[1] 宋书君,李献甫,费琪.三维荧光指纹技术在东营凹陷丁家屋子油源分析中的应用[J].石油实验地质,2002,24(5):469～473
[2] 李素梅,庞雄奇,邱桂强,等.东营凹陷王家岗孔店组油气成因解析[J].沉积学报,2005,23(4):726～733
[3] 张林晔,刘庆,张春荣,著.东营凹陷成烃与成藏关系研究[M].北京:地质出版社,2005.181
[4] 张林晔,孔祥星,张春荣,等.济阳坳陷优质烃源岩的发育及其意义[J].地球化学,2003,32(1):35～42
[5] 彼得斯K E,莫尔多万J M.姜乃煌,张水昌,林永汉,等译.生物标记化合物指南--古代沉积物和石油中分子化石的解释[M].北京:石油工业出版社,1995.131
[6] Killops S D,Carlson R M K,Peters K E.High-temperature GC evidence for the early formation of C₄₀⁺ n-alkanes in coals[J].Organic Geochmistry,2000,31:589-597
[7] Tissot B P,Welte D H.Petroleum formtion and occurrence[M].New York:Springer-Verlag,1984
[8] Tagelaar E W,Matthezing R M,Jansen J B H,et al.Possible origin of n-alkanes in high wax crude oils[J].Nature,1989,342:529-531
[9] 王飞宇,郝石生,何萍,等.泌阳凹陷湖相藻类体中藻质素作为高蜡油母质[J].科学通报,1997,42(11),1 193～1 196
[10] 黄海平.用高温气象色谱分析原油和岩石抽提物中的高分子量烃类[J].石油实验地质,2000,22(3):280～284
[11] 黄海平,郑亚斌,张占文,等.低等水生生物:高蜡油形成的重要因素[J].科学通报,2003,48(10):1 092～1 098
[12] 李素梅,庞雄奇,邱桂强,等.东营凹陷南斜坡特高蜡油的成因[J].石油与天然气地质,2005,26(4),480～486
[13] 宋一涛,廖永胜,王忠.潍北凹陷孔店组烃源岩评价及油源分析[J].石油与天然气地质,2005,26(4):487～793
[14] Holba A G,Dzou L I P,Masterson W D,et al.Applicetion of 24-norcholestane for constraining source age of petroleum[J].Organic Geochemistry,1998,29(5-7):1 269-1 283
[15] Holba A G,Tagelaar E W,Huizinga B J,et al.24-norcholestanes as age-sensitive molecular fossils[J].Geology,1998,26 (9):783-786
[16] Alexander R,Noble R A,Kagi R I.Fossil resin biomarkers and their application in oil to source rock correlation,Gippsland Basin,Australia[J].APEA Journal,1987,27:63-72
[17] Summons R E,Jahnke L L,Hope J M.2-Methylhopanoids as biomarkers for cyanobacterial oxygenic photosynthesis[J].Nature,1999,400:554～557
[18] 黄海平,李虹,马刊创,等.大民屯凹陷高蜡油的形成条件[J].石油与天然气地质,2001,22(1):64～67