可容纳空间转换系统的定量模拟

朱红涛; LiuKey u; 杜远生; 李敏; 王继立

Volume 34 Issue 5

Sep. 2009

Turn off MathJax

Article Contents

Article Navigation > Earth Science > 2009 > 34(5): 819-828

ZHU Hong-tao, Liu Key u, DU Yuan-sheng, LI Min, WANG Ji-li, 2009. Quantitative Simulation and New Consideration on the Transformation System of the Accommodation Space. Earth Science, 34(5): 819-828.

Citation:

ZHU Hong-tao, Liu Key u, DU Yuan-sheng, LI Min, WANG Ji-li, 2009. Quantitative Simulation and New Consideration on the Transformation System of the Accommodation Space. Earth Science, 34(5): 819-828.

ZHU Hong-tao, Liu Key u, DU Yuan-sheng, LI Min, WANG Ji-li, 2009. Quantitative Simulation and New Consideration on the Transformation System of the Accommodation Space. Earth Science, 34(5): 819-828.

Citation:

PDF( 865 KB)

Quantitative Simulation and New Consideration on the Transformation System of the Accommodation Space

1.
Key Laboratory of Tectonics and Petroleum Resources of Ministry of Education, China University of Geosciences, Wuhan 430074, China
2.
CSIRO Petroleum Resources, P .O .Box 1130, Bentley, W .A .6102, Australia
3.
Faculty of Earth Sciences, China University of Geosciences, Wuhan 430074, China
4.
The East China Sea Xihu Oil & Gas Operating Company, CNOOC, Shanghai 200030, China

Received Date: 2008-12-20
Publish Date: 2009-09-25

Abstract

Abstract

To discuss the non-synchronous change of accommodation space and sequence stacking patterns in both sides of a basin, using the SEDPAK two-dimensional stratigraphic modelling program, the "transformation system of the accommodation space" within a basin was simulated by considering the various parameters controlling the deposition of a sequence. The simulation results indicate that isochronous sequence stratigraphy within a basin may exhibit both synchronous and non-synchronous stacking patterns at different part of the basin. Synchronous stacking patterns were observed to be primarily developed during the lowstand system tracts and the late highstand system tracts. Non-synchronous stacking patterns were found to be often associated with the transgressive system tracts and the early highstand system tracts. The development of non-synchronous stacking patterns may occur under a number of circumstances within a basin with the right combination of various parameters. Nonsynchronous stacking patterns of isochronous sequence stratigraphy may provide new reference to identify system tracts interface and develop sequence stratigraphie correlation.
- geology stratigraphy,
- quantitative stratigraphic simulation,
- transformation of accommodation space,
- non-synchronous stacking pattern,
- SEDPAK,
- computer simulation

FullText(HTML)

References(24)

References

Cai, L.G., Zhou, Y., Bai, Z.R., 2008. Main controlling factors on hydrocarbon accumulation and distribution in marine sedimentary sequences in South China. Journal of Earth Science, 19(6) : 645-655.

Coe, A.L., Church, K.D., 2003. Sequence stratigraphy. In: Coe, A.L., Bosence,, D.W.J., Church, K.D., et al., eds., The sedimentary record of sea-level change. Cambridge University Press, Cambridge, Chapter 4, 57-98.

Feng, Y.L., Zhou, H.M., Li, S.T., et al., 2004. Sequence types and subtle trap exploration in continental rift basin: A case study of Lower Tertiary of the Nanpu depression. Earth Science—Journal of China University of Geosciences, 29(5) : 603 -608 (in Chinese with English abstract).

Galloway, W.E., 1989. Genetic stratigraphic sequences in basin analysis I : A rchitecture and genesis of floodingsurface bounded depositional units. AAPG Bulletin, 73(2) : 125-142.

Goodbred, S.L., Kuehl, S.A., 2000. The significance of large sediment supply, active tectonism, and eustasy on margin sequence development : Late Quaternary stratigraphy and evolution of the Ganges-Brahmaputra delta. Sedimentary Geology, 133(3 -4) : 227-248. doi: 10.1016/S0037-0738(00)00041-5

Gu, J.Y., Zhang, X.Y., 2006. The progress on onshore sequence stratigraphy and their application in the petroleum exploration and development. In: Kuang, L.C., Gu, J.Y., Lǜ, H.T., et al., eds., The new progress on petroleum sequence stratigraphy : The Four th Session of the Oil and Gas Sequence Stratigraphy Academic Collection. Petroleum Industry Press, Beijing, 1-12 (in Chinese).

Jiang, S., Wang, H., Weimer, P., et al., 2008. Sequence stratig raphycharac te ristics and sedimentary elements in deepwater. Earth Science—Journal of China University of Geosciences, 33(6) : 825 -833 (in Chinese with English abstract). doi: 10.3799/dqkx.2008.099

Jiang, Z.X., Lu, H.B., Yu, W.Q., et al., 2005. Transformation of accommodation space of the Cretaceous Qingshankou Formation, the Songliao basin, NE China. Basin Research, 17(4) : 569-582. doi: 10.1111/j.1365-2117.2005.00275.x

Jiang, Z.X., Zhang, L., Lin, W., et al., 2008. Research on the accommodation space transformation system in the Esz³ member of the Gu' nan sag. Earth Science Frontiers, 15(2) : 26 -34 (in Chinese with English abstract). doi: 10.1016/S1872-5791(08)60026-3

Leckie, D.A., 1994. Canterbury plains, New Zealand —Implications for sequence stratigraphic models. AAPG Bulletin, 78(8) : 1240 -1256.

Li, S.T., Pan, Y.L., Lu, Y.C., et al., 2002. Key technology of prospecting and exploration of subtle traps in Lacustrine fault basins : Sequence stratigraphic researches on the basis of high resolution seismic survey. Earth Science—Journal of China University of Geosciences, 27(5) : 592-598 (in Chinese with English abstract).

Liu, K.Y., Liang, T.C.K., Paterson, L., et al., 1998. Computer simulation of the influence of basin physiography on condensed section deposition and maximum flooding. Sedimentary Geology, 122(1-4) : 181-191. doi: 10.1016/S0037-0738(98)00105-5

Posamentier, H.W., Allen, G.P., 1993. Variability of the sequence stratigr aphic model : Effects of local basin factors. Sedimentary Geology, 86(1 -2) : 91-109.

Posamentier, H.W., Morris, W.R., 2000. A spects of the stratal architecture of for cedreg ressive deposits. In : Hunt, D., Gawthor pe, R.L., eds., Sedimentary responses to forced regressions. Geological Society Special Publications, 172 : 19-46.

Posamentier, H.W., Vail, P.R., 1988. Eustatic controls on clastic deposition: Ⅱ-Sequence and systems tract models. In : Wilgus, C.H., Hastings, B.S., Kemdall, C.G. St. C., et al., eds., Sea-level changes —An integrated approach. SEPM Special Publication, 42: 125-154.

Thorne, J.A., Swift, D.J.P., 1991. Sedimentation on continental margins, Ⅱ : Application of the regime concept. In: Swift, D.J.P., Oertel, G.F., Tillman, R.W., et al., eds., Shelf sand and sandstone bodies. Int. Assoc. Sedimentol. Spec. Publ., 14: 33 -58.

Vail, P.R., Mitchum, R.M., Thompson, S., 1977. Seismic stratigraphy and global changes of sea level, Part 4, Global cycles of relative changes of sea level. In: Payton C.E., ed., Seismic stratigraphy —Applications to hydrocarbon exploration. AAPG Memoir, 26: 83 -97.

Van Wagoner, J.C., Mitchum, R.M., Campion, K.M., et al., 1990. Siliciclastic sequence stratigraphy in well logs, cores, and outcrops. AAPG Methods in Exploration Series, 7 : 1-8.

Zhu, H.T., Du, Y.S., Liu, K.Y., et al., 2008. Sequence stratigraphic delineation and correlation of the Dongying Formation in the nearshore and adjacent sea areas, Bohai Bay basin. Journal of China University of Geosiences, 19(1) : 54-64. doi: 10.1016/S1002-0705(08)60024-2

冯有良, 周海民, 李思田, 等, 2004. 陆相断陷盆地层序类型与隐蔽油气藏勘探———以南堡凹陷古近系为例. 地球科学———中国地质大学学报, 29(5) : 603 -608. https://www.cnki.com.cn/Article/CJFDTOTAL-DQKX200405015.htm

顾家裕, 张兴阳, 2006. 陆相层序地层学进展及在油气勘探开发中的应用. 见: 匡立春, 顾家裕, 吕焕通, 等, 油气层序地层学新进展———全国第四届油气层序地层学大会学术论文集. 北京: 石油工业出版社, 1-12.

蒋恕, 王华, W eimer Paul, 2008. 深水沉积层序特点及构成要素. 地球科学———中国地质大学学报, 33 (6) : 825-833. https://www.cnki.com.cn/Article/CJFDTOTAL-DQKX200806011.htm

姜在兴, 张乐, 吝文, 等, 2008. 孤南洼陷古近系沙三段中亚段可容空间转换系统研究. 地学前缘, 15(2) : 26 -34. https://www.cnki.com.cn/Article/CJFDTOTAL-DXQY200802004.htm

李思田, 潘元林, 陆永潮, 等, 2002. 断陷湖盆隐蔽油藏预测及勘探的关键技术———高精度地震探测基础上的层序地层学研究. 地球科学———中国地质大学学报, 27 (5) : 592-598 https://www.cnki.com.cn/Article/CJFDTOTAL-DQKX200205018.htm

Relative Articles

Supplements(0)

Cited By

Proportional views