巴伦支海西南环带早白垩世陆架台地沉积与断裂特征及发育——基于高分辨率地震资料的约束

IF 0.8 4区 地球科学 Q2 Earth and Planetary Sciences Norwegian Journal of Geology Pub Date : 2019-09-10 DOI:10.17850/njg99-3-7
T. S. Faleide, I. Midtkandal, S. Planke, R. Corseri, J. Faleide, C. S. Serck, J. P. Nystuen
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引用次数: 17

摘要

北巴伦支海早白垩世区域性隆起与高北极大火成岩省(High Arctic Large Igneous Province, HALIP)相结合,形成了河流-开阔海相沉积体系,止于巴伦支海西南部。本研究建立了环带地区下白垩统沉积时空演化的新格局,特别是确定了陆架内台地裂片前缘及随后的断块作用的位置和时代。高分辨率3D和2.5D P-Cable复合数据集与常规3D地震数据集对Hoop地区的地层和横切断层进行了成像。P-Cable数据在浅层地下通常具有3-7米的分辨率,比传统地震数据高4倍,有助于更好地绘制新地图,从而了解下白垩纪地层和断层。地震层位和相图显示了大规模的斜形,现今高度为150-200 m,倾角为0.65-1.13°。此外,高分辨率数据还显示了复杂的地层和构造特征,如小规模的斜形和众多的断层。陆架台地序列为断块断裂,早白垩世主要断裂活动晚于三角洲和台地沉积物从西北到达。与7324/2-1井(Apollo)和7325/1-1井(Atlantis)以及邻近的Fingerdjupet次盆地的详细地震地层联系,记录了陆架台地沉积的巴雷米亚时代和Aptian?-早阿拉伯世为主要断裂事件。断裂可能起源于阿普田,但巴雷米亚地层上方的断陷或压缩剖面使得箍带地区的变形难以约束。
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Characterisation and development of Early Cretaceous shelf platform deposition and faulting in the Hoop area, southwestern Barents Sea—constrained by high-resolution seismic data
Regional Early Cretaceous uplift of the northern Barents Sea associated with the High Arctic Large Igneous Province (HALIP) caused the development of the fluvial to open-marine depositional system, terminating in the southwestern Barents Sea. This study has established a new temporal and spatial evolution of the Lower Cretaceous deposits in the Hoop area, in particular the location and age of the intrashelf platform lobe front and subsequent block-faulting. A composite high-resolution 3D and 2.5D P-Cable and conventional 3D seismic dataset image the strata and cross-cutting faults in the Hoop area. The P-Cable data typically have a resolution of 3–7 m in the shallow subsurface, up to four times better than the conventional seismic data, contributing to a new and better mapping hence understanding of the Lower Cretaceous strata and faults. Seismic horizon and facies mapping reveal large-scale clinoforms, with present-day heights of 150–200 m and dips of 0.65–1.13°. The highresolution data furthermore display complex stratigraphic and structural features, such as small-scale clinoforms and numerous faults. The shelf platform succession is block-faulted, and the main Early Cretaceous fault activity thus postdates the arrival of the delta and platform sediments from the northwest. Detailed seismo-stratigraphic ties to the 7324/2–1 (Apollo) and 7325/1–1 (Atlantis) wells, and ties to the adjacent Fingerdjupet Subbasin, document a Barremian age for the shelf platform deposits and an Aptian?–early Albian age for the main faulting event. The faulting was likely initiated in the Aptian, but a hiatus or condensed section above the Barremian strata makes it difficult to constrain the onset of deformation in the Hoop area.
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来源期刊
Norwegian Journal of Geology
Norwegian Journal of Geology 地学-地球科学综合
CiteScore
1.60
自引率
25.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: The Norwegian Journal of Geology publishes high-quality, fully peer-review papers from all geoscientific disciplines. Papers are commonly based on regional studies and should emphasise the development of understanding of fundamental geological processes. More specialised papers can also be submitted, but should be written in a way that is easily understood by nonspecialists, and illustrate the progress being made within that specific topic in geosciences. We also encourage initiatives for thematic issues within the scope of the Journal.
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