SEISMOLOGY AND GEOLOGY ›› 2003, Vol. 25 ›› Issue (4): 595-608.

• Brief Report • Previous Articles     Next Articles

DEEP GEOLOGICAL FEATURE AND DYNAMIC EVOLUTION OF THE SONGLIAO BASIN

YUN Jin-biao, YIN Jin-yin, JIN Zhi-jun   

  1. Research Center of Basin and Oil Reservoir, Petroleum University of China;Key Laboratory of Gas oil Accumulation, Ministry of Education, Beijing 102246, China
  • Received:2002-05-07 Revised:2002-09-09 Online:2003-12-03 Published:2009-10-26

松辽盆地深部地质特征及其盆地动力学演化

云金表, 殷进垠, 金之钧   

  1. 石油大学盆地与油藏中心, 教育部油气成藏机理重点实验室, 北京, 102246
  • 作者简介:云金表,男,1963年7月生,1985年毕业于长春地质学院矿产普查专业,2001年在石油大学做博士后研究,副教授,现从事构造地质与盆地动力学研究,电话:010-89733423.

Abstract: The Songliao basin located in Northeast China is a large Mesozoic rift basin. A lot of work has been done on the geological characteristics, formation and evolution of the basin, as well as the accumulation regularity of oil and gas in this basin. However, the question about the formation of the basin is still a point at issue, and has attracted the great attention of many geologists. Various models have been proposed so far for the formation of the basin, such as continent rift, back arc rift, and pull-apart models. Basing on deep seismic reflection data, this paper discusses the type of the basin and the geodynamic cause of its formation. Deep seismic reflection profiling has revealed that the crust of the Songliao basin is characterized by both layered and fault-block structures. The crust can be divided into three layers: the upper crust, middle crust and lower crust. Parallel reflections in shallow layer and oblique reflections at above 6s twt represent the upper crust. The strong reflection belt below the upper crust represents the detachment zone between the upper and middle crust. Most of the faults in the upper crust terminate in this zone. The analysis shows that the faults in the upper crust are extensional syn sedimentary faults formed during late Jurassic to early Cretaceous and thrust system formed in late Paleozoic era. The middle crust at about 68s twt not only has a lot of discontinuous parallel reflections and rhombic reflections, but also a small quantity of "crocodile mouth" reflectors. The former represents extensional reformation formed in late Mesozoic era, and the later represents compressional structure formed in late Paleozoic era. The middle-crust is also a low-velocity and high conductivity layer. The lower crust is located at about 8~11s twt, and is characterized by rhombic reflection events. The Moho below the lower crust appears as a strong reflection belt, beneath which the layer is transparent. The reflection structure of the Songliao basin is similar to that of typical rift basin. Boundary faults between blocks were the passage of upward transferring of hot fluid from the middle lower crust or mantle to the basin. "Mushroom cloud" reflections at the deep part of the boundary faults might be the reflections of hot fluid diapir. Mirror symmetry between the down-warped basin and mantle uplift is the main evidence for the rift-origin of the Songliao basin. Deep seismic reflection data indicate that the main factor at depth that affected the subsidence of the basin was not only the uplift of the mantle, but also the "low velocity-high conductivity" layer in the upper-middle crust and hot fluid diapirs. The former caused the subsidence in later stage, while the later caused the subsidence in early stage. Regional geology and geophysical data indicate that this area is located in back-arc formed by the subduction of the Kula-pacific plate into the Eurasia plate in Mesozoic. Mesozoic volcanic rock system in this area is mainly of CA series, with a few exception of a small amount of A and Th type. Geochemical analysis reveals that the volcanic rocks here are characterized not only by high SiO2 and K2O contents and enrichment in LREE, but also by EMII type mantle, indicating back arc environment disturbed by plate subduction. However, seismic tomography data have revealed that the Songliao basin is located in disturbed area of continental mantle, rather than back-arc area. It is suggested, therefore, that formation and evolution of the Songliao basin was the result of the subduction of Kula-Pacific plate into the Eurasian plate. The plate subduction has led to the uplift and diapir of the mantle, and the detachment of the crust. Strong crust-mantle interaction has led to the delimitation and extension of the crust, resulting in the formation of sandwich structure and large scale subsidence of the crust. It was the afore mentioned factors that caused the formation of mirror symmetry between the downwarping part of the basin and the uplifting part of the mantle, as well as the dissymmetry between the fault depression and the uplifting part of the mantle. The former was the result of large scale hot subsidence of the crust caused by the mantle cooling, while the later was resulted from simple shearing deformation of the middl-upper crust caused by the detachment of middle crust from the upper crust. The intense crust-mantle interaction was the major factor controlling the formation of no-granite basin w ith sandw ich structure and hot fluid diapirs at depth, and it may play an important role in the accumulation of deep-seated fluid and oib gas in the basin.

Key words: deep seismic reflection, crustal structure, basin geodynamics, no-granite basin

摘要: 对松辽盆地深反射地震资料的分析表明,该盆地地壳不仅具有层圈结构,而且具有明显的块断构造,这些块断的边界是深部热流体的网络通道。以深反射地震资料研究为基础,结合区域地震层析成像、火山岩地球化学等对壳幔相互作用的研究成果,通过地壳层圈与块断结构、构造变形史以及盆地构造与深部构造之间的关系研究,认为松辽盆地的形成过程是:库拉-太平洋板块向欧亚大陆之下俯冲作用导致的地幔隆起促使地壳拆沉减薄、地壳“三明治”结构形成,同时导致上地壳伸展沉降及其后期的热沉降。正因如此,盆地整体凹陷与地幔凸起成镜像关系,而断陷与拆离带凸起成偏镜像关系。强烈的壳幔作用是形成松辽盆地大规模沉降的动力学基础,也是盆地油气(包括无机物质)富集的重要原因。

关键词: 深反射地震特征, 地壳结构, 地球动力学

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