GEODYNAMIC TYPES AND MECHANISMS OF TRANSPRESSIONAL BASINS
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摘要: 压扭性盆地是世界上广泛发育的一类盆地,也是一种主要的含油气盆地类型.对压扭性盆地合理分类,并对每类的形成机制进行深入探讨,将有助于开展压扭性盆地油气地质综合研究与勘探前景评价.从有利于盆地构造研究与油气勘探的角度提出了压扭性盆地的分类方案.根据压扭作用发生的时间及其与所形成盆地的成因关系,可分为原生和后生压扭性盆地,然后根据盆地所处的板块构造部位、压扭作用的动力机制和压扭作用力的大小等因素,又分为许多次级类型.根据压扭性盆地的地球动力学环境,剖析了其成因机制和构造特征.压扭性盆地形成的构造环境与张(张扭)性盆地有很大不同,主要形成于斜向挤压背景,包括斜向会聚板块边界、转换板块边界和碰撞造山带的周边地区;后生压扭性盆地的成因机制比原生的更为复杂,板块之间的斜向挤压、微陆块的加入、板块的旋转等因素都可能形成压扭性盆地.Abstract: The transpressional basin is not only one of the widespread basin types but also an important petroliferous basin type in the world.A reasonable classification and the discussion of formation mechanism of transpressional basins will be helpful for petroleum geology study and exploration potential evaluation.Based on the study of basin structure and hydrocarbon exploration,it is put forward in this paper a basic classification scheme of the transpressional basins.According to transpression time and its relation to basin formation,the transpressional basins can be basically classified into the proto-and the post-transpressional ones.Then,according to plate tectonic settings,transpression mechanism and transpressional force magnitude,the transpressional basins can be further classified into many secondary types.Based on the geodynamic settings of transpressional basins,it is analyzed in this paper their formation mechanisms and structural features.The tectonic background of transpressional basins is quite different from which of the extensional or trans-extensional basins.The transpressional basin has been predominantly resulted from oblique compression,such as oblique compression plate boundary,transform plate boundary and the peripheral area of collisional orogens.The formation mechanism of post-transpressional basin is much more complicated than that of the proto-transpressional basin.The oblique-compression between plates,the accretion of micro-terranes,and the plate rotation,etc.can accordingly give rise to the formation of transpressional basin.
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Key words:
- transpression /
- formation mechanism /
- structural feature /
- transpressional basin /
- basin classification
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[1] Dewey J F,Holdsworth R E,Strachan R A.Transpression and transtension zones[A].In:Holdsworth R E,Strachan R A,Deway J F,eds.Continental transpressional and transtensional tectonics (Geological Society special publication No.135)[C].London:The Geological Society,1998.1~14 [2] 李丕龙,武恒志,时华星等.美国西部压扭性盆地石油地质特征[A].见:李丕龙编.压扭性盆地勘探理论及方法文集[C].北京:石油工业出版社,2001.14~46 [3] 何登发,罗金海,雷振宇.压扭性盆地的成盆机制与油气潜力[A].见:李丕龙编.压扭性盆地勘探理论及方法文集[C].北京:石油工业出版社,2001.47~70 [4] 康玉柱.中国西北地区压性叠加盆地成油特征[J].石油实验地质,2004,26(2):153~160 [5] Montenat C,d'Estevou Ph Ott.The diversity of Late Neogene sedimentary basins generated by wrench faulting in the Eastern Betic Cordillera,SE Spain[J].Journal of Petroleum Geology,1999,22(1):61~80 [6] 童享茂.中国沉积盆地复杂性的成因剖析及其油气赋存特征[J].石油实验地质,2004,26(5):421~426 [7] 袁政文.新疆焉耆挤压逆冲型残留盆地与油气勘探[J].石油实验地质,2004,26(1):11~16 [8] 黄泽光.川西坳陷压扭应力场的形变特征及油气地质意义[J].石油实验地质,2003,25(6):701~707 [9] 张之一.渤海湾盆地中新生代扭动构造及其对油气的控制作用[J].西安地质学院学报,1993,15(4):108~112 [10] Busby C,Ingersoll R.Tectonics of sedimentary basins[M].Cambridge,Mass:Blackwell Science,1995 [11] 贾承造,魏国齐,姚慧君等.塔里木盆地构造演化与区域构造特征[J].北京:石油工业出版社,1995.1~120 [12] 贾承造.中国塔里木盆地构造特征[M].北京:石油工业出版社,1997.1~330 [13] 贾承造,魏国齐.塔里木盆地构造特征与含油气性[J].科学通报,2002,47(增刊):1~8 [14] 何登发,李德生.塔里木盆地构造演化与油气聚集[M].北京:地质出版社,1996.1~116 -
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