Xinjiang Petroleum Geology ›› 2011, Vol. 32 ›› Issue (6): 686-689.
Previous Articles Next Articles
FAN Fu1,2, CAI Jin-gong2, ZHANG Yong-sheng1, CUI Hai-na3
Received:
2011-01-13
Online:
2011-12-01
Published:
2020-08-20
CLC Number:
FAN Fu, CAI Jin-gong, ZHANG Yong-sheng, CUI Hai-na. A Review of Studies on Organic Matter Preservation in Muddy Source Rocks[J]. Xinjiang Petroleum Geology, 2011, 32(6): 686-689.
Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks
[1] 王铁冠,钟宁宁,侯读杰. 低熟油气形成机理与分布[M].北京:石油工业出版社,1995. [2] Marc Pansu, Jacques Gautheyrou.Handbook of soil analysis———mineralogical , organic and inorganic methods[M]. Springer, 2006:289-322. [3] 蔡进功,包于进,杨守业,等. 泥质沉积物和泥岩中有机质的赋存形式与富集机制[J]. 中国科学(D 辑),2007,37(2):234-243. [4] 王行信,蔡进功,包于进. 黏土矿物对有机质生烃的催化作用[J]. 海相油气地质,2006,11(3):27-38. [5] 王行信,周书欣. 有机黏土化学在油气生成研究中的意义[J]. 地质地球化学,1991,5(1):1-8. [6] Brabara Ranson,Dongseon Kim,Miriam Kastner, et al.Organic matter preservation on continental slopes : importance of mineralogy and surface ares[J]. Ceochimica et Cosmochimica Acta. 1998,62(88):1 329-1 345. [7] Laetitia Pichevin, Philippe Bertrand, Mohammed Boussafir.Organic matter accumulation and presesvation controls in a deep sea modern environment: an example from Namibian slope sediments[J]. Organic Geochemistry, 2004,35(5):543-559. [8] Calvert S E, Pedersen T F.Geochemistry of recent oxic and anoxic marine sediments : implications for the geological record[J]. Marine Geology, 1993,113(1-2):67-88. [9] Schulz H D, Dahmke A, Schinzel U, et al.Early diagenetic processes , fluxes and reaction rates in sediments of the South Atlantic[J]. Geochimica et Cosmochimica Acta, 1994,58(9):2 041-2 060. [10] Nissenbaum A, Kaplan I R.Chemical and isotopic evidence for the in situ origin ofmarine humic substances[J]. Limnology and Oceanography, 1972,17(4):570-582. [11] Van Krevlen D W. Coal: typology - chemistry -physics -Constitution, thirded[M]. Elsevier, The Netherlands, 1993. [12] Derenne S, Largeau C, Berkaloff C, et al.Non-hydrolysable macromolecular constituents from outer walls of Chlorella fusca and Nanochlorum eucaryotum[J]. Phytochemistry, 1992,31(66):1 923-1 929. [13] Largeau C, Derenne S, Casadevall E, et al.Pyrolysis of immature torbanite and of the resistant biopolymer (PRB A) isolated from extant alga Botryoccocus braunii: mechanism of formation and structure of torbanite[J]. Organic Geochemistry, 1986,10(4-6):1 023-1 032. [14] Boom A, Sinninghe Damste J S, de Leeuw J W. Cutan, a common aliphatic biopolymer in cuticles of drought adapted plants[J]. Organic Geochemistry, 2005,36(4):595-601. [15] Szklarz G, Leonowicz A.Cooperation between fungal laccase and glucose oxidase in the degradation of lignin derivatives[J]. Phytochemistry, 1986,25(11):2 537-2 539. [16] MohammedBoussafir,ElisabethLallier-Verges.Accumulation of organic matter in the Kimmeridge clay formation(KCF):an update fossilization model for marine petroleum sourcerocks[J]. Marine and Petroleum Geology, 1997,14(1):75-83. [17] Sinninghe-Damste J S, Ripjstra W I C, Kock-van Dalen A C, et al. Quenching of labile functionalized lipids by inorganic sulfur species: evidence for formation of sedimentary organic sulfur compounds at the early stage of diagenesis[J]. Geochimica et Cosmochimica Acta, 1989,53(6):1 343-1 355. [18] 卢龙飞,蔡进功,包于进,等. 黏土矿物保存海洋沉积有机质研究进展及其碳循环意义[J]. 地球科学进展,2006,21(9):932-937. [19] 王飞宇,傅家漠. 煤和烃源岩镜质体中超微细类脂体检出及意义[J]. 科学通报,1995,38(2):151-154. [20] Mayer LM, Macko SA,CammenL. Provenance, concentration and nature of sedimentary organic nitrogen in the Gulf of Maine[J]. Marine Chemistry, 1988,25(3):291-304. [21] Furukawa Y.Energy-filtering transmition electron microscopy(EFTEM) and electron energy loss spectroscopy(EELS) investigation of clay-organic matter aggregates in aquatic sediments[J].OrganicGeochemistry,2000,31(77):735-744. [22] Weiss. Organic derivatives of clay minerals, zeolites and related minerals[C]. Organic Geochemistry, Methods and Results, New York, 1969: 739-775. [23] Ruehrwein R A, Ward D W.Mechanism of clay aggregation by polyelectrolytes[J]. Soil Science, 1952,73(6):484-492. [24] Mayer L M.Extent of coverage of mineral surfaces by organic matter in marine sediments[J]. Geochimica et Cosmochimica Acta, 1999,63(2):207-215. [25] 关平,徐水昌,刘文汇. 烃源岩有机质的不同赋存状态及定量估算[J]. 科学通报,1998,43(14):1 556-1 559. [26] Indraratne S P, Tee Boon Goh, Shindo H.Sorption of organic compounds by hydroxyl-interlayered clays through chelation and humification process[J]. 2007,139(3-4):314-320. [27] Tissot B P,Welte D H .Petroleum formation and occurrence (2nd ed)[M]. Berlin: Springer-Verlag,1984:160-198. [28] Snowdon L R, Powell T G.Immature oil and condensate modification by hydrocarbon generation modle for terrestrial organic matter[J]. AAPG Bulletin, 1982,66(6):775-778. [29] Boussafir M, Gelin F, Lallier Verges E, et al.Electron microscopy and pyrolysis of kerogens from the Kimmeridge clay formation,UK: source organisms, preservation processes, and origin of microcycles[J]. Geochimica et Cosmochimica Acta. 1995,59(18):3 731-3 747. [30] 萧德铭,黄福堂,迟元林,等. 松辽及外围盆地未熟-低熟油地球化学[M]. 北京:石油工业出版社,2000,15-84. [31] 李贤庆,包建平,熊波. 苏北盆地低熟烃源岩生烃组分剖析[J]. 江汉石油学院学报,1999,21(1):22-28. [32] 张永刚,蔡进功,许卫平,等. 泥质烃源岩中有机质富集机制[M]. 北京:石油工业出版社,2007. [33] LU Xiancai, LIU Qing, ZHANG Lingye, et al.Desorption sequence of organic matter from organoclay complexes in source rocks[C]. Goldschmidt Conference Abstracts, 2006. |
[1] | LI Mingyang, LI Chengyin, QU Dapeng. Characteristics and Genesis of Condensate Reservoirs of Lianggaoshan Formation in Fuling Area, Southeastern Sichuan Basin [J]. Xinjiang Petroleum Geology, 2022, 43(4): 387-395. |
[2] | REN Jiangling, WANG Feiyu, ZHAO Zengyi, ZHANG Yunpei, MI Julei, LIU Cuimin. Genesis of Oil and Gas in Sikeshu Sag in the Southern Margin of Junggar Basin [J]. Xinjiang Petroleum Geology, 2020, 41(1): 25-30. |
[3] | MA Wanyun, Dilidaer ROUZI, LI Ji, LIAO Jiande, WANG Haijing, HE Dan. Hydrocarbon Generation of Jurassic Source Rocks in the Southern Margin of Junggar Basin [J]. Xinjiang Petroleum Geology, 2020, 41(1): 31-37. |
[4] | TIAN Mingzhi1, LIU Zhanguo1, SONG Guangyong1, LI Chang1, TIAN Han1, LI Yafeng2, XIA Xiaomin2. Identification and Prediction of Effective Source Rocks for Tight Oil in Zhahaquan Area, Qaidam Basin [J]. , 2019, 40(5): 1-1. |
[5] | LIU Xuezhen1, YANG Yingchun1, ZHOU Xiang2. Genesis and Accumulation Periods of Oil in Yanchang Formation of Daijiaping Area, Ordos Basin [J]. , 2019, 40(4): 1-1. |
[6] | HUANG Yun1, LIANG Shuyi2, REN Jiangling3, LI Yanping1, GU Xinping1, FU Xiaopeng1. Discovery of Flysch Facies and Its Oil-Gas Geology Implication of Early Carboniferous Strata in Dibei Swell, Junggar Basin [J]. , 2019, 40(4): 1-1. |
[7] | JIN Jun1, WANG Feiyu2, REN Jiangling1, FENG Weiping3, MA Wanyun1, LI Sijia2. Genesis of High-Yield Oil and Gas in Well Gaotan-1 and Characteristics of Source Rocks in Sikeshu Sag, Junggar Basin [J]. , 2019, 40(2): 1-1. |
[8] | ZHANG Baoshou1, YANG Haijun1, ZHANG Nai2, ZHAO Qing1. Hydrocarbon Inclusion Characteristics of Jurassic Ahe Formation and Analysis on Petroleum Accumulation in Dibei Gas Reservoir of Kuqa Depression [J]. , 2019, 40(1): 1-1. |
[9] | . [J]. , 2014, 35(5): 1-1. |
[10] | WEI Zhifu12, WANGYongli12, ZOU Yanrong3, PENG Pingan3. Kinetics of Crude Oil and Its GroupType Generation [J]. , 2014, 35(6): 1-1. |
[11] | TANG Guomin1a,1b, LUO Qun1c, PANG Xiongqi1a,1b, ZHANG Yongshu2, GUO Jigang1a,1b, SHEN Weibing1a,1b, GUO Yingchun1a,1b. Natural Gas Genetic Type and Accumulation Characteristics in Erboliang III Structure in North Margin of Qaidam Basin [J]. , 2014, 35(1): 1-1. |
[12] | YAN Weipeng, YANG Tao, MA Hong, GUO Bincheng, HUANG Fuxi, TANG Hui. The Tight Oil Accumulation Model and Geological Characteristics in Continental Sedimentary Basins of China [J]. , 2014, 35(2): 1-1. |
[13] | LI Jun1,2, WU Xiaodong1, YANG Baisong3, YANG Shen2, LIU Yan4, LIN Shiguo2. New Understandings of Natural Gas Accumulation and Distribution with Prediction of Favorable Exploration Plays in China [J]. , 2014, 35(2): 1-1. |
[14] | CHENG Peng1,2, ZHANG Yingzhao3, XIAO Xianming1, TIAN Hui1, HUANG Baojia3, XU Xinde3,ZHOU Qin1,2, GAI Haifeng1,2. Differences of Crude Oil in Low and High Resistivity Reservoirs and Processes of Reservoir Forming in Qionghai Swell in Western Pearl River Mouth Basin [J]. , 2013, 34(4): 1-1. |
[15] | WANG Weiming1a,2, LU Shuangfang1a, ZHANG Shuxia1b, WU Hui2, WANG Guilei2, WEN Siliang3. The Origin of Deep Natural Gas of Qianbei SubSag of Changling Fault Depression in Songliao Basin [J]. , 2013, 34(4): 1-1. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||