Discovery of oil bitumen co-existing with solid bitumen in the Lower Cambrian Longwangmiao giant gas reservoir, Sichuan Basin, southwestern China: Implications for hydrocarbon accumulation process
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[1] Wei Wu,et al. Further discussion about the origin of natural gas in the Sinian of central Sichuan paleo-uplift,Sichuan Basin,China , 2016 .
[2] D. Karlsen,et al. ORGANIC GEOCHEMISTRY OF BARENTS SEA PETROLEUM: THERMAL MATURITY AND ALTERATION AND MIXING PROCESSES IN OILS AND CONDENSATES , 2016 .
[3] W. Xie,et al. Features and origin of natural gas in the Sinian–Cambrian of central Sichuan paleo-uplift, Sichuan Basin, SW China , 2015 .
[4] Jinliang Huang,et al. The characteristics and significance of conventional and unconventional Sinian–Silurian gas systems in the Sichuan Basin, central China , 2015 .
[5] Jian Cao,et al. Source characterization of highly mature pyrobitumens using trace and rare earth element geochemistry: Sinian–Paleozoic paleo-oil reservoirs in South China , 2015 .
[6] Longfei Lu,et al. Marine hydrocarbon source rocks of the Upper Permian Longtan Formation and their contribution to gas accumulation in the northeastern Sichuan Basin, southwest China , 2014 .
[7] Chun Yang,et al. Geochemistry of the Sinian–Cambrian gas system in the Sichuan Basin, China , 2014 .
[8] C. Zou,et al. Formation, distribution, resource potential, and discovery of Sinian–Cambrian giant gas field, Sichuan Basin, SW China , 2014 .
[9] Weihua Lu,et al. Paleo-geomorphology formed during Tongwan tectonization in Sichuan Basin and its significance for hydrocarbon accumulation , 2014 .
[10] A. Gleadow,et al. Thermal history of the Krishna–Godavari basin, India: Constraints from apatite fission track thermochronology and organic maturity data , 2013 .
[11] W. Xie,et al. Formation conditions and exploration prospects of Sinian large gas fields, Sichuan Basin , 2013 .
[12] S. Bhattacharya,et al. Biomarker signatures from Neoproterozoic–Early Cambrian oil, western India , 2013 .
[13] J. Kirschvink,et al. Constraints on Neoproterozoic paleogeography and Paleozoic orogenesis from paleomagnetic records of the Bitter Springs Formation, Amadeus Basin, central Australia , 2012, American Journal of Science.
[14] J. Zumberge,et al. Middle and Upper Jurassic hydrocarbon potential of the Zagross Fold Belt, North Iraq , 2012 .
[15] W. Xie,et al. Tectonic evolution of the Leshan-Longnüsi paleo-uplift and its control on gas accumulation in the Sinian strata , 2012 .
[16] D. Karlsen,et al. Present Jurassic petroleum charge facing Paleozoic biodegraded oil: Geochemical challenges and potential upsides, Embla field, North Sea , 2012 .
[17] Jianguo Du,et al. Effects of high pressure and temperature on carbon isotope compositions of some acyclic alkanes and preservation of organic matter , 2012 .
[18] C. Edgoose. The Amadeus Basin, Central Australia , 2012 .
[19] Wei Li,et al. Depositional systems and evolution of the Upper Carboniferous Huanglong Formation in the eastern Sichuan Basin , 2011 .
[20] Yongchun Tang,et al. Fundamental studies on kinetic isotope effect (KIE) of hydrogen isotope fractionation in natural gas systems , 2011 .
[21] D. Scrocca,et al. Thermal and tectonic evolution of the southern Alps (northern Italy) rifting: Coupled organic matter maturity analysis and thermokinematic modeling , 2010 .
[22] Jianguo Wang,et al. Geochemical changes across the Ordovician-Silurian transition on the Yangtze Platform, South China , 2009 .
[23] N. Torto,et al. Determination of rare earth elements in Niger Delta crude oils by inductively coupled plasma-mass spectrometry , 2008 .
[24] J. Llamas,et al. V/Ni ratio as a parameter in palaeoenvironmental characterisation of nonmature medium-crude oils from several Latin American basins , 2008 .
[25] T. R. Ajayi,et al. Organic and inorganic geochemistry of northwestern Niger Delta oils , 2007 .
[26] J. Lie,et al. Lower Paleozoic petroleum from southern Scandinavia: Implications to a Paleozoic petroleum system offshore southern Norway , 2007 .
[27] Shuichang Zhang,et al. The genesis of H2S in the Weiyuan Gas Field, Sichuan Basin and its evidence , 2007 .
[28] L. Schwark,et al. Sterane biomarkers as indicators of palaeozoic algal evolution and extinction events , 2006 .
[29] D. Karlsen,et al. PETROLEUM MIGRATION, FAULTS AND OVERPRESSURE, PART I: CALIBRATING BASIN MODELLING USING PETROLEUM IN TRAPS — A REVIEW , 2006 .
[30] Y. Huang,et al. A kinetic model for thermally induced hydrogen and carbon isotope fractionation of individual n-alkanes in crude oil , 2005 .
[31] C. Walters,et al. The Biomarker Guide , 2004 .
[32] M. Quinby-Hunt,et al. Organic carbon proxies in black shales: molybdenum , 2004 .
[33] L. López,et al. Geochemical implications of trace elements and sulfur in the saturate, aromatic and resin fractions of crude oil from the Mara and Mara Oeste fields, Venezuela , 2004 .
[34] L. Mazéas,et al. Molecular and stable carbon isotopic source identification of oil residues and oiled bird feathers sampled along the Atlantic Coast of France after the Erika oil spill. , 2002, Environmental science & technology.
[35] J. K. Perry,et al. Mathematical modeling of stable carbon isotope ratios in natural gases † † We dedicate this paper to Bill Sackett on the occasion of his 70th birthday. , 2000 .
[36] G. Eglinton,et al. An n-alkane proxy for the sedimentary input of submerged/floating freshwater aquatic macrophytes , 2000 .
[37] M. Alberdi-Genolet,et al. Trace metals and organic geochemistry of the Machiques Member (Aptian-Albian) and La Luna Formation (Cenomanian-Campanian), Venezuela , 1999 .
[38] S. M. Barrett,et al. Eustigmatophyte microalgae are potential sources of C29 sterols, C22-C28 n-alcohols and C28-C32 n-alkyl diols in freshwater environments , 1999 .
[39] M. Whiticar. Stable isotope geochemistry of coals, humic kerogens and related natural gases , 1996 .
[40] M. Quinby-Hunt,et al. Chemical depositional environments of calcic marine black shales , 1996 .
[41] G. Claypool,et al. Modeling thermogenic gas generation using carbon isotope ratios of natural gas hydrocarbons , 1995 .
[42] R. Sassen,et al. Products and distinguishing criteria of bacterial and thermochemical sulfate reduction , 1995 .
[43] D. Manning,et al. Comparison of geochemical indices used for the interpretation of palaeoredox conditions in ancient mudstones , 1994 .
[44] G. Ulmishek,et al. Effective Petroleum Source Rocks of the World: Stratigraphic Distribution and Controlling Depositional Factors , 1992 .
[45] J. Leventhal,et al. Relationship between inferred redox potential of the depositional environment and geochemistry of the Upper Pennsylvanian (Missourian) Stark Shale Member of the Dennis Limestone, Wabaunsee County, Kansas, U.S.A. , 1992 .
[46] C. Clayton. Carbon isotope fractionation during natural gas generation from kerogen , 1991 .
[47] P. Ungerer,et al. THERMAL EVOLUTION OF CRUDE OILS IN SEDIMENTARY BASINS : EXPERIMENTAL SIMULATION IN A CONFINED SYSTEM AND KINETIC MODELING , 1991 .
[48] A. Barwise. Role of nickel and vanadium in petroleum classification , 1990 .
[49] D. Welte,et al. Petroleum Formation and Occurrence , 1989 .
[50] Ė. Galimov. Sources and mechanisms of formation of gaseous hydrocarbons in sedimentary rocks , 1988 .
[51] E. J. Ebukanson,et al. MATURITY OF ORGANIC MAITER IN THE JURASSIC OF SOUTHERN ENGLAND AND ITS RELATION TO THE BURIAL HISTORY OF THE SEDIMENTS , 1986 .
[52] A. Hirner. Metals in crude oils, asphaltenes, bitumen, and kerogen - Molasse Basin, Southern Germany , 1986 .
[53] E. J. Gallegos,et al. Relationship Between Petroleum Composition and Depositional Environment of Petroleum Source Rocks , 1985 .
[54] M. Lewan. Factors controlling the proportionality of vanadium to nickel in crude oils , 1984 .
[55] E. Faber,et al. Geochemical Surface Exploration for Hydrocarbons in North Sea , 1984 .
[56] Martin Schoell,et al. Genetic Characterization of Natural Gases , 1983 .
[57] W. Meinschein,et al. Sterols as ecological indicators , 1979 .
[58] J. Brooks,et al. Light hydrocarbons in recent Texas continental shelf and slope sediments , 1978 .
[59] William C. Gussow,et al. Migration of Reservoir Fluids , 1968 .
[60] L. Rayleigh,et al. L. Theoretical considerations respecting the separation of gases by diffusion and similar processes , 1896 .
[61] O. Fadipe,et al. Trace element geochemistry of crude oils and condensates from South African Basins , 2015 .
[62] Li Juan. Depositional Setting and Tectonic Background Analysis on Lower Cambrian Black Shales in the North of Guizhou Province , 2013 .
[63] Zheng Jian-feng. Main Controlling Factors and Characteristics of Cambrian Dolomite Reservoirs Related to Evaporite in Tarim Basin , 2013 .
[64] Liao Jing. Biomarker characteristics of source rock and bitumen and oil-source correlation of paleo-reservoir in northeastern Sichuan , 2013 .
[65] Sinopec Petroleum. Types and hydrocarbon generation potential of the Permian source rocks in the Sichuan Basin , 2012 .
[66] Zhu Dongya. Deep Cambrian Surface-karst Dolomite Reservoir and Its Alteration by Later Fluid in Tarim Basin , 2012 .
[67] Cnpc Chuanqing. Characteristics of Silurian Paleo-oil reservoirs and their significance for petroleum exploration on the southeast margin of Sichuan Basin , 2012 .
[68] H. Keyou. On Meso-Neoproterozoic primary petroleum resources , 2011 .
[69] T. Judd,et al. Hydraulic Fracturing:Key to Effective Khazzan-Makarem Tight Gas Appraisal , 2011 .
[70] Hu Wen-ming. Characteristics of gas formatted from Sinian to Lower Paleozoic in Weiyuan area of Sichuan Basin,China , 2010 .
[71] J. Strutt. Scientific Papers: Theoretical Considerations respecting the Separation of Gases by Diffusion and Similar Processes , 2009 .
[72] Li Hong-wei. Geochemical evidence of shale gas existed in the Lower Paleozoic Sichuan basin , 2009 .
[73] Cheng Ke-ming,et al. Prospects and strategic position of shale gas resources in China , 2009 .
[74] Li Xin-jing. Accumulation conditions of shale gas reservoirs in the Lower Cambrian Qiongzhusi formation,the Upper Yangtze region , 2009 .
[75] S. Ping. DISCOVERY OF OOLITIC SHOAL RESERVOIRS IN FEIXIANGUAN FORMATION AND THE CHARACTERISTICS AT NORTHWEST SICHUAN , 2007 .
[76] Hu Shou-zhi. BITUMEN-SEALED BELT IN RESERVOIRS AND ITS IMPLICATION TO PETROLEUM EXPLORATION , 2007 .
[77] Z. Guangyou. The characteristics of natural gas in Sichuan basin and its sources. , 2006 .
[78] H. Bin,et al. Nature of the Dongwu Movement and Its Temporal and Spatial Evolution , 2005 .
[79] Dai Jin-xing. POOL-FORMING PERIODS AND GAS SOURCES OF WEIYUAN GASFIELD , 2003 .
[80] Tong Chong. RELATIONSHIP BETWEEN NEOTECTONIC MOVEMENT AND STRUCTURAL EVOLUTION AND GAS POOLS FORMATION OF SICHUAN BASIN , 2000 .
[81] Li Hong-liang. THE HYDROCARBON SOURCE CONDITION OF SINIAN SYSTEM OF THE CALEDONIAN PALAEO-UPLIFT , 2000 .
[82] L. López,et al. Use of molecular parameters and trace elements in oil-oil correlation studies, Barinas sub-basin, Venezuela , 1998 .
[83] R. Filby,et al. Determination of trace elements in petroleum exploration samples by inductively coupled plasma mass spectrometry and instrumental neutron activation analysis , 1995 .
[84] D. Karlsen,et al. Petroleum geochemistry of the Haltenbanken, Norwegian continental shelf , 1995, Geological Society, London, Special Publications.
[85] R. Filby. Origin and nature of trace element species in crude oils, bitumens and kerogens: implications for correlation and other geochemical studies , 1994, Geological Society, London, Special Publications.
[86] Magoon. The petroleum system , 1989 .
[87] J. Moldowan,et al. The effect of biodegradation on steranes and terpanes in crude oils , 1979 .
[88] C. Barker. Organic geochemistry in petroleum exploration , 1979 .
[89] W. Stahl. Carbon and nitrogen isotopes in hydrocarbon research and exploration , 1977 .
[90] P. Cranwell. Organic geochemistry of Cam Loch (Sutherland) sediments , 1977 .
[91] J. Hoefs. Stable Isotope Geochemistry , 1973 .
[92] S. Silverman. Migration and Segregation of Oil and Gas: ABSTRACT , 1963 .
[93] G. B. Jerrard. LXXVIII. On a method of transforming equations by means of symmetric functions , 1853 .