伊通盆地西北缘断裂带的性质
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摘要
以往对伊通盆地西北缘的断裂性质问题认识不清,严重制约了该地区的油气勘探工作。综合利用钻井、露头岩心及地球物理资料,确立了伊通盆地西北缘断裂带在古近纪右行走滑伸展之后、新近纪以来为挤压性质,并发育一系列逆断层及相关褶皱等构造。存在挤压作用的主要依据有以下4点:(1)在靠近西北缘边界的探井岩心中,地层大幅度倾斜或近于直立;(2)盆地西北缘露头出现大量挤压形成的褶皱构造;(3)盆地西北缘地震剖面上普遍存在逆冲构造和花状构造特征;(4)重、磁、电资料也表明盆地西北缘存在挤压现象。勘探证实,伊通盆地西北缘断裂带的挤压性质及伴生构造特征有利于油气的运聚和成藏。该认识有力地指导了伊通盆地的油气勘探,同时也对整个郯庐断裂带东北段的油气勘探战略具指导意义。
The fault nature of north-west area in Yitong Graben used to be obscure,which heavily impedes the oil prospecting works in this area.By using outcrop,core,geophysical data,it is concluded that north-west fault zone in Yitong Basin is compressive and reversed faults which are well developed.A lot of fold structures are shaped at geological outcrops in north-west area of the basin.In prospecting wells near north-west boundary core data show that strata tilted at a large angle,and some even turn perpendicular.Gravity,magnetic and geo-electrical data also show that north-west area in Yitong Graben exits compressive phenomena.Fault composite characteristics are interpreted from high resolution 3D seismic.Fault nature and its characteristics are favorable for reservoir accumulation in the area.This study greatly guides oil exploration of north-west area in Yitong Graben,and also has a guiding meaning to oil prospecting vista of the entire Tancheng-Lujiang fault zone.
The fault nature of north-west area in Yitong Graben used to be obscure,which heavily impedes the oil prospecting works in this area.By using outcrop,core,geophysical data,it is concluded that north-west fault zone in Yitong Basin is compressive and reversed faults which are well developed.A lot of fold structures are shaped at geological outcrops in north-west area of the basin.In prospecting wells near north-west boundary core data show that strata tilted at a large angle,and some even turn perpendicular.Gravity,magnetic and geo-electrical data also show that north-west area in Yitong Graben exits compressive phenomena.Fault composite characteristics are interpreted from high resolution 3D seismic.Fault nature and its characteristics are favorable for reservoir accumulation in the area.This study greatly guides oil exploration of north-west area in Yitong Graben,and also has a guiding meaning to oil prospecting vista of the entire Tancheng-Lujiang fault zone.
引文
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[17]孙晓猛,龙胜祥,张梅生.佳木斯—伊通断裂带大型逆冲构造带的发现及形成时代[J].石油与天然气地质,2006,27(5):637-643.
[18]李献甫,陈全茂,张学海,等.伊通地堑—走滑断陷盆地的构造特征及演化[J].石油实验地质,2002,24(1):19-30.
[19]Xu J W.The Tangcheng-Lujiang Wrench Fault System[M].Chichester,UK:John Wiley&Sons Ltd,1993:1-74.
[20]朱光,刘国生,牛漫兰,等.郯庐断裂带晚第三纪以来的浅部挤压活动与深部过程[J].地震地质,2002,24(2):265-277.
[21]陈全茂,李忠飞.辽河盆地东部凹陷构造及含油气性分析[M].北京:地质出版社,1998:141-148.
[22]程有义,李晓清,汪泽成,等.潍北拉分盆地形成演化及其对成油气条件的控制[J].石油勘探与开发,2004,31(6):32-35.
[2]朱光,王道轩,刘国生,等.郯庐断裂带的演化及其对西太平洋板块运动的响应[J].地质科学,2004,39(1):36-49.
[3]朱光,徐嘉炜.郯庐断裂带的平移幅度、平移时代及其构造模式[M]//陈毓川.第30届国际地质大会论文集:第14卷(构造地质学、地质力学).北京:地质出版社,1999:167-175.
[4]程捷,万天丰.郯庐断裂带在新生代的演化[J].地质科技情报,1996,15(3):35-42.
[5]卢华复,俞鸿年,丁幼文,等.试论郯庐断裂带中段新构造期构造应力场的演化[M]//《构造地质论丛》编辑部.构造地质论丛(3)[M].北京:地质出版社,1984:107-115.
[6]郭孟习,孙炜,尹国义,等.郯庐断裂系的北延及地质-地球物理特征[J].吉林地质,2000,19(3):35-44.
[7]张庆龙,王良书,谢国爱,等.郯庐断裂系北延及中生代构造体制转换问题的探讨[J].高校地质学报,2005,11(4):577-584.
[8]朱光,刘国生,宋传中,等.郯庐断裂带的脉动式伸展活动[J].高校地质学报,2000,6(3):396-404.
[9]朱光,王道轩,刘国生,等.郯庐断裂带的伸展活动及其动力学背景[J].地质科学,2001,36(3):269-278.
[10]刘国生,朱光,宋传中,等.郯庐断裂带新近纪以来的挤压构造与合肥盆地的反转[J].安徽地质,2002,12(2):81-84.
[11]刘茂强,杨丙中,邓俊国,等.伊通—舒兰地堑地质构造特征及其演化[M].北京:地质出版社,1993.
[12]童亨茂.伊通地堑边界断裂的性质与演化[J].地质力学学报,2002,8(1):35-42.
[13]孙万军,刘宝柱,李本才,等.伊通地堑断层系统与构造样式[J].现代地质,2004,18(4):505-510.
[14]荆凤,申旭辉,洪顺英,等.基于遥感技术研究依兰—伊通断裂带[J].地震,2006,26(3):79-84.
[15]徐嘉炜.郯城—庐江平移断裂系统[M]//《构造地质论丛》编辑部.构造地质论丛(3)[M].北京:地质出版社,1984:18-32.
[16]任延广,陈均亮,冯志强,等.喜山运动对松辽盆地含油气系统的影响[J].石油与天然气地质,2004,25(2):185-190.
[17]孙晓猛,龙胜祥,张梅生.佳木斯—伊通断裂带大型逆冲构造带的发现及形成时代[J].石油与天然气地质,2006,27(5):637-643.
[18]李献甫,陈全茂,张学海,等.伊通地堑—走滑断陷盆地的构造特征及演化[J].石油实验地质,2002,24(1):19-30.
[19]Xu J W.The Tangcheng-Lujiang Wrench Fault System[M].Chichester,UK:John Wiley&Sons Ltd,1993:1-74.
[20]朱光,刘国生,牛漫兰,等.郯庐断裂带晚第三纪以来的浅部挤压活动与深部过程[J].地震地质,2002,24(2):265-277.
[21]陈全茂,李忠飞.辽河盆地东部凹陷构造及含油气性分析[M].北京:地质出版社,1998:141-148.
[22]程有义,李晓清,汪泽成,等.潍北拉分盆地形成演化及其对成油气条件的控制[J].石油勘探与开发,2004,31(6):32-35.
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