刘春锋,周平,熊志武,等. 东海丽水凹陷西次凹古新统明月峰组下段砂体成因分析[J]. 海洋地质前沿,2022,38(7):31-39. DOI: 10.16028/j.1009-2722.2022.005
    引用本文: 刘春锋,周平,熊志武,等. 东海丽水凹陷西次凹古新统明月峰组下段砂体成因分析[J]. 海洋地质前沿,2022,38(7):31-39. DOI: 10.16028/j.1009-2722.2022.005
    LIU Chunfeng, ZHOU Ping, XIONG Zhiwu, et al. Analysis on the origin of lithological sand in the Lower Member of Paleocene Mingyuefeng Formation in West Lishui Sag, East China Sea[J]. Marine Geology Frontiers, 2022, 38(7): 31-39. DOI: 10.16028/j.1009-2722.2022.005
    Citation: LIU Chunfeng, ZHOU Ping, XIONG Zhiwu, et al. Analysis on the origin of lithological sand in the Lower Member of Paleocene Mingyuefeng Formation in West Lishui Sag, East China Sea[J]. Marine Geology Frontiers, 2022, 38(7): 31-39. DOI: 10.16028/j.1009-2722.2022.005

    东海丽水凹陷西次凹古新统明月峰组下段砂体成因分析

    Analysis on the origin of lithological sand in the Lower Member of Paleocene Mingyuefeng Formation in West Lishui Sag, East China Sea

    • 摘要: 在井资料匮乏背景下,迫切需要借助地震沉积学手段精细刻画岩性圈闭。在层序地层划分基础上,结合地震沉积学沿层属性切片、储层反演及三维岩性体雕刻等地球物理技术,重点对研究区主力产层明月峰组下段地震沉积相特征进行精细研究,分析明月峰组下段砂体的形成与演化特征。研究认为,明月峰组下段包括下降、低位、海侵和高位4个体系域。在下降和低位体系域沉积期,断裂坡折之上发育2条下切河道,这些河道将砂体运送至陆架边缘形成三角洲前缘沉积,下降域由于物源供给更充足,形成了位于三角洲前缘的薄层浊流沉积;海侵及高位体系域均发育受波浪作用改造形成的滩坝障壁岛沉积,因沉积物供给缺乏,主要分布于构造坡折之上。研究成果可有效指导研究区明月峰组岩性圈闭的预测,并为下一步勘探部署提供决策依据。

       

      Abstract: In the case of lack of well data, to finely characterize a lithologic trap by means of seismic sedimentology becomes an urgent task. Focusing on the seismic facies characteristics of the Lower Member of the Mingyuefeng Formation , the main producing reservoirs in the Lishui Sag in the continental shelf of East China Sea was explored, and the formation and evolution of sand unit of the member were analyzed in combination of attraction of horizon attributes, reservoir inversion, and 3D lithologic carving on the basis of sequence stratigraphic division. The results show that the Lower Member of Mingyuefeng Formation could be subdivided into four system tracts, i.e., the falling-stage system tract, lowstand system tract, and transgressive and highstand systems tracts. In the falling-stage and lowstand systems tracts, two incised channels were developed above the fault slope-break zone and these channels transported sand to the edge of the shelf and formed the ancient delta frontal deposits. In addition, in the falling-stage system tract, a thin-layer of turbidite formed in the front edge of the delta with plentiful sediment supply. Both the transgressive and highstand systems tracts have developed beach-bar barrier island deposits that had been subjected to the wave action and they are mainly distributed in the structural slope-break zone due to poor sediment supply. This study could effectively guide the prediction of lithologic trap in the Mingyuefeng Formation in the study area and provide decision-making basis for further exploration deployment.

       

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