Your search keyword '"Yongchao Lu"' showing total 125 results

1. Unleashing the power of AI in science-key considerations for materials data preparation

Author

Yongchao Lu, Hong Wang, Lanting Zhang, Ning Yu, Siqi Shi, and Hang Su

Subjects

Science

Abstract

The release of ChatGPT has triggered global attention on artificial intelligence (AI), and AI for science is thus becoming a hot topic in the scientific community. When we think about unleashing the power of AI to accelerate scientific research, the question coming to our mind first is whether there is a continuous supply of highly available data at a sufficiently large scale.

Published

2024

2. Depositional system constrained by the high-precision sequence framework and the source to sink systems: A case study from the First Member of the Liushagang Formation in the Weixinan Sag

Author

Hao WANG, Mingsheng ZOU, Qinyu CUI, Mengtian GAO, Jingyu ZHANG, and Yongchao LU

Subjects

weixinan sag, the first member of the liushagang formation, sequence stratigraphy, depositional system, source to sink system, high-precision sequence framework, Geology, QE1-996.5, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

Objective The exploration direction of the Weixinan Sag in the Beibuwan Basin has shifted from structural traps to lithological traps, and the key problem in searching for lithological traps is to clarify the distribution of sandstones. Methods In this study, the high-frequency sequence division and depositional system of the First Member of the Liushagang Formation in the Weixinan Sag were analyzed using zircon dating, logging, core and seismic data. Results Then, the types and distributions of depositional facies in the First Member of the Liushagang Formation in the Weixinan Sag were clarified. The results show that the First Member of the Liushagang Formation was deposited as a third-order sequence, which can be divided into three system tracts and eight parasequence sets. Based on the analysis of the source to sink systems and sedimentary facies, the sediments in the Weixinan Sag mainly sourced from the Wanshan provenance in the northwest, the Qixi provenance in the east, the Wexinan provenance in the southeast, and the Xinan provenance in the southwest. The First Member of the Liushagang Formation in the Weixinan Sag mainly contains three sedimentary facies types: delta, lacustrine and sublacustrine fan. The lowstand system tract is dominated by mid-deep lake and sublacustrine fan deposits, including turbidity channels, natural levee, and sheet lobes. The expanding system tract mainly contains the sedimentary microfacies of deep lacustrine mud. The highstand system tract consists of front-delta deposition, among which the subaqueous distributary channel and subaqueous distributary interchannel are widely developed, and sedimentary microfacies such as mouth bar and sheet sand are less developed. Conclusion Three types of sublacustrine fan are mainly developed in the B subsag, including the western delta progradation slump type, southern near source fault slope belt type, and eastern far source gentle slope type.Among them, the southern provenance system with large-scale and good reservoir-forming conditions is the most promising target for further exploration.

Published

2024

3. Sedimentary characteristics and sedimentary model of the Upper Permian-Lower Triassic shallow braided river delta in the hinterland of the Junggar Basin

Author

Bin WANG, Qi QIU, Yongchao LU, Dezhi LIU, Jiyuan WANG, Xuebin DU, Zhenming LI, and Xiangquan LI

Subjects

shallow water braided river delta, sedimentary model, upper wuerhe formation, baikouquan formation, upper permian, lower triassic, hinterland of junggar basin, Geophysics. Cosmic physics, QC801-809, Geology, QE1-996.5

Abstract

The lower play of the Junggar Basin has huge oil and gas potential, which is the most important strategic succession field for oil and gas exploration. Large-scale delta sand bodies are developed in Permian and Triassic in the four sags in the hinterland, in which new discoveries of oil and gas have been made in succession. In order to reveal the sedimentary characteristics, sedimentary model, and distribution patterns of sand bodies in the hinterland, the studies on basin prototype, sequence framework, paleogeomorphic restoration and sedimentary system were systematically carried out based on a large number of newly drilled cores, logging and geophysical data. The results show that: the development background of large depression lake basin can be identified in the development period of the Upper Permian-Lower Triassic shallow water braided river delta in the hinterland of the basin, and the study area has the characteristics of flat terrain, small slope, sufficient material supply, extremely shallow and frequently turbulent water bodies, alternating oxidation and reduction environments, and overall oxidation environment during the sedimentation period. The shallow braided river delta is characterized by coarse grain size, low impurity content, medium texture maturity, long distance transportation, strong hydrodynamic scouring, cross bedding and parallel bedding. The advantageous water system in the sedimentation period of the Upper Wuerhe and Baikouquan formations in the hinterland mainly comes from the northwest and northeast, and extends from north to south as a whole, with three provenance systems developed, namely Wuerhe provenance, Karamay provenance and Kelameily provenance. The terrain within the basin has obvious zoning characteristics, forming four facies belts namely fan delta area, braided river delta plain area, front area and lake area, thus forming a shallow water braided river delta sedimentary pattern of "large plain, small front" in the hinterland, where plain area and front area are favorable sand body development zones.

Published

2023

4. Sealing model of tight gas reservoirs in the edge of Claraton Basin: A case study from the first Member of Lower Shihezi Formation in Hangjinqi area of the northern margin of the Ordos Basin

Author

Wei Zhang, Qiang Cao, Yongchao Lu, and Liang Li

Subjects

tight sandstone gas reservoir, channel depositional model, sealing model of natural gas, first member of lower shihezi formation, hangjinqi area, ordos basin, Geology, QE1-996.5, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

Gas and water distribution of large-scaled tight sandstone gas reservoirs in the margin of typical craton basin is generally much more complicated than that in the center of the basin, and there are various types of traps, therefore, the updip sealing models of gas reservoirs is controversial.This study takes the Permian gas reservoirsof the first Member of Lower Shihezi Formation (He-1 member)in Hangjinqi area of the northern margin of the Ordos Basin as an example, and aims to investigate the differential distribution characteristics, including sandbody thickness, lithofacies association, sandbody superimposition, reservoir physical properties and transverse connectivity of typical channels in the He-1 memberat different locations. The results suggest three types of river depositional models, including shallow-water braided river model in the western gentle slope zone, alluvial fan-braided river model in the central steep slope zone, and deep-water braided river model in the eastern slope break zone. The three depositional models control the difference of channel updipsealing conditions. Based on the relationship between updip reservoir variation and trap types, three models of natural gas migration and accumulation are proposed aslithologic sealing model in the western gentle slope zone, strata coupled with lithologic sealing model in the central steep slope zone, and transitional model of lithologic sealing-trap accumulation in the eastern zone.It is concluded that the upward sealing conditions under these three migration and accumulation models constitute the boundary of the large-scaled continuous reservoir-forming area of He-1 memberin the northern margin of the Ordos Basin, and also control the distribution of different traps and gas enrichment in the Hangjinqi area.

Published

2022

5. Identification of lithofacies and prediction of mineral composition in shales – A case study of the Shahejie Formation in the Bozhong Sag

Author

Qinyu Cui, Haifeng Yang, Xinqi Li, and Yongchao Lu

Subjects

Shale lithofacies, Neural network, Mineral composition prediction, Shahejie formation, Energy conservation, TJ163.26-163.5, Renewable energy sources, TJ807-830

Abstract

The identification of shale lithofacies is the basic work of shale gas exploration and development. Accurate quantitative characterization of different mineral components in fine-grained mixed shale is of great significance for the identification and classification of lithofacies types, the enrichment conditions of shale oil and gas (hydrocarbon generation, reservoir, occurrence and preservation), and the evaluation of shale oil potential (reservoir, oil bearing, fracturability and oil mobility). When organic-rich argillaceous laminae are moderately mixed with brittle laminae, the laminated shale is not only the favorable interval of shale oil and gas enrichment for hydrocarbon generation (organic-rich argillaceous laminae) and storage (brittle laminae), but also the excellent “sweet spots” for continental shale oil and gas optimization. Different shale lithofacies have distinct rock texture, fabric and composition, leading to different brittleness and rock physical properties. For the identification of shale lithofacies containing various components, the overlaps of different wire-line logging responses and the vague boundaries between various logging data cause the large deviation in the logging prediction of lithofacies by traditional methods. In this study, shale samples from the lower part of the third member of Shahejie Formation in Bozhong Sag of the Bohai Bay Basin are selected to carry out the reservoir characterization and then the data mining of logging information by a Back Propagation (BP) neural network coupled with Atomic Search Optimization (ASO) algorithm. The BP algorithm based on the identified shale lithofacies (expected output) and logging data index (input) is used to train the neural network. The complex and unrecognized nonlinear relationship between shale lithofacies and logging data is mapped onto the high-dimensional identifiable nonlinear quantitative relationship to establish the prediction model of the relative content of clay minerals, silicate minerals and carbonate minerals. This study reveals the main lithologic characteristics of lacustrine shale lithofacies from Shahejie Formation in Bozhong Sag, and the main controlling factors for shale lithofacies prediction based on logging data. Our results show that the main mineral composition of shale lithofacies associations can be effectively predicted through the whole rock X-ray diffraction data, wire-line log data and neural network analysis, which provides the basis for lithofacies identification shale interval in well locations lacking core and test data.

Published

2022

6. Multi-factor evaluation for fine grading of tight sandstone reservoirs: a case study from H3 sand group in the upper section of Oligocene Huagang Formation, Xihu Sag, East China Sea Basin

Author

Mengtian GAO, Yongchao LU, Xuebin DU, Yiquan MA, Jingyu ZHANG, and Kong DENG

Subjects

reservoir evaluation, reservoir grading, h3 sand group, upper section of huagang formation, oligocene, xihu sag, east china sea basin, Geophysics. Cosmic physics, QC801-809, Geology, QE1-996.5

Abstract

The H3 sand group of the upper section of the Oligocene Huagang Formation in the western sub-sag of the Xihu Sag of the East China Sea Continental Shelf Basin is a tight sandstone reservoir with low porosity and low or ultra-low permeability. The distribution of high-quality reservoirs has become a key factor restricting productivity. Based on coring, well logging and physical property test data, the sedimentary microfacies and physical properties of the H3 sand group were studied, and a fine grading evaluation and "sweet spot" prediction were carried out. The reservoir distribution in the H3 sand group was mainly affected by four factors: structural characteristics, sedimentary microfacies, sand thickness and conditions of porosity and permeability. Moreover, on the basis of comprehensive analysis of the relationship among these factors and gas saturation, a four-factor reservoir fine grading evaluation method was proposed. The H3 sand group reservoirs were divided into three types: "sweet spot" reservoirs (type Ⅰ), medium reservoirs (type Ⅱ) and ineffective reservoirs (type Ⅲ).The H3-3 single sand layer has a great exploration potential, followed by the H3-1, H3-2 and H3-4 single sand layers.

Published

2021

7. Reservoir Characteristics and Their Controlling Factors in Siliceous Shales of the Upper Permian Dalong Formation, Western Hubei Province, South China

Author

Ke Duan, Tong Xie, Yi Wang, Yanlin Zhang, Wanzhong Shi, and Yongchao Lu

Subjects

rift trough, Dalong Formation, siliceous shale, reservoir characteristic, pore structure, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

To evaluate the reservoir characteristics of siliceous shale in the Dalong Formation within the late Permian intra-platform rift trough in Western Hubei (China), we studied a drill core from well ED-2 in Western Hubei. To analyze the physical characteristics, pore structure, methane adsorption performance, and their influences on the siliceous shale reservoir, we performed X-ray diffraction, total organic carbon (TOC) content, vitrinite reflectance (Ro, indicating thermal evolution), total porosity and permeability, field emission scanning electron microscopy, CO2 and N2 physical adsorption, and methane isothermal adsorption analyses, among others. Our results show that the Dalong Formation in Western Hubei is an organic-rich (2.6–14.3 wt.%), highly thermally evolved (Ro = 2.59–2.76%), siliceous shale containing mainly type-I and type-II1 organic matter. The Dalong siliceous shale has low porosity and permeability and belongs to a larger reservoir with low horizontal permeability (0.002–335.209 mD) and porosity (1.2–7.8%). Pores in the shale are mainly organic, inorganic, and microfractures; the organic pores are very developed. The pore volume and specific surface area of the shale are mainly due to micropores and mesopores and are positively correlated with TOC and clay mineral contents and weakly negatively correlated with quartz and carbonate contents. The micropores and mesopores are well developed, improving the methane adsorption capacity, which, in turn, is strongly positively correlated with TOC content. Comprehensive analysis shows that the high organic matter content of the Dalong siliceous shale has the greatest influence on its pore structure; the many organic pores generated after hydrocarbon generation have controlled the development of micropores and mesopores, which is conducive to the adsorption and storage of shale gas. The development of brittle minerals resistant to compaction, such as siliceous minerals, helps preserve organic pores. This study is informative for basin-scale petroleum system investigations, which are essential for understanding oil and gas exploration possibilities and regional petroleum systems.

Published

2023

8. Shale Oil Occurrence Mechanisms: A Comprehensive Review of the Occurrence State, Occurrence Space, and Movability of Shale Oil

Author

Yangbo Lu, Feng Yang, Ting’an Bai, Bing Han, Yongchao Lu, and Han Gao

Subjects

shale oil, occurrence space, occurrence state, movability, oil retention, Technology

Abstract

Shale oil resources are important supplements for the gradually decreasing oil production from conventional reservoirs. Although the exploitation and development of shale oil have achieved considerable progress in the last decade, the commercial extraction of hydrocarbons from shales is still difficult, especially in the lacustrine sedimentary basins of China. One of the key points controlling the successful extraction of hydrocarbons from shale systems is the understanding of the occurrence mechanism of shale oil. This study comprehensively summarizes the theories and techniques to characterize oil occurrence state, occurrence space, oil content, and oil movability in shale systems. Sophisticated instruments, such as high-resolution scanning electron microscopy and high-energy ray imaging, were utilized to qualitatively analyze the pore networks of shales. Advanced physical experiments and numerical simulation techniques, including step-by-step rock pyrolysis, solvent extraction, and NMR, were introduced to characterize shale oil adsorption and movability. By the comparative analysis of the occurrence space, it is found that the image observation technique especially focuses on concentrated pores, such as organic matter-hosted pores. The fluid injection technology yields particular pore size information, which should be calibrated using other information. The 3D digital core, demonstrating the spatial distribution of minerals and pores, is an effective input for shale oil flow simulation. Geological controls analysis about oil retention in organic-rich shales has found that the inorganic matter pores and fractures are probably the “sweet spot” of shale oil, due to the low oil adsorption and high light hydrocarbons content. Many physical experiments measure the total free oil content but neglect the hydrocarbon–rock interaction and the sequential migration of hydrocarbon compounds. Thus, micro-scaled experiments measuring the hydrocarbon adhesion forces are needed to uncover the occurrence mechanism of shale oil in the future.

Published

2022

9. Lithofacies Types, Assemblage Characteristics, and Sedimentary Evolution Model of Lacustrine Shale in Dongyuemiao Formation of Fuxing Area

Author

Yi Shu, Hanyong Bao, Youheng Zheng, Miankun Chen, Yongchao Lu, Haotian Liu, Wei Peng, Lin Zhou, Yiquan Ma, Yaru Wen, Qiming Wang, and Zhiyao Zhang

Subjects

lithofacies (assemblages), shale oil, sedimentary evolution, dongyuemiao, sichuan basin, Science

Abstract

The identification and classification of lithofacies’ types are very important activities in shale oil and gas exploration and development evaluation. There have been many studies on the classification of marine shale lithofacies, but research on lacustrine shale lithofacies is still in its infancy. Therefore, in this study, a high-resolution sequence stratigraphic framework is established for the lacustrine shale of the Jurassic Dongyuemiao Formation in the Fuxing area using detailed core observations, thin section identification, XRD analysis, major and trace element analysis, wavelet transform analysis, and detailed identification and characterization of the fossil shell layers in the formation. In addition, the lithofacies’ types and assemblages are identified and characterized, and the lithofacies’ characteristics and sedimentary evolution models in different sequence units are analyzed. The significance of the lithofacies assemblages for shale oil and gas exploration is also discussed. The results show that the shale of the target interval can be divided into 8 parasequence sets; further, 9 types of lithofacies and 6 types of lithofacies assemblages are identified. The 9 lithofacies are massive bioclast-containing limestone shoal facies (LF1), thick-layered fossil shell–containing limestone facies (LF2), layered mud-bearing fossil shell–containing limestone facies (LF3), laminated fossil shell–containing argillaceous shale facies (LF4), laminated fossil shell–bearing argillaceous shale facies (LF5), argillaceous shale facies (LF6), massive storm event–related bioclast-containing facies (LF7), massive argillaceous limestone facies (LF8), and massive mudstone facies (LF9). The sedimentary evolution models of different lithofacies are established as follows: Unit 1 (LF1-LF6) of the Dong-1 Member corresponds to the early stage of a lake transgressive system tract, and Units 2–4 (LF4-LF7) correspond to the middle to late stage of the lake transgressive system tract, which was an anoxic sedimentary environment. The Dong-2 Member (LF7-LF8) and the Dong-3 Member (LF5+LF9) correspond to a lake regressive system tract, which was an oxygen-rich sedimentary environment. Based on the characteristics of the shale lithofacies, sedimentary environment, and the quality of the reservoir, the lithofacies assemblage of LF4–LF7 in Unit 4 is the most favorable type for oil and gas exploration, followed by the lithofacies assemblage in Unit 2; the lithofacies assemblage in the Dong-2 and Dong-3 Members are the worst.

Published

2021

10. The Control of Sea Level Change over the Development of Favorable Sand Bodies in the Pinghu Formation, Xihu Sag, East China Sea Shelf Basin

Author

Zhong Chen, Wei Wei, Yongchao Lu, Jingyu Zhang, Shihui Zhang, and Si Chen

Subjects

reservoir, seismic sedimentology, river delta facies, tidal facies, lacustrine, Technology

Abstract

The Pinghu Formation consists primarily of marine-continental transitional deposits. The widely distributed fluvial and tidal transgressive sand bodies comprise the main reservoirs of the Baochu slope zone in the Xihu Sag in the East China Sea Shelf Basin. These sand bodies are deeply buried, laterally discontinuous, and are frequently interrupted by coal-bearing intervals, thereby making it extremely difficult for us to characterize their hydrocarbon potential quantitatively via seismic inversion techniques, such as multi-attribute seismic analysis and post-stack seismic inversion, hindering further hydrocarbon exploration in the Xihu Sag. Here, a prestack seismic inversion approach is applied to the regional seismic data to decipher the spatiotemporal distribution pattern of the sand bodies across the four sequences, i.e., SQ1, SQ2, SQ3, and SQ4, from bottom up, within the Pinghu Formation. In combination with detailed petrology, well log, and seismic facies analysis, the secular evolution of the sedimentary facies distribution pattern during the accumulation of the Pinghu Formation is derived from the sand body prediction results. It is concluded that the sedimentary facies and sand body distribution pattern rely on the interplay between the hydrodynamics of fluvial and tidal driving forces from the continent and open ocean, respectively. Drops in the sea level led to the gradual weakening of tidal driving forces and relative increases in riverine driving forces. The direction of the sand body distribution pattern evolves from NE–SW oriented to NW–SE oriented, and the dominant sand body changes from tidal facies to fluvial facies. In addition, the sea level drop led to the decrease in the water column salinity, redox condition, organic matter composition, and the development of coal seams, all of which directly influenced the quality of reservoir and source rocks. The sand bodies in SQ2 and SQ3 are favorable reservoirs in the Pinghu Formation due to their good reservoir properties and great thickness. The high-quality source rock in SQ1 could provide significant hydrocarbons and get preserved in the sand body within SQ2 and SQ3. This contribution provides an insight into the control of the sea level change over the development of hydrocarbon reservoirs in the petroleum system from marginal-marine environments such as the Xihu Sag.

Published

2022

11. Total hysterectomy versus uterine evacuation for preventing post-molar gestational trophoblastic neoplasia in patients who are at least 40 years old: a systematic review and meta-analysis

Author

Peng Zhao, Yongchao Lu, Wei Huang, Baoqin Tong, and Weiguo Lu

Subjects

Hydatidiform mole, Molar pregnancy, Gestational trophoblastic neoplasia, Total hysterectomy, Uterine evacuation, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background The clinical value of total hysterectomy for patients with hydatidiform mole (HM) being at least 40 years old remains highly controversial. Since the practice of hysterectomy has been applied globally for decades, there is an urgent need to perform a systematic review to assess its risks and benefits. Methods Six electronic databases, including four English databases and one Chinese database, were searched from the inception of each database till October 6th 2017. Studies were included if they: 1) were human studies, 2) explicitly indicated exposure to hysterectomy, 3) explicitly indicated control to uterine evacuation, 4) explicitly indicated the participants were older patients with HM being at least 40 years in age, 5) compared the outcome of interest as the incidence of post-molar GTN. Two authors independently conducted the literature search, study selection, data extraction. Pooled odds ratios were analyzed using Review Manager 5.3. Results The overall pooled effect size of total hysterectomy had a significant advantage in preventing post-molar gestational trophoblastic neoplasia over uterine evacuation with an OR of 0.19 (95% CI, 0.08–0.48; P = 0.0004) and a low heterogeneity (I2 = 21%, P = 0.28). Subgroup analysis and sensitivity analysis also showed similar results. Conclusions Total hysterectomy, as compared to uterine evacuation, is a better therapeutic method for patients with HM being at least 40 years old unless fertility is still desired.

Published

2019

12. Lithofacies Characteristics, Depositional Environment and Sequence Stratigraphic Framework in the Saline Lacustrine Basin-A Case Study of the Eocene Low Member of Xingouzui Formation, Jianghan Basin, China

Author

Xiaojie Fan, Yongchao Lu, Jingyu Zhang, Shiqiang Wu, Liang Zhang, Xiaojuan Du, Qinyu Cui, and Hao Wang

Subjects

sequence, lithofacies, sedimentary environment, shale oil, Jianghan Basin, Technology

Abstract

The Jianghan Basin is a lacustrine basin in central China developing multiple salt bearing deposits in the Eocene with the success of shale oil exploration in the Qianjiang Formation. The lower member of the Xingouzui Formation in the Chentuokou Depression has become another exploration target. However, rapid changes in lithofacies and strong sedimentary heterogeneity limit the exploration progress. This study aimed to explore the sequence division, lithofacies characteristics, and sedimentary environment using sedimentological, X-ray fluorescence (XRF) and X-ray diffraction (XRD) analyses. The sequence stratigraphic analysis indicates that the low member of the Xingouzui Formation is divided into two third-order sequences, namely SQ1 and SQ2, and four system tracts, including highstand systems tract (HST), lake expanding system tract (EST), early highstand system tract (EHST), and late highstand system tract (LHST). Moreover, a total of nine major lithofacies and five lithofacies associations (LA1-5) were identified. The organic geochemical data show that the laminated argillaceous dolomite in EST and EHST developed the best oil content with an average TOC of 1.18% and S1 of 3.18 mg/g, The laminated argillaceous dolomite deposited in anoxic conditions with a humid climate, moderate salinity, and stratified deep waterbody is a favorable exploration facies for shale oil.

Published

2022

13. Lithofacies distribution characteristics and its controlling factors of shale in Wufeng Formation-Member 1 of Longmaxi Formation in the Jiaoshiba area

Author

Chao Wang, Baiqiao Zhang, Yongchao Lu, Zhiguo Shu, Yaqiu Lu, Hanyong Bao, Zhiyong Meng, and Lei Chen

Subjects

Oils, fats, and waxes, TP670-699, Petroleum refining. Petroleum products, TP690-692.5

Abstract

It is essential to investigate shale lithofacies distribution and controlling factor of the shale for geological evaluation of shale gas exploration and development. Through comprehensive analysis of cores, thin sections, cathode luminescence, whole-rock X-ray diffraction, element capture spectroscopy, major/trace element and other data, three major types and eight sub-type shale lithofacies in the shale of Wufeng Formation-Member 1 of Longmaxi Formation in Jiaoshiba area are identified by the three-end-member method and shale lithological classification nomenclature, and the spatiotemporal distribution law and main development controlling factors of shale lithofacies are well studied. In the Jiaoshiba area, vertically, the marine shale develops siliceous shale, mixed shale and argillaceous shale from bottom to top. Besides, lateral distribution of the shale is different from north to south; the shale lithofacies in the north area changes rapidly, the mixed shale in the north area is much thicker than that in the south area, while the siliceous shale in the south area is relatively thicker. Difference in the shale lithofacies is controlled by special sedimentary geologic events; development of the siliceous shale is controlled by the Ordovician-Silurian global volcanic event to some extent, while the mixed shale is significantly influenced by effect of bottom current, and the argillaceous shale is mainly affected by supply of terrestrial clastic material. Keywords: Shale lithofacies, Paleoproductivity, Redox condition, Volcanic activity, Bottom current, Wufeng formation-member 1 of Longmaxi Formation, Jiaoshiba area

Published

2018

14. Effects of volcanic activities in Ordovician Wufeng–Silurian Longmaxi period on organic-rich shale in the Upper Yangtze area, South China

Author

Lanyu WU, Yongchao LU, Shu JIANG, Xiaofeng LIU, and Guisong HE

Subjects

Petroleum refining. Petroleum products, TP690-692.5

Abstract

Based on the corresponding relationship between the paleoproductivity, redox conditions and volcanism within a chronostratigraphic framework, the effects of volcanic events in the Wufeng–Longmaxi period on organic abundance of shale were examined. Bentonite layers were mostly developed in the transgressive systems tract 1 (TST1, Wufeng Formation) and transgressive systems tract 2 (TST2, Longmaxi Formation), and the two systems tracts corresponded to favorite shale lithofacies with high silica and total organic carbon (TOC) contents. According to the stratigraphic characteristics of bentonite rich interval, TST1 is classified as the interval with dense bentonite layers with the frequency of bentonite layer (bentonite layers/time) of more than 1.5 layers/Ma and the cumulative thickness ratio of bentonite layers (thickness of bentonite layers/thickness of shale) of more than 1%; TST2 is classified as the interval with sparse bentonite layers (frequency < 1.5 layers/Ma; cumulative thickness ratio < 1%). TST1 (dense interval) witnessed more intense and high-frequency volcanic activities than TST2 (sparse interval), so the TST1 has generally higher TOC than TST2. The intense and frequent volcanic activities had dual effects on organic-rich shale: on one hand, volcanic ash provided a sufficient supply of nutrients, which triggered high marine productivity; on the other hand, the extremely anoxic environment caused by volcanic activity enhanced the burial amount and preservation rate of organic matter. Key words: shale, organic abundance, volcanism, sequence stratigraphy, Ordovician Wufeng Formation, Silurian Longmaxi Formation, Upper Yangtze area, bentonite

Published

2018

15. Evidence from the Changing Carbon Isotopic of Kerogen, Oil, and Gas during Hydrous Pyrolysis from Pinghu Formation, the Xihu Sag, East China Sea Basin

Author

Qiang Cao, Jiaren Ye, Yongchao Lu, Yang Tian, Jinshui Liu, Chenjie Xu, Hanwen Yu, and Lina Sun

Subjects

coal-measure source rock, Xihu Sag, semi-open hydrous pyrolysis, carbon isotope, maturity, reaction mechanism, Technology

Abstract

Semi-open hydrous pyrolysis experiments on coal-measure source rocks in the Xihu Sag were conducted to investigate the carbon isotope evolution of kerogen, bitumen, generated expelled oil, and gases with increasing thermal maturity. Seven corresponding experiments were conducted at 335 °C, 360 °C, 400 °C, 455 °C, 480 °C, 525 °C, and 575 °C, while other experimental factors, such as the heating time and rate, lithostatic and hydrodynamic pressures, and columnar original samples were kept the same. The results show that the simulated temperatures were positive for the measured vitrinite reflectance (Ro), with a correlation coefficient (R2) of 0.9861. With increasing temperatures, lower maturity, maturity, higher maturity, and post-maturity stages occurred at simulated temperatures (Ts) of 335–360 °C, 360–400 °C, 400–480 °C, and 480–575 °C, respectively. The increasing gas hydrocarbons with increasing temperature reflected the higher gas potential. Moreover, the carbon isotopes of kerogen, bitumen, expelled oil, and gases were associated with increased temperatures; among gases, methane was the most sensitive to maturity. Ignoring the intermediate reaction process, the thermal evolution process can be summarized as kerogen0(original) + bitumen0(original)→kerogenr (residual kerogen) + expelled oil (generated) + bitumenn+r (generated + residual) + C2+(generated + residual) + CH4(generated). Among these, bitumen, expelled oil, and C2-5 acted as reactants and products, whereas kerogen and methane were the reactants and products, respectively. Furthermore, the order of the carbon isotopes during the thermal evolution process was identified as: δ13C1 < 13C2-5 < δ13Cexpelled oil < δ13Cbitumen < δ13Ckerogen. Thus, the reaction and production mechanisms of carbon isotopes can be obtained based on their changing degree and yields in kerogen, bitumen, expelled oil, and gases. Furthermore, combining the analysis of the geochemical characteristics of the Pinghu Formation coal–oil-type gas in actual strata with these pyrolysis experiments, it was identified that this area also had substantial development potential. Therefore, this study provides theoretical support and guidance for the formation mechanism and exploration of oil and gas based on changing carbon isotopes.

Published

2021

16. Advantageous shale lithofacies of Wufeng Formation-Longmaxi Formation in Fuling gas field of Sichuan Basin, SW China

Author

Lanyu WU, Dongfeng HU, Yongchao LU, Ruobing LIU, and Xiaofeng LIU

Subjects

Petroleum refining. Petroleum products, TP690-692.5

Abstract

The lithofacies types of Upper Ordovician Wufeng Formation-Lower Silurian Longmaxi Formation shale, the main producing layer in Fuling gas field, are classified in detail using the modified ternary diagram of siliceous minerals-carbonates minerals-clay minerals. There develop eight lithofacies in the Wufeng-Longmaxi shale: siliceous shale lithofacies (S), mixed siliceous shale lithofacies (S-2), clay-rich siliceous shale lithofacies (S-3), calcareous/siliceous mixed shale lithofacies (M-1), argillaceous/siliceous mixed shale lithofacies (M-2), mixed shale lithofacies (M), silica-rich argillaceous shale lithofacies (CM-1), and argillaceous/calcareous mixed shale lithofacies (M-3). The advantageous shale lithofacies is defined as lithofacies with gas content reaching a specific industrial standard. Based on the current development status of the study area, advantageous shale lithofacies is divided into two classes, namely, Class I with gas content of more than 4.0 m3/t (also known as extra superior), Class II with gas content of 2.0−4.0 m3/t (also known as superior). The correlation between the abundance of organic matter, the content of siliceous mineral, clay content and gas content has been analyzed to establish the classification criteria for advantageous shale lithofacies in the Wufeng-Longmaxi shale. The mixed siliceous shale lithofacies (S-2) and clay-rich siliceous shale lithofacies (S-3) have been identified as Class I advantageous shale lithofacies, and argillaceous/siliceous mixed shale lithofacies (M-2) as Class II. The classification criteria of advantageous shale lithofacies can provide reference for shale gas evaluation in other exploration areas Key words: shale, advantageous shale lithofacies, Ordovician Wufeng Formation, Silurian Longmaxi Formation, Fuling gas field, Sichuan Basin

Published

2016

17. Self-supervised Multi-view Clustering Framework with Graph Filtering and Contrast Fusion.

Author

Yongchao Lu, Bing Kong, Guowang Du, Chongming Bao, Lihua Zhou, and Hongmei Chen 0003

Published

2023

18. Geological Controls on Reservoir Characteristics Influencing Shale Oil Occurrence in Lacustrine Mixed Fine-Grained Sediments of the Paleogene Funing Formation, Subei Basin.

Author

Kong Deng, Yangbo Lu, Yongchao Lu, Mianmo Meng, Zhanhong Liu, Tao Zhou, Hao Tai, Xiaojie Fan, Qinyu Cui, Quan Rao, Qiyang Gou, and Feng Yang

Published

2024

19. Optimal Dose of Pituitrin in Laparoscopic Uterine Myomectomy: A Double-Blinded, Randomized Controlled Trial

Author

Chunbo Yang, Feihe Guo, Yongchao Lu, Kaihong Xu, Cuicui Jiao, Xiadi Huang, Xinzhong Chen, and Lili Xu

Subjects

030219 obstetrics & reproductive medicine, Uterine leiomyoma, business.industry, medicine.medical_treatment, Obstetrics and Gynecology, Hemodynamics, Myoma, Pituitrin, medicine.disease, Uterine myomectomy, law.invention, 03 medical and health sciences, 0302 clinical medicine, Leiomyoma, Randomized controlled trial, law, 030220 oncology & carcinogenesis, Anesthesia, Heart rate, medicine, business

Abstract

STUDY OBJECTIVE To determine the optimal effective dose of pituitrin in laparoscopic myomectomy for uterine leiomyoma. DESIGN Double-blinded, randomized controlled trial. SETTING Tertiary women's hospital in China. PATIENTS Total of 118 patients who underwent laparoscopic myomectomy. INTERVENTIONS Patients randomly received 0, 2, 4, or 6 units of pituitrin injected into the myometrium surrounding the myoma. MEASUREMENTS AND MAIN RESULTS Rate of satisfactory surgical condition, hemodynamic changes, total surgical time, and blood loss were recorded. The rates of satisfactory surgical conditions were 6.7%, 72.4%, 89.7%, and 93.3% in groups 0U, 2U, 4U, and 6U, respectively; they were higher in groups 2U, 4U, and 6U than those in group 0U, but there were no significant differences among the groups 2U, 4U, and 6U. The blood loss was higher in group 0U than that in groups 2U, 4U, and 6U (p < .01). Pituitrin was associated with a transient decrease in blood pressures and an increase in heart rate in a dose-dependent fashion, with more pronounced changes in groups 4U and 6U, and these groups also required a higher amount of vasoactive drug to correct hemodynamic changes (p < .05). CONCLUSION Two units of pituitrin could provide a satisfactory surgical field with minimal hemodynamic changes for laparoscopic uterine myomectomy.

Published

2021

20. Evaluation of the exploration prospect and risk of marine gas shale, southern China: A case study of Wufeng-Longmaxi shales in the Jiaoshiba area and Niutitang shales in the Cen’gong area

Author

Yongchao Lu, Shang Xu, Yufan Wang, Fang Hao, Yangbo Lu, Zhiguo Shu, Zhengkai Wang, and Qiyang Gou

Subjects

Southern china, Geochemistry, Geology, Oil shale

Abstract

The Wufeng-Longmaxi shales and the Niutitang shales are the most important organic-rich marine shales in southern China. To fully understand the significant difference in drilling results between the two sets of shales, the accumulation conditions of shale gas were systematically compared. The Niutitang shales have a superior material base of hydrocarbon generation for higher total organic carbon than the Wufeng-Longmaxi shales. Due to the influence of hydrothermal activities and carbonization of organic matter, however, the porosity, pore volume, pore size, and pore connectivity of Niutitang shales is obviously lower than that of Wufeng-Longmaxi shales. The natural fractures of Wufeng-Longmaxi shales are dominated by horizontal bedding fractures, and most of them are filled by calcite. By contrast, the high dip-angle fractures are more developed in the Niutitang shales. Especially, these fractures remain open in stages during the process of serious uplift and denudation movements. Thus, the seal conditions of the Niutitang shales are poor, which is further not conducive to the enrichment of shale gas. Our work also suggests that the exploration and development of highly over matured marine shales in southern China should follow the principle of “high to find low, and strong to find weak.”

Published

2021

21. Cytotoxic 4-phenylcoumarins from the flowering buds of

Author

Xiya, Chen, Zhiying, Liu, Bi, Zhong, Mengjie, Zhu, Han, Yao, Xiaojie, Chen, Yongchao, Lu, Shuyun, Wang, and Yaping, Guo

Abstract

Eleven 4-phenylcoumarins including three new 4-phenylcoumarins, mesuaferols A-C (

Published

2022

22. Sedimentary response to the early Silurian (Rhuddanian-Aeronian) post-glacial transgression and Kwangsian Orogeny in the Upper Yangtze region, South China

Author

Yangbo Lu, Yong Yue, Yongchao Lu, Shu Jiang, and Yuxuan Wang

Subjects

Paleontology, Oceanography, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes

Published

2023

23. Origin and formation model of Eocene dolomite in the upper Niubao Formation of the Lunpola Basin, Tibetan Plateau

Author

Fengcun Xing, Zhongrong Liu, Lei Pan, Shu Jiang, Huarui Hu, Yongchao Lu, and Xiaoquan Chen

Subjects

Core (optical fiber), geography, Geophysics, Plateau, geography.geographical_feature_category, Dolomite, Geochemistry, Geology, Structural basin

Abstract

Using fresh core samples, we have determined the origin and formation process of Eocene lacustrine dolomites in the Tibetan Plateau through petrological, mineralogical, and geochemical analyses. Dolomitic rocks were collected from the upper member of the Eocene Niubao Formation in the Lunpola Basin, consisting of dolomitic mudstone, argillaceous dolomite, dolomite-bearing mudstone, and mud-bearing dolomite. These dolomites are dominated by aphanotopic and microcrystalline dolomites, with minor amounts of euhedral or subhedral powder- and fine-crystalline dolomites. Carbon and oxygen stable isotopes, combined with ubiquitous gypsum in study area, indicate a semisaline continental lake under strong evaporative conditions. The revealed relatively high temperature of the dolomitization (33.8°C–119.1°C), combined with hydrothermal minerals such as cerous phosphate and barite, reflect the participation of dolomite from hot fluids. Moreover, the inferred dolomitization temperatures decrease gradually toward the center of the lake basin, suggesting the resurgence of hydrothermal fluids along a fault zone on the lake margin. This proves that frequent thermal events occurred at the boundary fault of the Lunpola Basin margin during early Himalayan orogenesis. In addition, Jurassic carbonates interacting with hydrothermal fluids, as well as strong evaporation conditions, likely provided favorable conditions for the formation of primary lime sediments. A rich source of [Formula: see text] brought by volcanic ash, hydrothermal fluids, and the Jurassic carbonates then created conditions for dolomitization during the depositional period. Strong evaporation under a relatively hot climate enhanced penecontemporaneous dolomitization, thus forming dolomite. Tibetan Plateau was under arid to semiarid climate conditions, and there was a widespread distribution of dolostones in western, central, and northern China during the Eocene period. The hydrothermal dolomites of the upper Niubao Formation testify for active hot springs, whereas lacustrine dolomite imply arid or semiarid climates during the Eocene, in the early stages of Himalayan orogenesis.

Published

2021

24. Geological Characteristics of Shale Gas in Different Strata of Marine Facies in South China

Author

Yunxiao Zhang, Guoheng Liu, Gangyi Zhai, Yongchao Lu, Yufang Wang, Wanzhong Shi, and Juan Li

Subjects

Sedimentary depositional environment, Tectonic subsidence, Facies, Ordovician, Geochemistry, General Earth and Planetary Sciences, Sedimentary rock, Oil shale, Geology, Diagenesis, Doushantuo Formation

Abstract

In the Middle and Upper Yangtze region of South China, there are well developed sets of marine shale strata. Currently only Wufeng Longmaxi shale gas has been developed in scale, while the Sinian and Cambrian shale gas are still under exploration. The various shale strata show different characteristics in lithological features, such as lithofacies types and reservoir physical properties, which are due to the influence of tectonic pattern, sedimentary environment, and diagenesis caused by tectonic subsidence. This will affect the later fracturing technology and fracturing effect. The shale reservoirs of Sinian doushantuo, Cambrian Niutitang, Upper Ordovician Wufeng, and the Lower Silurian Longmaxi Formation shale were evaluated and compared with each other with respect to their sedimentary environments, lithofacies, minerals compositions, and micro pore characteristics. The reservoir characteristics of the shale and the main control factors of shale gas enrichment were summarized in this study.

Published

2021

25. Multiple organic–inorganic interactions and influences on heterogeneous carbonate‐cementation patterns: Example from Silurian deeply buried sandstones, central Tarim Basin, north‐western China

Author

Li Peng, Benben Ma, Yongchao Lu, Xiangquan Li, Kenneth A. Eriksson, and Feng-cun Xing

Subjects

chemistry.chemical_compound, chemistry, Stratigraphy, Organic inorganic, Geochemistry, General Earth and Planetary Sciences, Carbonate, Tarim basin, Geology, Cementation (geology), China, General Environmental Science

Published

2020

26. Is volcanic ash responsible for the enrichment of organic carbon in shales? Quantitative characterization of organic-rich shale at the Ordovician-Silurian transition

Author

Fang Hao, Jixin Jia, Zhanhong Liu, Xuebin Du, Ke Zhao, and Yongchao Lu

Subjects

chemistry.chemical_classification, Total organic carbon, chemistry, Ordovician, Geochemistry, Trace element, Geology, Organic matter, Volcanism, Oil shale, Surface water, Volcanic ash

Abstract

Subaerial volcanism and atmospheric volcanic ash deposition have been recognized as factors that can greatly affect the nutrient content of the surface ocean and the redox conditions of the water column. Black siliceous, organic-rich mudstone and shale containing numerous volcanic ash layers were deposited in the South China Block during the Ordovician-Silurian transition. Although this association has been observed in other regions, whether there is a relationship between volcanic ash and the organic carbon contents and the effect of volcanic ash remains unclear. Based on analysis of the concentrations of major elements, trace elements, and total organic carbon in the volcanic ash and shale, we found that anoxic and high-productivity environments existed during the Ordovician-Silurian transition and that organic matter was preferentially preserved under these conditions. For the volcanic ash, we quantitatively estimated the depletion of the nutrient elements Fe, Si, and P (in percentages). The calculated results show that leaching removed 25–75% of the Fe, Si, and P in most of the ash samples in the study area, potentially leading to high marine primary productivity in the surface water. Redox conditions also played a major role in the preservation of organic matter. The trace element analysis results show that although productivity was high during the Ordovician-Silurian transition, organic matter was preferentially preserved in the Lower Silurian strata. Therefore, high organic matter flux and good preservation conditions both contributed to the formation of the organic-rich shale, and volcanic ash was the dominant source of nutrients for primary productivity.

Published

2020

27. Factors influencing shale gas accumulation in the lower Silurian Longmaxi formation between the north and South Jiaoshiba area, Southeast Sichuan Basin, China

Author

Yi Shu, Chao Wang, Boqiao Zhang, Yongchao Lu, and Lei Chen

Subjects

Total organic carbon, chemistry.chemical_classification, 010504 meteorology & atmospheric sciences, Shale gas, Stratigraphy, Sichuan basin, Geochemistry, Geology, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Permeability (earth sciences), Tectonics, Geophysics, chemistry, Economic Geology, Organic matter, Quartz, Oil shale, 0105 earth and related environmental sciences

Abstract

Owing to successful shale gas exploration and development, wells were drilled into the Longmaxi shale formation in the Jiaoshiba area, Southeast Sichuan Basin, China. However, shale gas production in Longmaxi varies greatly between the North and South Jiaoshiba areas. To determine the factors controlling the shale gas accumulation mechanism, the total organic carbon (TOC) content, mineralogy, porosity, permeability, total gas content, gas preservation conditions, and tectonic activities of Longmaxi Shale in both the North and South Jiaoshiba areas were studied in detail. The results show that the concentration of organic matter and minerals in the Longmaxi shale differed slightly between the South and North Jiaoshiba areas, and the lower Longmaxi Shale (Long 1 Member), which is used in commercial shale gas production, is characterized by a high quartz content and low clay content. In addition, the Longmaxi shale in the North Jiaoshiba area is characterized by high porosity and low permeability, while that in the South Jiaoshiba area has low porosity and high permeability. Two different reservoir types were identified in the Jiaoshiba area. The major storage spaces are pores in the Longmaxi shale reservoirs located in the North Jiaoshiba area, while the storage capacity of shale reservoirs in the South Jiaoshiba area is predominantly provided by fractures. Shale gas mainly exists as free gas in the Northern Jiaoshiba area due to the good gas preservation conditions. However, owing to the development of abundant faults in the South Jiaoshiba area, a large amount of free gas was lost, causing absorbed gas to dominate the shale reservoir in this area.

Published

2020

28. Lithofacies and depositional mechanisms of the Ordovician–Silurian Wufeng–Longmaxi organic-rich shales in the Upper Yangtze area, southern China

Author

Lanyu Wu, Yuxuan Wang, Shang Xu, Yangbo Lu, Detian Yan, Yongchao Lu, Zhiguo Shu, and Fang Hao

Subjects

Extinction event, Total organic carbon, Terrigenous sediment, 020209 energy, Geochemistry, Energy Engineering and Power Technology, Geology, 02 engineering and technology, Sedimentary depositional environment, Fuel Technology, Geochemistry and Petrology, Shelly limestone, 0202 electrical engineering, electronic engineering, information engineering, Earth and Planetary Sciences (miscellaneous), Ordovician, Sequence stratigraphy, Oil shale

Abstract

The Ordovician–Silurian organic-rich shales in the Wufeng and Longmaxi Formations are widespread in southern China and are the most important shale gas producers in China. The shales display varying total organic carbon content ranging from 0.2% to 6% and are composed of black siliceous mudstone, shelly limestone, siliceous clay-rich mudstone, gray silty–shaly interlaminated mudstone, gray argillaceous mudstone, and calcareous or dolomitic mudstone. Detailed stratigraphic correlation of these formations was achieved, and a high-resolution sequence stratigraphy was constructed based on the integration of well-log data, mineralogical, geochemical, and petrophysical analyses. The Wufeng Formation and the Guanyinqiao Bed were interpreted to be a condensed section with four cycles of sea-level fluctuation. The Longmaxi Formation consists of three members. The Long-1 Member was interpreted to be a third-order depositional sequence that can be subdivided into a transgressive systems tract, an early highstand systems tract, and a late highstand systems tract. Within the constructed isochronal stratigraphic framework, the characteristics and genetic mechanism of different shale lithofacies were studied. The deposition of black siliceous mudstone of high total organic carbon in the Wufeng Formation and the Long-1 transgressive systems tract was likely influenced by volcanic activity. The Guanyinqiao shelly limestone or calcareous mudstone was associated with the Ordovician–Silurian transition when glaciation and mass extinction took place. The gray silty–shaly interlaminated mudstone of moderate total organic carbon in the Long-1 early highstand systems tract was the product of bottom flow intrusion. The deposition of gray argillaceous mudstone and calcareous or dolomitic mudstone with low total organic carbon in the Long-1 late highstand systems tract resulted from enhanced terrigenous input from peripheral uplifts. The distribution pattern of different lithofacies varies greatly in the Upper Yangtze area, and this difference is a result of dissimilar sediment provenances and variable hydraulic restriction levels that were controlled by basin geometry. A better understanding of the distribution pattern and depositional history of the Wufeng and Longmaxi Formations might provide guidance for future profitable shale gas exploration.

Published

2020

29. Cytotoxic 4-phenylcoumarins from the flowering buds of Mesua ferrea

Author

Xiya Chen, Zhiying Liu, Bi Zhong, Mengjie Zhu, Han Yao, Xiaojie Chen, Yongchao Lu, Shuyun Wang, and Yaping Guo

Subjects

Organic Chemistry, Plant Science, Biochemistry, Analytical Chemistry

Abstract

Eleven 4-phenylcoumarins including three new 4-phenylcoumarins, mesuaferols A–C (1–3), together with eight known 4-phenylcoumarins (4–11) have been isolated from the flowering buds of Mesua ferrea. Their structures were elucidated via UV, IR, HR-ESI-MS, and NMR spectral data. Compound 9 showed moderate cytotoxic activity toward MDA-MB-231, MCF-7, HepG2 and HeLa cell lines with IC50 values of 13.68 ± 1.36 μM, 9.27 ± 1.84 μM, 21.06 ± 1.95 μM, and 7.26 ± 1.68 μM, respectively, and other compounds showed weak cytotoxicity.

Published

2022

30. Sedimentary Response to the Early Silurian Post-Glacial Transgression and Kwangsian Orogeny in the Upper Yangtze Region, South China

Author

Yangbo Lu, Yong Yue, Yongchao Lu, Shu Jiang, and Yuxuan Wang

Published

2022

31. Orbitally Controls of Climate Recorded in a Series of Thin-Multiple-Layers Coal Seams in Marine–Continent Transition Environment During Late Eocene

Author

Ke Zhao, Xuebin Du, Jixin Jia, Shang Yue, Xingbi Luo, Yongchao Lu, and Fang Hao

Subjects

Paleontology, Oceanography, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes

Published

2022

32. Special low-frequency shadow hidden within hydrocarbon-bearing formations: A new indicator of hydrocarbon accumulations

Author

Songlin Wu, Xiangquan Li, Shiguo Wu, Yongchao Lu, Peng Peng, Fengcun Xing, Benben Ma, and ChunMei An

Published

2023

33. East Asian lake hydrology modulated by global sea-level variations in the Eocene warmhouse

Author

Yiquan Ma, Majie Fan, Mingsong Li, James G. Ogg, Chen Zhang, Jun Feng, Chunhua Zhou, Xiaofeng Liu, Yongchao Lu, Huimin Liu, James S. Eldrett, and Chao Ma

Subjects

Geophysics, Space and Planetary Science, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous)

Published

2023

34. Seawater sources of Hg enrichment in Ordovician-Silurian boundary strata, South China

Author

Yangbo Lu, Jun Shen, Yuxuan Wang, Yongchao Lu, Thomas J. Algeo, Shu Jiang, Detian Yan, and Qiyang Gou

Subjects

Paleontology, Oceanography, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes

Published

2022

35. Evolution mechanism of Pinghu Formation coal-measure source rock from the Xihu Sag, East China Sea basin: Evidence from carbon isotopic evolution of kerogen, oil, and gas during hydrous pyrolysis

Author

Hanwen Yu, Jiaren Ye, Qiang Cao, Yongchao Lu, Lina Sun, Yang Tian, Jinshui Liu, and Chenjie Xu

Subjects

business.industry, Fossil fuel, Geochemistry, chemistry.chemical_element, chemistry.chemical_compound, Source rock, chemistry, Asphalt, Isotopes of carbon, Kerogen, Hydrous pyrolysis, Coal, business, Carbon, Geology

Abstract

Semi-open hydrous pyrolysis experiments on coal-measure source rocks in the Xihu Sag were conducted to investigate the carbon isotope evolution of kerogen, bitumen, generated expelled oil, and gase...

Published

2021

36. Productivity or preservation? The factors controlling the organic matter accumulation in the late Katian through Hirnantian Wufeng organic-rich shale, South China

Author

Yangbo Lu, Shang Xu, Shu Jiang, Yuxuan Wang, Yi Shu, and Yongchao Lu

Subjects

chemistry.chemical_classification, 010504 meteorology & atmospheric sciences, Stratigraphy, Geochemistry, Geology, Last Glacial Maximum, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Katian, Sedimentary depositional environment, Geophysics, chemistry, Productivity (ecology), Upwelling, Economic Geology, Organic matter, Deposition (chemistry), Oil shale, 0105 earth and related environmental sciences

Abstract

The Wufeng organic-rich shale is widespread in the Upper Yangtze platform, and it is one of the most advantageous shale gas producers in China. Its deposition commenced with the onset of the Boda warming event in the late Katian and terminated at the Hirnantian glacial maximum. The depositional mechanism of the Wufeng Formation was poorly understood owing to its relatively thin thickness, being interpreted as the result of organic matter (OM) accumulation in a shelf setting under anoxic conditions. This study integrated detailed geochemical analyses based on the core samples from three boreholes which are located in the outer-, middle- and inner-shelf of the Upper Yangtze platform, in order to investigate the depositional environments during the deposition of the Wufeng Formation. Geochemical redox proxies (Mo-EF, U-EF, and V/Cr) and productivity proxies (P, Baxs, Sixs) indicate that the deposition of the Wufeng Formation was associated with four intervals (WF1 to WF4), each characterized by its unique geochemical features related to sea-level fluctuations. Black siliceous mudstones deposited during WF1 and WF2 are relatively organic-lean due to low productivity, less favorable preservation conditions, and terrestrial dilution. Whereas black siliceous mudstone deposited during WF3 and WF4 is organic-rich due to high paleoproductivity and conducive preservation conditions. The geochemical proxies (Cd/Mo, Co x Mn) associated with the modern upwelling settings were replicated in the Wufeng Formation, revealing that the outer-shelf of the Upper Yangtze platform was dominated by persistent upwelling. The upwelling-driven primary productivity is considered as the first-order control for the OM enrichment at the outer-shelf of the Upper Yangtze platform. Seasonal upwelling may influence the middle-shelf of the Upper Yangtze Platform, where both primary productivity and preservation played essential roles in the OM accumulation. In contrast, the OM accumulation at the inner-shelf was fundamentally driven by good preservation conditions.

Published

2019

37. Depositional environment and organic matter enrichment of the lower Cambrian Niutitang shale in western Hubei Province, South China

Author

Yiquan Ma, Xiaofeng Liu, Gangyi Zhai, Yongchao Lu, Cong Zhang, and Yufang Wang

Subjects

chemistry.chemical_classification, 010504 meteorology & atmospheric sciences, Stratigraphy, Geochemistry, Geology, engineering.material, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Diagenesis, Sedimentary depositional environment, Petrography, Geophysics, chemistry, engineering, Economic Geology, Organic matter, Sedimentary rock, Pyrite, Clay minerals, Oil shale, 0105 earth and related environmental sciences

Abstract

It is important to consider the influences of depositional environment on lithofacies characteristics, lithofacies distribution patterns, and organic matter enrichment when defining reservoir properties and predicting “favorable reservoirs” and “sweet spots”. In this study, we examined the Niutitang shale of the early Cambrian Niutitang Formation in western Hubei Province, middle Yangtze Block, to understand how depositional environment controlled organic matter accumulation in the Niutitang shale. Through a combination of detailed sedimentologic investigations with geochemical analyses, we identified four primary lithofacies, siliceous shale, siliceous-clay mixed shale, calcareous shale, and argillaceous shale, from the Y1 drill core. The sedimentological analyses, including systematic observations of the color of fresh rocks, grain size, sedimentary textures and structures, biogenic and diagenetic (e.g., veins and pyrite) characteristics in cores and thin sections with mineralogical analyses by X-ray diffraction (XRD), and changes in geochemical proxies, including TOC (wt.%), Mo EF , U EF , Ni/Al and Zn/Al, suggest that siliceous shale and siliceous-clay mixed shale were deposited in euxinic and anoxic deep water with high surficial paleoproductivity which primarily controlled by long term global sea level changes, and that the calcareous shale and argillaceous shale were deposited in shallow and oxygen-rich water conditions with low energy and low paleoproductivity in the surface water. The Niutitang shale changed from the siliceous shale-dominated lithofacies association (LA1), to the argillaceous shale-dominated lithofacies association (LA2), and then back to the siliceous shale-dominated lithofacies association (LA1), suggesting a variation of sedimentary environment from euxinic–anoxic deep-water environment (highstand), to relatively oxic and shallow water environment (lowstand), and then back to euxinic–anoxic deep-water environment (highstand). This may reflect changes in sea level and mechanisms of organic matter enrichment during sea level highstand and lowstand. The low Mo/TOC values of the siliceous shale and siliceous-clay mixed shale lithofacies are similar to the Mo/TOC values of marine sediments in Framvaren Fjord, suggesting that the study area was located in a moderately restricted basin during deposition of the Niutitang shale. The Fe/Ti and Al/(Al + Fe) ratios and the Al–Fe–Mn diagram combined with our detailed petrographic studies and the good correlation between TOC and quartz contents are indicative of a mainly biogenic origin with a minor detrital source for the silica in the Niutitang shale. TOC is well correlated to Mo EF , U EF , Ni/Al and Zn/Al values in LA1, but it is only moderately correlated to Mo EF and U EF values and weakly correlated to Ni/Al and Zn/Al values in LA2. The correlation relationships suggest that good preservation in euxinic–anoxic water conditions and high primary paleoproductivity were the major controlling factors of organic matter enrichment, whereas organic matter accumulation during sea level lowstand was mainly controlled by water redox conditions because primary paleoproductivity remained persistently low in the more restricted basin with shallow water and limited nutrient upwelling. The correlations between TOC content and clay minerals within the different lithofacies associations suggest that adsorption of carbon components by clay minerals promoted the accumulation of organic matter to various extents in LA2 but probably did not impact organic matter enrichment in LA1.

Published

2019

38. Are light-dark coupled laminae in lacustrine shale seasonally controlled? A case study using astronomical tuning from 42.2 to 45.4 Ma in the Dongying Depression, Bohai Bay Basin, eastern China

Author

Xuebin Du, Yong Wang, Ke Zhao, Shipeng Xiong, and Yongchao Lu

Subjects

010506 paleontology, geography, geography.geographical_feature_category, Geochemistry, Paleontology, Sedimentary basin, Structural basin, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Isotopes of oxygen, Sedimentary structures, Diagenesis, chemistry.chemical_compound, chemistry, Carbonate, Oil shale, Paleogene, Ecology, Evolution, Behavior and Systematics, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

As a typical sedimentary structure in fine-grained rocks, laminae are widely distributed in shales and mudstones in sedimentary basins. The Shahejie Formation (42.2–45.4 Ma) formed during the Eocene of the Paleogene in the Dongying Depression of China is recognized as a typical area to study lacustrine shale. According to the composition of different lamina, four types of couplets are identified, including carbonate-clay couplets, carbonate-organic couplets, clay-organic couplets and carbonate-clay-organic triplets. All couplets are composed of light and dark layers. A combination of core images, microscopic observations, mineral compositions, geochemical data, carbon and oxygen isotopes, and strontium isotopes verifies that the laminae are primarily developed in a saline and anoxic, or even euxinic environment, with a high organic matter (OM) flux. Through astronomical cycle analysis of the natural gamma ray (GR) curve from sample site well NY1, the data suggest that the lacustrine shale laminae are formed annually with an average duration of 1.34 yr. The formation of laminae is affected by the season, which is closely related to the seasonal growth and death of algae. During the period of algae growth, a large number of light-colored carbonate laminae are deposited, whereas when the algae dies, organic matter accumulates at the bottom of lakes and forms dark organic-rich laminae. The interbedded and lenticular laminae, which are subdivided by layering characteristics, are primarily affected by diagenesis in postdepositional processes. Study of the laminae is helpful in understanding the formation process of lacustrine shale, and it provides invaluable sources of information for paleoclimate reconstruction.

Published

2019

39. Comparative study on the Lower Silurian Longmaxi marine shale in the Jiaoshiba shale gas field and the Pengshui area in the southeast Sichuan Basin, China

Author

Xusheng Guo, Shu Jiang, Jianqing Li, Chan Luo, Yongchao Lu, and Lei Chen

Subjects

Total organic carbon, 010504 meteorology & atmospheric sciences, Anticline, Geochemistry, Drilling, Fold (geology), 010502 geochemistry & geophysics, 01 natural sciences, Tectonics, Permeability (earth sciences), General Earth and Planetary Sciences, Quartz, Oil shale, Geology, 0105 earth and related environmental sciences, General Environmental Science

Abstract

The Jiaoshiba shale gas field and Pengshui area are both located in the southeast Sichuan Basin with only 100 km apart. Although these two areas obtained shale gas flow from the Lower Silurian Longmaxi marine shale, there is a huge difference of production in these two areas where the Jiaoshiba shale gas field is more productive than the Pengshui area. In order to figure out the reason that caused this difference, this study analyzed the Longmaxi marine shale in these two areas by using drilling cores, and mineralogical and geochemical data. The results show that the Jiaoshiba shale gas field has a higher quality shale reservoir (higher content of quartz, higher porosity, higher permeability and higher TOC (Total Organic Carbon)) in the Lower Silurian Longmaxi Formation than that of the Pengshui area. The Lower Silurian Longmaxi marine shale in the Jiaoshiba shale gas field contains a higher total gas content (3.65 m3/ton in average) than that of the Pengshui area (1.19 m3/ton in average). Through structure analysis, this study found that the Jiaoshiba shale gas field and the Pengshui area located in the different tectonic units. The Jiaoshiba shale gas filed is located in the East Sichuan fold belt (wide spaced anticlines area) at the west side of the Qiyue mountain fault where less fractures are developed and the pressure coefficient is more than 1.5, resulting in much more free gas preserved in the shale reservoirs in the Lower Silurian Longmaxi Formation (the ratio of free gas content and absorbed gas content is 1.6), while the Pengshui area is located in the Hunan-Hubei-Guizhou thrust belt area at the east side of the Qiyue mountain fault where much more fractures are developed and the pressure coefficient is less than 1.0, leading to less free gas preserved in the Longmaxi marine shale (the ratio of free gas content and absorbed gas content is 0.6), that is why the shale reservoir in the Pengshui area has a lower total gas content than that in the Jiaoshiba shale gas field.

Published

2019

40. Cyclic late Katian through Hirnantian glacioeustasy and its control of the development of the organic-rich Wufeng and Longmaxi shales, South China

Author

Yongchao Lu, Jingyu Zhang, Yangbo Lu, Shu Jiang, Yang Liu, and Chunju Huang

Subjects

010506 paleontology, Paleontology, Last Glacial Maximum, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Katian, Sedimentary depositional environment, Stage (stratigraphy), Upwelling, Thermohaline circulation, Sedimentary rock, Glacial period, Ecology, Evolution, Behavior and Systematics, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Deposition of the organic-rich shales of the Wufeng and lowermost Longmaxi formations (late Katian through Hirnantian) occurred in a relatively stable tectonic setting and commenced at approximately 4.5 Myr prior to the end-Ordovician glacial maximum. These organic-rich shales are important because they provide a continuous sedimentary record of high-frequency eustatic changes associated with ice-sheet expansion and shrinkage. Here, we carried out a high-resolution cyclostratigraphic study of Fe3+ series and associated geochemical analysis of the Wufeng and lowermost Longmaxi shales in order to better understand sea-level cyclicity in the late Katian through Hirnantian ocean. The organic-rich shales deposited during this interval in the EHD1 drill core (Yichang, China) record four major Myr-scale eustatic cycles, which were associated with third-order sea-level fluctuations. Within each of these major cycles, 3–4 minor eustatic cycles corresponding to 405-kyr long eccentricity astronomical cycles were recognized and representing fourth-order eustatic changes. The cyclostratigraphic age of this study is generally in agreement with the radiometric dates in GTS2012, although the duration of the Hirnantian stage is ~0.5 Myr longer than previously thought. This study also infers glacial controls on the depositional environment of the organic-rich shales, as enhanced cooling triggered ice-sheet expansion and concurrent sea-level fall, leading to higher thermohaline circulation intensity and enhanced paleoproductivity through upwelling and terrestrial influx. In contrast, warming intervals led to ice-sheet shrinkage and concurrent deepening characterized by water column stratification and reduced nutrient supply. The results provide evidence in support of continuous continental glaciation in the late Katian through Hirnantian.

Published

2019

41. Stable isotope record of middle Eocene summer monsoon and its instability in eastern China

Author

Xiaofeng Liu, Huimin Liu, Yiquan Ma, Yongchao Lu, Shoupeng Zhang, and Majie Fan

Subjects

Global and Planetary Change, 010504 meteorology & atmospheric sciences, δ18O, Stable isotope ratio, Dolomite, 020206 networking & telecommunications, 02 engineering and technology, Authigenic, Oceanography, Monsoon, 01 natural sciences, chemistry.chemical_compound, chemistry, Paleoclimatology, 0202 electrical engineering, electronic engineering, information engineering, Carbonate, Climate state, Geology, 0105 earth and related environmental sciences

Abstract

Recent studies based on proxy records and paleoclimate simulations have suggested monsoon climate in Asia as early as the Eocene. However, good proxy record of Eocene monsoon is rare in eastern Asia where East Asia summer monsoon prevails. Here we study middle Eocene lacustrine deposits of the Shahejie Formation in the Bohai Bay Basin in eastern China to understand middle Eocene paleoclimate and its stability. Our study integrates new δ13C and δ18O data of authigenic lacustrine carbonates, lake water salinity proxy of Mg/Ca ratio, and published carbonate minerology, chemical weathering proxy data of CIA* and Ln(Al2O3/Na2O), and lithofacies interpretations from two cores to provide new understanding of paleoclimate elements. Our results show that in most part of the record, the authigenic calcite δ18O values in laminated mudstone-dominated lithofacies display frequent variations, up to 2.9‰, while Mg/Ca ratio and dolomite content remain low and nearly stable. These features suggest frequent variations of lake water level driven by changes in runoff amount because of changing intensity of summer monsoonal precipitation during the middle Eocene. The comparison of stable isotope variation with modern precipitation stable isotope record in the study area and seasonal precipitation of the laminated lithofacies both support the interpretation of seasonal climate. We interpret that the lake water and carbonate δ18O values decreased when the East Asia summer monsoon was strong and increased when the monsoon was weak. During two periods of the studied middle Eocene interval, the lake water experienced periodic intense evaporation, causing high Mg/Ca ratios and dolomite content, and high authigenic dolomite δ18O values up to 0‰. These periodic drying events likely reflect millennial-scale droughts that are common today to the East Asia summer monsoon because of warming in the Indo-Pacific Warm Pool. We infer that the frequent droughts in the two periods of the middle Eocene were resulted from very warm climate during the two periods. We conclude that the East Asia summer monsoon existed in eastern China during the middle Eocene, and the climate state was not stable.

Published

2019

42. Geochemical and petrographic characteristics of Wufeng-Longmaxi shales, Jiaoshiba area, southwest China: Implications for organic matter differential accumulation

Author

Zhiguo Shu, Yangbo Lu, DetianYan, Yongchao Lu, Yuxuan Wang, Shang Xu, and Fang Hao

Subjects

chemistry.chemical_classification, 010504 meteorology & atmospheric sciences, Terrigenous sediment, Stratigraphy, Geochemistry, Geology, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Petrography, Geophysics, Tectonic uplift, Source rock, chemistry, Economic Geology, Organic matter, Sequence stratigraphy, Sedimentary rock, 0105 earth and related environmental sciences, Marine transgression

Abstract

The organic matter-rich shales in Wufeng-Longmaxi Formation have been considered to be a high-quality source rock and a main shale-gas producer in southern China. As the material basis of shale gas, the organic matter content in shales exhibits a notable vertical difference in the Jiaoshiba area of Fulin shale gas field. This study integrated detailed geochemical analysis and sedimentary observations to investigate organic matter enrichment and depletion mechanism. Three intervals are identified by organic matter contents and their according variations. Six major lithofacies are identified based on mineral composition X-ray diffraction (XRD) analyses, microscopic observations and Focused Ion Beam-Scanning Electron Microscopy (FIB-SEM) data. Geochemical redox proxies (Mo-EF, U-EF, V/Cr and Corg/P) indicate that organic matter-rich shales of Wufeng and bottom Longmaxi formation are deposited in anoxic conditions, whereas organic matter-lean shales of the middle to top Longmaxi formation are deposited in oxic environment. This pattern is influenced by both worldwide marine transgression and regional tectonic movement. The productivity proxies (P/Al, Cu/Al, Ni/Al, SiO2-bio) indicate that the organic matter-rich Wufeng-Longmaxi shales were deposited under moderate to high surficial primary productivity. Increasing terrigenous influxes dominated organic matter dilution and may have been promoted by regional tectonic uplift. The organic matter enrichment or depletion mechanisms in each unit are controlled by different geological events. Enrichment was controlled by multiple reasons, including both global and regional factors, whereas depletion was mainly dominated by regional tectonic uplift. Additionally, the sequence stratigraphic boundaries coincide with organic matter shifting interfaces, indicating that high-resolution sequence stratigraphy of fine-grained sediments may have a certain effect on optimal reservoir predication. Conversely, boundaries of TOC and geochemical proxies may also help to subdivide sequence boundaries.

Published

2019

43. Relationship between the origin of organic-rich shale and geological events of the Upper Ordovician-Lower Silurian in the Upper Yangtze area

Author

Xiaofeng Liu, Zhanhong Liu, Yongchao Lu, Lanyu Wu, Yangbo Lu, and Shu Jiang

Subjects

010504 meteorology & atmospheric sciences, Terrigenous sediment, Stratigraphy, Geochemistry, Geology, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Sedimentary depositional environment, Geophysics, Stage (stratigraphy), Shelly limestone, Ordovician, Economic Geology, Transgressive, Oil shale, 0105 earth and related environmental sciences, Volcanic ash

Abstract

Based on detailed sedimentological observations and geochemical analyses, four geological events have been identified, and a genetic depositional model has been established within a sequence stratigraphic framework. The organic-rich siliceous shale interbedded with dense bentonite layers in the transgressive systems tract 1 (TST 1) is attributed to the first stage of high-frequency volcanism (which started at ∼447.62 Ma) associated with the collision of the Cathaysia and Yangtze Blocks. The presence of the organic-fair lime mudstone/shelly limestone indicates that Hirnantian Glaciation in the highstand systems tract (HST). The occurrence of organic-rich siliceous shale interbedded with scarce bentonite layers in the transgressive systems tract 2 (TST 2) is attributable to the second stage of low-frequency volcanism (which started at ∼443.83 Ma) and to postglacial effects. The formation of organic-fair mixed shale with silty laminae is attributed to bottom-current activity in the early highstand systems tract (EHST). The occurrence of organic-poor clay-rich shale is due to terrigenous input in the late highstand systems tract (LHST). Our research also shows that the high marine productivity caused by volcanic ash and a high burial rate in an anoxic depositional setting led to organic matter and siliceous mineral enrichment in the TST 1 and TST 2. The favorable organic matter preservation conditions and the postglacial biotic recovery played significant roles in the formation of the organic-rich shale in the TST 2.

Published

2019

44. Sedimentary lithofacies characteristics and sweet-spot interval characterization of the Sinian Doushantuo Formation in Upper Yangtze Platform, South China

Author

Unconventional Oil, Gang-yi Zhai, Juan Li, Yi-quan Ma, Guo-heng Liu, Yongchao Lu, and Yu-fang Wang

Subjects

Outcrop, Geochemistry, Paleontology, Geology, Mud logging, engineering.material, Geotechnical Engineering and Engineering Geology, Oceanography, Doushantuo Formation, Sedimentary depositional environment, Geochemistry and Petrology, engineering, Economic Geology, Sedimentary rock, Pyrite, Computers in Earth Sciences, Quartz, Oil shale, Earth-Surface Processes

Abstract

The Sinian Doushantuo Formation is the oldest shale gas reservoir discovered in the world, which contains good shale gas shows as the Eyangye-1 and Zidi-1 wells in the Yichang Region of western Hubei province, China. The shales in the Doushantuo Formation feature considerable thickness (135 m), high gas content (4.83 m3/t) and high fragile mineral content (up to 75%). Due to the influences of the sedimentary environment, the shale reservoirs here have high dolomitic content (54%) and abruptly changes in vertical lithofacies. Moreover, the characteristics of the shale sweet-spot differ significantly from that in the Wufeng Formation and Longmaxi Formation in southeast Sichuan Basin. A high-resolution sequence stratigraphic correlation was performed on the shales of the Doushantuo Formation at the Eyangye-1 well, Zidi-1 well, Zidi-2 well and some outcrop profiles in Yichang area for the identification of their sedimentary microfacies characteristics. A comprehensive comparative analysis was made by incorporating the elemental geochemistry, wireline and mud logging data of the well to further identify the sweet-spot interval therein. With the analysis of Eyangye-1 well, the sweet-spot interval of the Doushantuo Formation is 3360−3408 m, of which sedimentary microfacies is deepwater reduced environment with many pyrite laminaes, and the TOC is high to 3.42%, the Ro is 3.3%, the organic and matrix pore are well developed and the aperture more than 50 nm, the porosity is 2.7%, the desorption gas content average is 2.16%, and the main mineral is dolomitic (54%) and siliceous quartz (21%). Additionally, these parameters combined with previous studies will shed light on evaluating and characterizing the layers therein, also provide referential geological data for the following exploration and development activities of this shale system.

Published

2019

45. High-resolution astrochronological record for the Paleocene-Oligocene (66–23 Ma) from the rapidly subsiding Bohai Bay Basin, northeastern China

Author

Laiyuan Guo, Zhanhong Liu, Li Peng, Huimin Liu, Yunqing Hao, Yongchao Lu, Thomas J. Algeo, Xuebin Du, Ping Chen, and Chunju Huang

Subjects

Rift, 010504 meteorology & atmospheric sciences, Subduction, Pacific Plate, Paleontology, Structural basin, 010502 geochemistry & geophysics, Oceanography, Neogene, 01 natural sciences, Geologic time scale, Paleoclimatology, Paleogene, Ecology, Evolution, Behavior and Systematics, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The Paleogene succession of the Bohai Bay Basin (BBB), a highly productive petroleum basin in northeastern China with predominantly lacustrine fill, is poorly dated at present. Here, we generated an internal astronomical time scale (ATS) for the Paleogene strata of the Bohai Bay Basin (Dongying Depression, Jiyang Subbasin) using multitaper method (MTM) spectral analysis of high-resolution gamma ray logs. This ATS, which extends from 66 to 23 Ma, is anchored to the standard geologic time scale by calibration to the Paleogene/Neogene boundary (23.03 Ma) at the top of Dongying Formation. Based on this ATS, we recalibrated the ages of biozones, rifting episodes, and paleoclimate stages within the BBB. The recalibrated ages of rifting episodes and related fluctuations in sedimentation rates exhibit a close relationship to secular variation in production rates of Pacific oceanic plateaus and spreading rates of the Southeast Indian Ridge, confirming that the subsidence history of the BBB was significantly influenced by subduction of the Pacific Plate along the eastern margin of Asia and by collision of the Indian and Eurasian plates. Age recalibration also facilitated re-evaluation of the relationship of sedimentation in the Bohai Bay Basin to the Paleogene climate history of East Asia, e.g., confirming a cooling and drying trend throughout the Eocene.

Published

2018

46. Lithofacies distribution characteristics and its controlling factors of shale in Wufeng Formation-Member 1 of Longmaxi Formation in the Jiaoshiba area

Author

Hanyong Bao, Chao Wang, Lu Yaqiu, Zhang Baiqiao, Yongchao Lu, Lei Chen, Zhiguo Shu, and Zhiyong Meng

Subjects

geography, geography.geographical_feature_category, Shale gas, 020209 energy, Trace element, Geochemistry, Energy Engineering and Power Technology, lcsh:TP670-699, Geology, Distribution law, 02 engineering and technology, Volcano, Geochemistry and Petrology, lcsh:TP690-692.5, Clastic rock, 0202 electrical engineering, electronic engineering, information engineering, Sedimentary rock, lcsh:Oils, fats, and waxes, lcsh:Petroleum refining. Petroleum products, Oil shale

Abstract

It is essential to investigate shale lithofacies distribution and controlling factor of the shale for geological evaluation of shale gas exploration and development. Through comprehensive analysis of cores, thin sections, cathode luminescence, whole-rock X-ray diffraction, element capture spectroscopy, major/trace element and other data, three major types and eight sub-type shale lithofacies in the shale of Wufeng Formation-Member 1 of Longmaxi Formation in Jiaoshiba area are identified by the three-end-member method and shale lithological classification nomenclature, and the spatiotemporal distribution law and main development controlling factors of shale lithofacies are well studied. In the Jiaoshiba area, vertically, the marine shale develops siliceous shale, mixed shale and argillaceous shale from bottom to top. Besides, lateral distribution of the shale is different from north to south; the shale lithofacies in the north area changes rapidly, the mixed shale in the north area is much thicker than that in the south area, while the siliceous shale in the south area is relatively thicker. Difference in the shale lithofacies is controlled by special sedimentary geologic events; development of the siliceous shale is controlled by the Ordovician-Silurian global volcanic event to some extent, while the mixed shale is significantly influenced by effect of bottom current, and the argillaceous shale is mainly affected by supply of terrestrial clastic material. Keywords: Shale lithofacies, Paleoproductivity, Redox condition, Volcanic activity, Bottom current, Wufeng formation-member 1 of Longmaxi Formation, Jiaoshiba area

Published

2018

47. Sedimentology and lithofacies of lacustrine shale: A case study from the Dongpu sag, Bohai Bay Basin, Eastern China

Author

Wang Hua, Jinchuan Zhang, Yongchao Lu, Jiaheng Yue, and Chuanyan Huang

Subjects

Evaporite, Lithology, 020209 energy, Geochemistry, Energy Engineering and Power Technology, 02 engineering and technology, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Sedimentary structures, Sedimentary depositional environment, Fuel Technology, 0202 electrical engineering, electronic engineering, information engineering, Sedimentary rock, Sedimentology, Siltstone, Oil shale, Geology, 0105 earth and related environmental sciences

Abstract

This paper analyzes the sedimentology and lithofacies of the lacustrine shale from the third member of the Eocene Shahejie Formation (Es3) in the Dongpu sag, Bohai bay basin, eastern China. The results show that lacustrine shale is heterogeneous in its sedimentary structure, lithology, mineralogy, lithofacies, and oil content. From the margin of the lake to its center, the depositional environment progresses from delta front to prodelta to deep water lake, and the primary sedimentary lithologies changes from interbedded mudstone and sandstone to mudstone with siltstone to mudstone with evaporite and carbonate rocks. The major deep water deposits are laminated shales. From the lake margin to the center, felsic mineral content decreases gradually, and clay mineral and pyrite content increases gradually. Felsic mineral content is the highest in the delta front shale, and clay mineral and pyrite content is highest in the deep water lake. Shale lithofacies also change with the depositional environment. The lithofacies of the delta front shale are primarily felsic-rich lithofacies: clay-rich carbonate-poor felsic shale (S-4) and a clay-rich, carbonate-poor felsic-rich mixed shale (MS-2). The lithofacies of the prodelta shale are primarily a carbonate-poor felsic-rich muddy shale (M-2), S-4, and MS-2. The lithofacies of deep water lake shales are primarily clay mineral-rich lithofacies: M-2, MS-2, and the clay-rich, carbonate-rich, felsic-rich mixed shale (MS-3). The TOC and the types of organic matter also change with the depositional environment in the Dongpu sag. The results of this study show the sedimentary structures, lithology, mineral content, lithofacies, and spatial distribution of the lacustrine shale was not only controlled by the macro depositional environment and the local depositional environment, but also controlled by the source and transport (or the sediment transport path), water depth, and accommodation space.

Published

2018

48. Identifying marine incursions into the Paleogene Bohai Bay Basin lake system in northeastern China

Author

Li Peng, Huiming Liu, Jingyu Zhang, Lin Chen, Yangbo Lu, Yongchao Lu, Shoupeng Zhang, Wei Wei, and Thomas J. Algeo

Subjects

010504 meteorology & atmospheric sciences, Stratigraphy, Fluvial, Geology, Structural basin, engineering.material, 010502 geochemistry & geophysics, 01 natural sciences, Deposition (geology), Paleontology, Fuel Technology, Facies, engineering, Paleosalinity, Economic Geology, Siliciclastic, Paleogene, Glauconite, 0105 earth and related environmental sciences

Abstract

The extent of marine influence on the Paleogene Bohai Bay Basin in northeastern China, which accumulated mainly continental (e.g., fluvial and lacustrine) facies, remains under debate. Evidence from geochemical, paleontological, and lithological data have documented several marine incursions, but no systematic study has been conducted to investigate their timing and frequency and their significance for understanding the Paleogene tectonic evolution of northeastern China. In order to address the marine influence on sediment accumulation and to identify variations in paleosalinity during deposition of the mid-Eocene lower Es3 (Es3L) Member of the Shahejie Formation, this study analyzed multiple paleosalinity proxies (B/Ga, Sr/Ba, and S/TOC) in fine-grained siliciclastic (argillaceous) sediments of the Luo-69 drillcore from the Dongying Depression. All three proxies yielded similar paleosalinity interpretations, with peak salinity and marine influence (i.e., maximum B/Ga, Sr/Ba, and S/TOC values) occurring at the base of the Es3L Member, and progressively declining salinities, representing a shift toward brackish conditions, upsection over an interval of 185.5 m representing ~2.2 Myr of sedimentation. This paleosalinity record suggests gradual long-term variations that were probably due to changes in tectonically controlled gateways linking the Bohai Bay Basin to the Yellow Sea. In addition to analysis of the mid-Eocene Es3L Member, published data on the stratigraphic distribution of marine fossils, glauconite, and elemental paleosalinity proxies are applied to evaluate the history of marine incursions into the Bohai Bay lake system throughout the mid to late Paleogene (~50–24 Ma). This analysis revealed four intervals of probable major marine incursions dating to the early Eocene, the middle Eocene, the early Oligocene, and the late Oligocene.

Published

2018

49. Sources of K-bentonites across the Ordovician-Silurian transition in South China: Implications for tectonic activities on the northern and southern margins of the South China Block

Author

Jixin Jia, Xuebin Du, Ke Zhao, Yongchao Lu, and Chao Tan

Subjects

Geophysics, Stratigraphy, Economic Geology, Geology, Oceanography

Published

2022

50. Origin of authigenic kaolinite with implications for Permian tight gas sandstone reservoirs in the northern Ordos Basin, central China

Author

Jiachen Gao, Benben Ma, Yongchao Lu, Wei Zhang, and Qiang Cao

Subjects

Fuel Technology, Energy Engineering and Power Technology, Geotechnical Engineering and Engineering Geology

Published

2022