大兴安岭地区突泉盆地高精度重磁电特征及其构造格架

doi:10.13278/j.cnki.jjuese.201601301

Abstract

Abstract:

In the latest round of oil and gas resources nationwide survey and integral deployment, the western district of Songliao basin and its periphery are taken as the study area to do the Mesozoic oil and gas resource potential evaluation. To gain further insight of the oil & gas resource potential of the new regions and new layers,the high precised gravity, magnetic and electrical geophysical methods are used to study the stratigraphic distribution, deep structural styles, and hydrocarbon accumulation combination of Tuquan basin. The research results indicate that the sedimentary strata gradually slopes from the edge to the centre of the basin with a gradual increase of the burial depth; 13 regional faults develop mainly in NE and NW direction in Tuquan basin, and these faults control the basic structural framework of Tuquan basin, the Mesozoic and Upper Paleozoic upwarping-downwarping pattern, as well as the sedimentary strata. We delineate four Mesozoic tectonic unites:the secondary salient of north part, the secondary depression of Dequan, the secondary depression of Baizimiao, and the secondary salient of southeast part.These perceptions and results provide important deep structure evidence of the basin for the next oil and gas exploration, and also have important theoretical and practical significance for the Upper Paleozoic-Mesozoic oil and gas resources assessment of the new oil and gas district in Northeast China(Western Songliao Basin and external area).

Key words: Tuquan basin, oil and gas exploration, gravity, magnetic, MT, tectonic framework

CLC Number:

P631

Wang Dandan, Li Shizhen, Zhou Xingui, Li Aiyong, Wen Quanbo, Lin Yanhua. Lithology Lithofacies Identification and Deep Structure of Tuquan Basin in Great Xinggan Range Area Based on High-Precision Gravity-Magnetic-Electrical Survey[J].Journal of Jilin University(Earth Science Edition), 2016, 46(1): 240-253.

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Lithology Lithofacies Identification and Deep Structure of Tuquan Basin in Great Xinggan Range Area Based on High-Precision Gravity-Magnetic-Electrical Survey

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