deep buried karst caves, recognition and distribution, filling features, preservation mechanism, Tahe area,"/> High resolution sequence stratigraphy of the fourth member of Xujiahe Formation in central fault-fold belt of Yuanba area, Sichuan Basin

Lithologic Reservoirs ›› 2014, Vol. 26 ›› Issue (4): 97-102.doi: 10.3969/j.issn.1673-8926.2014.04.014

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High resolution sequence stratigraphy of the fourth member of Xujiahe Formation in central fault-fold belt of Yuanba area, Sichuan Basin

WANG Mingfei1, QU Dapeng1, X IAO Wei1, L ING Tao2, CHEN Lingjun1
  

  1. 1. Research Institute of Exploration, Sinopec Exploration Southern Company, Chengdu 610041, China; 2. Research Institute of Zhanjiang Company, CNOOC Limited, Zhanjiang 524057, Guangdong, China
  • Online:2014-08-15 Published:2014-08-15

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Abstract:

On the basis of formation development characteristics, this paper studied the high-resolution sequence stratigraphy division of the fourth member of Xujiahe Formation in central fault-fold belt of Yuanba area. Firstly, based on the sedimentary characteristics of modern braided river and braided river delta, we clarified the braided river sedimentary system and braided river delta sedimentary system. Through the drilling and logging data, we defined that the study area developed braided river facies and braided river delta facies. And then, according to the principle of high resolution sequence stratigraphy, we identified two types of braided channel which have sequence stratigraphy significance, including high accommodation vertical superimposed braided channel and low accommodation lateral superposed braided channel, which can be used to judge the transformation position of base level cycle for single well high resolution sequence division. It was considered that the fourth member of Xujiahe Formation can be divided into two fourth-order cycles and three sub-members. Finally, combined with the seismic sequence interpretation of the fourth member of Xujiahe Formation, we established regional sequence stratigraphic framework, which provides foundation for the further study on sedimentary facies distribution in sequence stratigraphic framework.

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[1] 邓康龄.四川盆地形成演化与油气勘探领域[J].天然气工业,1992,12(5):7-12.
[2] 刘宝珺,许效松,潘杏南,等.中国南方古大陆沉积地壳演化与成矿[M].北京:科学出版社,1993:10-50.
[3] 马永生,牟传龙,郭彤楼,等.四川盆地东北部飞仙关组层序地层与储层分布[J].矿物岩石,2005,25(4):73-79.
[4] 刘金华,张世奇,孙耀庭,等.川西前陆盆地上三叠统须家河组地层的划分对比及沉积演化[J]. 地层学杂志,2007,31 (2):190-196.
[5] 朱如凯,白斌,刘柳红,等.陆相层序地层学标准化研究和层序岩相古地理:以四川盆地上三叠统须家河组为例[J].地学前缘,2011,18(4):131-143.
[6] 姜在兴,田继军,陈桂菊,等.川西前陆盆地上三叠统沉积特征[J].古地理学报,2007,9(2):143-154.
[7] 翟文亮,郑荣才,朱如凯,等.川东北类前陆盆地须家河期盆—山耦合和层序充填样式[J].成都理工大学学报:自然科学版,2009,36(3):268-275.
[8] 郑荣才,李国晖,雷光明,等.四川盆地须家河组层序分析与地层对比[J].天然气工业,2011,31(6):12-20.
[9] 郑荣才,戴朝成,朱如凯,等.四川类前陆盆地须家河组层序—岩相古地理特征[J].地质论评,2009,55(4):484-495.
[10] 于兴河,王德发,孙志华.湖泊辫状河三角洲岩相、层序特征及储层地质模型———内蒙古贷岱海湖现代三角洲沉积考察[J].沉积学报,1995,13(1):48-58.
[11] 何顺利,兰朝利,门成全.苏里格气田储层的新型辫状河沉积模式[J].石油学报,2005,26(6):25-29.
[12] 刘安然,陈洪德,徐胜林,等.川西坳陷中段上侏罗统遂宁组岩相古地理及砂体展布[J].岩性油气藏,2013,25(1):35-39.
[13] 高红灿,郑荣才,柯光明,等.川东北前陆盆地须家河组层序-岩相古地理特征[J].沉积与特提斯地质,2005,25(3):38-45.
[14] 叶黎明,陈洪德,胡晓强,等.川西前陆盆地须家河期高分辨率层序格架与古地理演化[J].地层学杂志,2006,30(1):87-94.
[15] 邓宏文.美国层序地层研究中的新学派———高分辨率层序地层学[J].石油与天然气地质,1995,16(2):89-97.
[16] 邓宏文,王红亮,宁宁.沉积物体积分配原理———高分辨率层序地层学的理论基础[J].地学前缘,2000,7(4):305-313.
[17] 邓宏文,王红亮,祝永军,等.高分辨率层序地层学———原理及应用[M].北京:地质出版社,2002:3-13.
[18] Abreu V,Neal J E,Bohacs K M,et al. sequence stratigraphy of siliciclastic systems:the ExxonMobil methodology [J]. SEPM,2010,9:226.
[19] Kjemperud A V,Schomacker E R,Cross T A. Architecture and stratigraphy of alluvial deposits, Morrison Formation(Upper Jurassic),Utah[J]. AAPG Bulletin,2008,92(8):1055-1076.
[20] 王金琪.龙门山印支运动主幕辨析———再论安县构造运动[J].四川地质学报,2003,23(2):65-69.
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