oil and gas discoveries found in the sands in China. Many large shallow-water delta sedimentary systems were found in the Bohai Bay Basin in the Late Miocene. Several classic shallow-water deltas are developed in the early-stage sequence (SQmL2) of the lower part of Neogene Minghuazhen Formation in the Bohai Bay Basin which have attracted much attention in recent years. We choose the SQmL2 as an example to reveal the relationships between paleoenvironment and shallow-water delta facies and architecture. Analysis of 3D seismic data and logging data indicated that two types of sedimentary facies, including shallow-water delta and shallow lake facies, are developed during SQmL2. The shallow-water delta facies mainly consist of subaqueous distributary channel with mouth bar rarely developed. The deltas are mainly comprised of relatively thin (1–4 m) fine- to medium-grained sandstone. The combinations of distributary channels on planer view are mostly branch-shaped and lobe-shaped. The shallow-water deltas developed in SQmL2 are controlled by paleogeomorphology, sediment supply, and paleoclimate. The flat topography and sediment supply are favorable for sediments moving basinward for a long distance and forming channelized sand bodies. As the climate gets humid, the lake level rises and shallow lake area expands, resulting the sand bodies move landward and become much thinner. The lake level has changed from shallow to deep and to shallow, and correspondingly, sand body of subaqueous distributary channels has changed from lobe shape to branch shape and to lobe shape.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Data Availability
All data generated or analyzed during this study are included in this published article.
Code availability
None.
References
Adams JS, Kraus MJ, Wing SL (2011) Evaluating the use of weathering indices for determing mean annual precipitation in the ancient stratigraphic record. Paleogeogr Paleoclimatol Paleoecol 309(3-4):358–366
Alonso-Zarza AM, Zhao Z, Song CH, Li JJ, Zhang J, Martín-Pérez A, Martín-García R, Wang XX, Zhang Y, Zhang MH (2009) Mudflat/distal fan and shallow lake sedimentation (upper Vallesian-Turolian) in the Tianshui Basin, Central China: evidence against the late Miocene eolian loess. Sediment Geol 222:42–52
Ambrosetti E, Martini I, Sanderlli F (2017) Shoal-water deltas in high-accommodation settings: insights from the lacustrine Valimi Formation (Gulf of Corinth, Greece). Sedimentology 64:425–452
Blatt H, Middleton GV, Murray RC (1980) Origin of sedimentary rocks. Pretice-hall, New Jersey
Cai XY, Zhu R (2011) Cretaceous sand body characters at shallow-water lake delta front and the sedimentary dynamic process analysis in Songliao Basin, China. Acta Geol Sinica-English Ed 85(6):1478–1494
Cai GQ, Guo F, Liu XT (2009) Carbon and oxygen isotope characteristics and palaeoenvironmental implications of lacustrine carbonate rocks from the Shahejie formation in the Dongying Sag. Earth Environ 37:347–354
Cao H, Guo W, Shan X, Ma L, Sun P (2015) Paleolimnological environments and organic accumulation of the Nenjiang Formation in the southeastern Songliao Basin. China, Oil Shale 32(1):5–24
Chen L, Lu YC, Wu JY, Xing FC, Liu L, Ma YQ (2015) Sedimentary facies and depositional model of shallow water delta dominated by fluvial for Chang 8 oil-bearing group of Yanchang formation in southwestern Ordos Basin, China. J Cent South Univ 22(12):4749–4763
Coleman JM (1998) Dynamic changes and processes in the Mississippi River delta. GSA Bull 100(7):999–1015
Dai LM, Li JP, Zhou XH, Cui ZG, Cheng JC (2007) Depositional system of the Neogene shallow water delta in Bohai Sea area. Litholo Reserv 19(4):75–81 (in Chinese with English abstract)
Diao F, Wen ZG, Zou HY, Li N (2013) Sedimentary characteristics of shallow-water deltas in Chang 8 Oil-Bearing Interval in Eastern Gansu, Ordos Basin. Earth Sci 6:1289–1298 (in Chinese with English abstract)
Donaldon AC (1974) Pennsylvanian sedimentation of central Appalachians. Spec Paper Geol Soc Am 148:47–78
Fisher JA, Nichols GJ, Waltham DA (2007) Unconfined flow deposits in distal sectors of fluvial distributary systems: examples from the Miocene Luna and Huesca systems, northern Spain. Sediment Geol 195:55–73
Fisk HN (1961) Bar-finger sands of the Mississippi delta. In: James AP et al (eds) Geometry of sandstone bodies, SP22. Electronic Index of AAPG Special Publications, pp 29–52
Ganil MR, Bhattacharya JP (2007) Basic building blocks and process variability of a Cretaceous delta: internal facies architecture reveals a more dynamic interaction of river, wave, and tidal processes than is indicated by external shape. J Sediment Res 77(4):284–302
Gong ZS, Huang LF, Chen PH (2011) Neotectonic controls on petroleum accumulations, offshore China. J Pet Geol 34(1):5–27 (in Chinese with English abstract)
Graham GH, Jackson MD, Hampson GJ (2015) Three-dimensional modeling of clinoforms in shallow-marine reservoirs: Part 2. Impact on fluid flow and hydrocarbon recovery in fluvial-dominated deltaic reservoirs. AAPG Bull 99(6):1049–1080
Guan XT, Fan HP, Song ZC (1989) A study on Late Cenozoic palynology in Bohai sea region. Nanjing University Press, Nanjing, pp 2–15 (in Chinese)
Hatch JR, Leventhal JS (1992) Relationship between inferred redox potential of the depositional environment and geochemistry of the Upper Pennsylvanian (Missourian) Stark Shale Member of the Dennis Limestone, Wabaunsee County, Kansas, U.S.A. Chem Geol 99:65–82
Hoy RG, Ridgway KD (2003) Sedimentology and sequence stratigraphy of fan-delta and river-delta deposystems, Pennsylvanian Minturn Formation, Colorado. AAPG Bull 87(7):1169–1191
Ji YL, Lu H, Liu YR (2013) Sedimentary model of shallow water delta and beach bar in the Member 1 of Paleogene Funing Formation in Gaoyou sag, Subei Basin. J Palaeogeogr 15(5):729–740 (in Chinese with English abstract)
Jin ZD, Zhang EL (2002) Paleoclimate implications of Rb/Sr ratios from lake sediments. Sci Technol Eng 2(3):20–22 (in Chinese with English abstract)
Keumsuk L, McMechan GA, Gani MR, Bhattacharya JP, Zeng XX, Howell CD (2007) 3-D architecture and sequence stratigraphic evolution of a forced regressive top-truncated mixed-influenced delta, Cretaceous Wall Creek sandstone, Wyoming, U.S.A. J Sediment Res 77(4):284–302
Lai WC, Cheng JC, Zhou XH, Li JP, Dai LM, Zhang YH (2009) Stratigraphic sequence division and sandbody characteristics of peneplain deposits during lacustrine basin shrinking: a case study of Lower Member of Neogene Minghuazhen Formation in the area of Yellow River mouth. China Offshore Oil Gas 21(3):157–161 (in Chinese with English abstract)
Lemons DR, Chan MA (1999) Facies architecture and sequence stratigraphy of fine-grained lacustrine deltas along the eastern margin of late Pleistocene Lake Bonneville, northern Utah and southern Idaho. AAPG Bull 83:635–665
Lewan MD, Maynard JB (1982) Factors controlling enrichment of vanadium and nickel in the bitumen of organic sedimentary rocks. Geochim Cosmochim Acta 46:2547–2560
Li XY, Yin TJ, Ke LM, Li JP (2012) Provenance analysis of the Lower Member of Minghuazhen Formation in Huanghekou Sag of Bohaiwan Basin. J Oil Gas Technol 2:36–40 (in Chinese with English abstract)
Li JP, Liu H, Niu CM, Guo RB (2014) Evolution regularity of the Neogene shallow water delta in the Laibei area, Bohai Bay Basin, northern China. J Palaeogeogr 3(3):257–269
Li DL, Li RX, Zhu ZW, Wu XL, Cheng JH, Liu FT, Zhao BS (2017) Origin of organic matter and paleo-sedimentary environment reconstruction of the Triassic oil shale in Tong-chuan City, southern Ordos Basin (China). Fuel 208:223–235
Liu H (2014) Establishing the sequence-stratigraphic framework of a lacustrine basin during its withering period using multiple methods and technologies: a case study of the Neocene of the Huanghekou Sag, Bohai Bay Basin, China. Disast Adv 7(7):52–66
Liu H, Xia QL, Somerville ID, Wang Y, Zhou XH, Niu CM, Du XF, Zhang XT (2015) Paleogene of the Huanghekou Sag in the Bohai Bay Basin, NE China: deposition-erosion response to a slope break system of rift lacustrine basins. Geol J 50:71–92
Liu H, Zhao CC, Ju YT, Zhou XH (2016) Evolution of lacustrine basin in relation to variation in palaeowater depth and delta development: Neogene Bohai Bay Basin, Huanghekou area, northern China. Arab J Geosci 9:672
Liu H, Meng J, Banerjee S (2017) Estimation of palaeo-slope and sediment volume of a lacustrine rift basin: a semi-quantitative study on the southern steep slope of the Shijiutuo Uplift, Bohai Offshore Basin, China. J Asian Earth Sci 147:148–163
Liu H, Xia QL, Zhou XH (2018) Geologic-seismic models, prediction of shallow-water lacustrine delta sandbody and hydrocarbon potential in the Late Miocene, Huanghekou Sag, Bohai Bay Basin, northern China. J Paleogeograph 7(1):66–87
Liu H, Van Loon AJ, Xu J, Tian LX, Du XF, Zhang XT, Chen DL (2020) Relationships between tectonic activity and sedimentary source-to-sink system parameters in a lacustrine rift basin: a quantitative case study of the Huanghekou Depression (Bohai Bay Basin, E China). Basin Res 32:587–612
Lou ZH, Yuan D, Jin AM (2004) Types, characteristics of sandbodies in shallow-water delta front and sedimentary models in Northern Songliao Basin, China. J Zhejiang Univ 31(2):211–215 (in Chinese)
Miall AD (1988) Architectural elements and bounding surfaces in fluvial deposits, anatomy of the Kayenta Formation (Lower Jurassic), southwest Colorado. Sediment Geol 55(3):233–262
Moradi AV, Sarı A, Akkaya P (2016) Geochemistry of the Miocene oil shale (Hancili Formation) in the Cankırı-Corum Basin, Central Turkey: implications for palaeoclimate conditions, source-area weathering, provenance, and tectonic setting. Sediment Geol 341:289–303
Nazeer A, Abbasi SA, Solangi SH (2016) Sedimentary faces interpretation of Gamma Ray (GR) log as basic well logs in Central and Lower Indus Basin of Pakistan. Geodesy Geodynam 7(6):432–443
Nichols GJ (2005) Sedimentary evolution of the Lower Clair Group, Devonian, west of Shetland: climate and sediment supply controls on fluvial, aeolian and lacustrine deposition. In: Doré AG, Vining BA (eds) Petroleum Geology: North West Europe and Global Perspectives-Proceedings of the 6th Petroleum Geology Conference. Geological Society, London, pp 957–967
Nichols GJ, Fisher JA (2007) Processes, facies and architecture of fluvial distributary system deposits. Sediment Geol 195:75–90
North CP, Davidson SK (2012) Unconfined alluvial flow processes: recognition and interpretation of their deposits, and the significance for palaeogeographic reconstruction. Earth Sci Rev 111:199–223
Olariu C, Bhattacharya JP (2006) Terminal distributary channels and delta front architecture of river-dominated delta systems. J Sediment Res 76:212–233
Overeem I, Kroonenberg SB, Veldkamp A, Groenesteijn K, Rusakov GV, Svitoch AA (2003) Small-scale stratigraphy in a large ramp delta: recent and Holocene sedimentation in the Volga delta, Caspian Sea. Sediment Geol 159:133–157
Patocha F, Storch P (2004) Evolution of geochemistry and depositional settings of early Palaeozoic siliciclastic of the Barrandian, Tepla Barrandian unit, Bohemian Massif, Czech Republic. Int J Earth Sci 93:728–741
Plink-Björklund P (2020) Shallow-water deltaic clinoforms and process regime. Basin Res 32:251–262
Plint AG (2000) Sequence stratigraphy and paleogeography of a Cenomanian deltaic complex: the Dunvegan and lower Kaskapau formations in subsurface and outcrop, Alberta and British Columbia, Canada. Bull Can Petrol Geol 48(1):43–79
Posamentier HW, Kolla V (2003) Seismic geomorphology and stratigraphy of depositional elements in deep-water settings. J Sediment Res 73(3):367–388
Postma G (1990) An analysis of the variation in delta architecture. Terra Nova 2(2):124–130
Rimmer SM (2004) Geochemical paleoredox indicators in Devonian-Mississippian black shales, central Appalachian basin (USA). Chem Geol 206:373–391
Strakhov NM (1958) The types of iron in sediments of the black sea. Dokl Akad Nauk SSSR 118(4):803–806
Sun ZH, Zhu HT, Xu CG, Yang XH, Du XF (2020) Reconstructing provenance interaction of multiple sediment sources in continental down-warped lacustrine basins: An example from the Bodong area, Bohai Bay Basin, China. Mar Pet Geol 113:104142
Tan MX, Zhu X, Liu Q, Zhang Z, Liu W (2020) Multiple fluvial styles in Late Miocene post-rift successions of the offshore Bohai Bay Basin (China): Evidence from a seismic geomorphological study. Mar Pet Geol 113:104173
Tian LX, Liu H, Niu CM, Du XF, Yang B, Lan XD (2019) Development characteristics and controlling factor analysis of the Neogene Minghuazhen Formation shallow water delta in Huanghekou Sag, Bohai offshore basin. J Palaeogeogr 3:251–269
Tribovillard N, Algeo TJ, Lyons T (2006) Trace metals as paleoredox and paleoproductivity proxies: an update. Chem Geol 232:12–32
Wang F, Niu C, Tang G (2017) Activity and reservoir-controlling action of the faults in the central structure belt of Laizhou Bay Sag. Petrol Geol Oilfield Develop Daqing 36:1–9
Wang DY, Yu HB, Wang QM, Li L, Li J (2018) Differences of hydrocarbon accumulation models of extremely shallow-water delta in lacustrine basin shrinking period, Bohai sea. J N Petrol Univ 42(3):16–25 (in Chinese with English abstract)
Wang MQ, Xie J, Zhang Q, Wang YJ, Duan YJ (2019) Characteristics and sedimentary model of a reticular shallow-water delta with distributary channels: lower member of the Neogene Minghuazhen Formation in the Bozhong area of the Huanghekou Sag, China. Arab J Geosci 12:760
Wang JH, Guan ZL, Croix AD, Wang QK, Ji L, Sun J (2020) Seismic geomorphology of shallow-water lacustrine deltas in the Paleocene Huanghua Depression, Bohai Bay Basin, eastern China. Mar Pet Geol 120:104561
Xin WY, Bai YC, Xu HJ (2019) Experimental study on evolution of lacustrine shallow-water delta. Catena 182:104125
Xu CG, Jiang PH, Wu FD, Yang B, Li DL (2002) Discovery and sedimentary characteristics of the Neogene Delta in Bozhong depression and its significance for oil and gas exploration. Acta Sedimentol Sin 20(4):588–593 (in Chinese with English abstract)
Yuan WF, Chen SY, Zeng CM (2006) Study on marine transgression of palaeogene Shahejie formation in Jiyang depression. Acta Pet Sin 27:40–49 (in Chinese)
Zeng HL, Zhu XM, Zhu RK (2013) New insights into seismic stratigraphy of shallow-water progradational sequences: Subseismic clinoforms. Interpretation 1(1):35–51
Zhang CS, Liu ZB, Shi D, Cheng QG, Zhang RB, Ma CY (2000) Physical simulation of formation process in distributary channels and debouch bars in delta. Earth Sci Front 7(3):168–177 (in Chinese)
Zhang XT, Zhou XH, Li JP, Niu CM (2014) Unconfined flow deposits in front sandbodies of shallow-water deltaic distributary systems. Acta Sedimentol Sin 32(2):260–269 (in Chinese with English abstract)
Zhang JM, Wang MQ, Wang YJ, Jiang YP, Lei Y, Zhang L, Wang JK (2017) Identification and sedimentary evolution of the shallow-water delta of bird-foot in Bozhong 28-2S oil field group of Bohai Bay Basin. Periodic Ocean Univ China 47(9):77–85 (in Chinese)
Zhu W, Li J, Zhou X, Guo Y (2008) Neogene shallow water deltaic system and large hydrocarbon accumulations in Bohai Bay, China. Acta Sedimentol Sin 26(4):575–582 (in Chinese)
Zhu XM, Zeng HL, Li SL, Dong YL, Zhu SF, Zhao DN, Huang W (2017a) Sedimentary characteristics and seismic geomorphologic responses of a shallow-water delta in the Qingshankou Formation from the Songliao Basin, China. Mar Pet Geol 79:131–148
Zhu ZL, Lin CY, Zhang XG, Li ZP, Xie JJ, Wei SD, Cheng P (2017b) Shallow-water delta deposits in a rifting lacustrine basin during early stage: a case study of the first member of Dainan Formation at Yong’an area, Gaoyou Sag. J Jilin Univ (Earth Sci Ed) 47(3):659–673 (in Chinese with English abstract)
Zou CN, Zhang XY, Luo P, Wang L, Luo Z, Liu LH (2010) Shallow-lacustrine sand-rich deltaic depositional cycles and sequence stratigraphy of the Upper Triassic Yanchang Formation, Ordos Basin, China. Basin Res 22:108–125
Zuo XC, Li CL, Zhang JL, Ma GY, Chen PP (2020) Geochemical characteristics and depositional environment of the Shahejie Formation in the Binnan Oilfield, China. J Geophys Eng 17:539–551
Acknowledgments
We also would like to express our sincere gratitude to the editor and two anonymous reviewers for their valuable comments, which have greatly improved this paper.
Funding
We would like to thank the National Science and Technology Major Project (Exploration Technologies for Offshore Hidden Oil/Gas) (project no.: 2016ZX05024-003-003) and the Fundamental Research Funds for the Central Universities for funding support.
Author information
Authors and Affiliations
Contributions
Shimeng Hao and Hao Liu conceived and designed the study. Shimeng Hao performed the experiments. Shimeng Hao and Hao Liu wrote the paper. Shimeng Hao, Hao Liu, Xiaofeng Du, and Chengmin Niu reviewed and edited the manuscript. All authors read and approved the manuscript.
Corresponding author
Ethics declarations
Conflict of interest
The authors declared that they have no conflict of interest to this work.
Additional information
Responsible Editor: Santanu Banerjee
Rights and permissions
About this article
Cite this article
Hao, S., Liu, H., Du, X. et al. Sedimentary characteristics of shallow-water delta and responses features in palaeoenvironment: a case study from the lower part of Neogene Minghuazhen Formation (Bonan area, Bohai Bay Basin, E China). Arab J Geosci 14, 326 (2021). https://doi.org/10.1007/s12517-021-06572-y
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s12517-021-06572-y