δ13C1, as a tracer of gas hydrocarbon, serves as a method for judging the source of hydrocarbon in surface geochemical exploration. The δ13C1 criterion of organic geochemistry is always used to ascertain the origin of hydrocarbon in soil by analyzing different modes of occurrence of hydrocarbon, but the results are generally not convincing. Based on an analysis of δ13C1 in different modes of occurrence of hydrocarbon in soil over known areas, it is thought that δ13C1 in anomalous hydrocarbon has its own characteristics because of such affecting factors as fractionation and parent rock migration mechanism. The interfering factors must be considered when δ13C1 is applied so as to establish the relationship between δ13C1 of trace hydrocarbon at surface and that in oil/gas accumulation. On such a basis, real anomalies can be distinguished from false ones, and hence reliability of SGE anomaly can be improved.
[1] Schole M .The hydrogen and carbon isotopic composition of methane from natural gases of various o rigins [J]. Geochim Cosmochim Acta, 1980, 44: 649.
[2] Schole M. Genetic characterization of natural gases[J]. AAPG,Bull,1983, 67: 2225.
[3] Stahl W J.Carbon and nitrogen iso topes in hydrocarbon re2search and exp lo ration[J].Chem istry Geo logy,1977,20:121.
[4] 张金来. 甲烷稳定碳同位素在油气化探中的应用[J]. 物探与化探,1988,12(2):123.
[5] 徐永昌,沈平,刘文汇. 天然气成因理论及应用[M].北京:科学出版社,1994.
[6] 戴金星. 天然气碳氢同位素特征和各类天然气鉴别[J].天然气地球科学,1993,4(2-3):1.
[7] Schoell M. Recent advances in petroleum isotope geochemistry[J].Organic Geochemistry,1984,15(6):645.
[8] Faber E,Stahl WJ.Geochemical surface exploration for hydrocarbons in North Sea[J].AAPG Bulletin,1984;68(3):363.
[9] 付少英.海底沉积物中不同形式烃类气体的地球化学意义[J].地学前缘,2005,12(3):253.
[10] 张有志,黄书俊.胜利油区某探区土壤吸附烃组份异常成因属性浅析[J].矿产与地质,1995,9(1):61.
[11] 朱怀平,程同锦,李武,等.塔北地区甲烷碳同位素特征与烃类运移方式[J].石油与天然气地质,2005,26(4):450.
[12] 侯卫国,苏江玉.塔北地区油气藏上方烃类垂向微运移的证据和特征[J].新疆石油地质,2001,22(6):466.
[13] Syngayevskiy Y D. Fractionation of carbon Isotopes during migration of hydrocarbons in the gas phase through rocks.In Petroleum geochemistry.genesis and migration,AG1 reprint series[J].International Geology Review,1980:1968.
[14] 王大锐.油气稳定同位素地球化学[M].北京:石油工业出版社,2000.
[15] 陈锦石,陈文正.碳同位素地质学概论[M].北京:地质出版社.1983.
[16] 魏菊英,王关玉.同位素地球化学[M].北京:地质出版社,1988.
[17] 陈荣书.天然气地质学(第二版)[M].武汉:中国地质大学出版社,1989.
[18] 阮天健,费琪.石油天然气地球化学勘探[M].武汉:中国地质大学出版社,1992.
[19] 陈安定.陕甘宁盆地中部气田奥陶系天然气的成因和运移[J].石油学报,1994,15(2):1.
[20] 张同伟,陈践发.天然气运移的气体同位素地球化学示踪[J].沉积学报,1995,13(2):70.
[21] 李剑,刘朝露,李志生,等.天然气组分及其同位素分馏作用模拟实验研究[J].天然气地球科学,2003,14(6):463.
[22] 卢武长.稳定同位素地球化学[M].成都:成都地质学院出版社,1986.
[23] 黎绍杰.油气化探中甲烷碳同位素应用、存在问题与对策研究[J].矿产与地质,2003,17(1).
[24] Brown A.Evaluation of possible gas microseepage mechanisms[J].AAPG Bulletin,2000,84(11):1775.
[25] Wased A A,Uchida T. Origin of methane in natural gas hydrates from the Mackenzie Delta and Naikai Trough//Proceedings of the Fourth I nternational Conference on Gas Hydrates.Hiyoshi,2002.
[26] Kvenvolden K A. A review of geochemistry of methane in nature gas hydrate [J].Organic Geochemistry,1995,23(11/12):997.
[27] Paull C K,Matsumoto R,Wallace P L. Proceedings on ODP,Initial Reports (Vol. 164).Texas:College Station (Ocean Drilling Program),1996.
[28] Bernard B,Brooks J M,Sackett W M. A geochemical model for characterization of hydrocarbon gas sources in marine sediments //Proceeding of 9th A nnual Offshore Technology Conference.Houston:Offshore Technology Conference,1977:435.
[29] 康玉柱.塔里木盆地古生代海相油气田[M].武汉:中国地质大学出版社,1992.
[30] 康玉柱.中国塔里木盆地石油地质特征及资源评价[M].北京:地质出版社,1996.
[31] 刘崇禧,赵克斌,余刘应,等.中国油气化探40年[M].北京:地质出版社,2001.
[32] 马安来,包建平,王培荣,等.盐城凹陷天然气藏成因研究[J].石油勘探与开发,2001,28(6).
[33] 王国建,邓平,石美癸.盐城凹陷朱家墩气田综合化探异常及其地质意义[J].物探与化探,2005,29(2).
[34] Kettel D.A method for processing adsorbed methane stable isotope data from the near surface based on fractionation// Schumacher D, Abrams M A.Hydrocarbon migration and its near-surface expression:AAPG Memoir, 66,1996.
