构造反转的意义在于这种构造能控制油气藏的发育。
The study of tectonic inversion means that tectonic inversion may control the development of oil-gas reservoir.
构造反转可对油气聚集和油气勘探造成多方面的影响。
Tectonic inversion may re-suit in various effects on petroleum accumulation and exploration.
构造反转与油气运移时间匹配良好,则可形成有利的油气圈闭。
If reversed structures match well with hydrocarbon migration in time then favorable hydrocarbon traps can be formed.
前述各种特征则可能是此类构造反转盆地所具有的特殊的地质构造现象。
The above mentioned characteristics may be the special geotectonic phenomena which only this kind of inversion basin has.
经晚白垩世和新近纪的构造反转改造后,呈改造残留型含油气、含煤盆地。
After reverse tectonic period in Late Cretaceous and Neogene, it became a relict basin with oil-gas and coal.
结果表明,断裂的主反转期是早第三纪早期,构造反转结束于早第三纪中晚期。
The results of discussion show that the main inversion period of the fault occurred in early Tertiary and the structure inversion ended in the middle and late periods of early Tertiary.
由此也进一步证明,吐哈原型盆地属伸展性盆地,后期则因挤压改造而发生了构造反转。
This further improves that the original Turpan-Hami basin is extensional. The basin inversion occurred caused by the compression in the later stage.
重点研究了吐哈盆地构造单元的类型、构造属性及其与构造反转之间的关系等相关问题。
This paper focuses on such related aspects as the types and attributes of tectonic units, and the relation between the tectonic units and basin inversion of Turpan-Hami Basin.
对剖面中反映的构造反转、褶皱组合样式、逆冲断裂带、直立地层发育带的构造特征进行了探讨。
Structural characteristics of inversion structure, fold association style, thrust fault zone upright strata developed belt shown in great profiles were also discussed.
盆地早期的构造样式均为半地堑式箕状凹陷,晚期均发生方式不同的的构造反转,形成全反转的逆冲推覆和半反转的正或逆反转构造。
The structural styles of the basins in early stage are all half-graben depression and in late stage are total-reverse thrust nappe and semi-reverse normal- or abnormal-reverse structures.
盆地早期的构造样式均为半地堑式箕状凹陷,晚期均发生方式不同的的构造反转,形成全反转的逆冲推覆和半反转的正或逆反转构造。
The structural styles of the basins in early stage are all half-graben depression and in late stage are total-reverse thrust nappe and semi-reverse normal- or abnormal-reverse structures.
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