NEW GEOCHEMICAL INSIGHTS INTO CENOZOIC SOURCE ROCKS IN AZERBAIJAN: IMPLICATIONS FOR PETROLEUM SYSTEMS IN THE SOUTH CASPIAN REGION

IF 1.8 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
V. Aghayeva, R. F. Sachsenhofer, C.G.C. van Baak, A. Bechtel, T. M. Hoyle, D. Selby, N. Shiyanova, S. J. Vincent
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引用次数: 8

Abstract

The Maikop Group and the Diatom Formation constitute the two main source rocks in the South Caspian Basin and onshore Azerbaijan where large-scale oil production began more than 150 years ago. However, the stratigraphic distribution of the source rocks and the vertical variation of source-rock parameters are still poorly understood. The aim of the present paper is therefore to investigate in high resolution the source-rock distribution in the Perekishkyul and Islamdag outcrop sections, located 25 km NW of Baku, which provide nearly complete middle Eocene and lower Oligocene to upper Miocene successions. Bulk geochemical parameters of 376 samples together with maceral, biomarker and isotope data were analysed. In addition, new Re/Os data provide independent age dating for the base of the Upper Maikop Formation (30.0 ± 1.0 Ma) and the paper shale within the Diatom Formation (7.2 ± 2.6 Ma). The presence of steradienes in high concentrations demonstrates the thermal immaturity of the studied successions, limiting the application of some biomarker ratios.

Intervals with high TOC contents and containing kerogen Type II occur near the top of the middle Eocene succession. However, because of the low net thickness, these sediments are not considered to constitute significant hydrocarbon (HC) source rocks. The Maikop Group in the Islamdag section is 364 m thick and represents lower Oligocene (upper Solenovian) to middle Miocene (Kozakhurian) levels. Samples are characterized by moderately high TOC contents (∼1.8 wt.%) but low hydrogen index (HI) values (average ∼120 mgHC/gTOC) despite a dominance of aquatic organic matter (diatoms, methanotrophic archaea and sulphate-reducing bacteria). Rhenium-osmium chronology suggests low sedimentation rates (∼25 m/Ma), which may have had a negative impact on organic matter preservation. Terrigenous organic matter occurs in variable but typically low amounts. If mature, the Maikop Group sediments at Islamdag could generate about 2.5 tHC/m2.

The Diatom Formation includes a 60 m thick paper shale interval with high TOC contents (average 4.35 wt.%) of kerogen Type II-I (HI up to 770 mgHC/gTOC). The source potential is higher (∼3 tHC/m2) than that of the Maikop Group. The organic matter is dominated by algal material including diatoms. High TOC/S ratios suggest deposition under reduced salinity conditions. Strictly anoxic conditions are indicated by the presence of biomarkers for archaea involved in methane cycling.

For oil-source correlations and a better understanding of the petroleum system, it will be necessary to distinguish oil generated by the Maikop Group from that generated by the Diatom Formation. This study shows that these oils can be distinguished based on the distribution of specific biomarkers e.g. C30 steranes, C25 highly branched isoprenoids (HBIs), and the C25 isoprenoid pentamethylicosane (PMI).

阿塞拜疆新生代烃源岩地球化学新认识:对南里海地区油气系统的启示
Maikop组和硅藻组构成了南里海盆地和阿塞拜疆陆上的两个主要烃源岩,150多年前开始大规模生产石油。然而,对烃源岩的地层分布和烃源岩参数的垂向变化仍知之甚少。因此,本文的目的是对位于巴库西北25 km的Perekishkyul和Islamdag露头剖面进行高分辨率的烃源岩分布研究,这些露头剖面提供了几乎完整的中始新世和下渐新世至上中新世序列。分析了376份样品的整体地球化学参数,并分析了显微组分、生物标志物和同位素数据。此外,新的Re/Os数据为上迈可普组基底(30.0±1.0 Ma)和硅藻组纸页岩(7.2±2.6 Ma)提供了独立的年龄定年。高浓度甾烷的存在表明所研究演替的热不成熟,限制了一些生物标志物比值的应用。TOC含量高且含ⅱ型干酪根的层段出现在中始新统演替的顶部附近。然而,由于净厚度较低,这些沉积物不被认为是重要的烃源岩。Islamdag剖面Maikop群厚度为364 m,代表渐新统下(上索罗诺世)至中新统中(Kozakhurian)水平。样品的特征是TOC含量适中(~ 1.8 wt.%),但氢指数(HI)值较低(平均~ 120 mgHC/gTOC),尽管水生有机物(硅藻、甲烷营养古细菌和硫酸盐还原细菌)占主导地位。铼锇年代学表明低沉积速率(~ 25 m/Ma),这可能对有机质保存产生负面影响。陆源有机质含量变化不定,但通常含量很低。伊斯坦达格Maikop群沉积物如果成熟,可产生约2.5 tHC/m2。硅藻组为厚60 m的纸页岩层,干酪根i - i型(HI高达770 mgHC/gTOC) TOC含量高(平均4.35 wt.%)。源电位比Maikop组高(~ 3 tHC/m2)。有机质以硅藻等藻类物质为主。高TOC/S比值表明沉积在低盐度条件下。严格缺氧条件下,古细菌参与甲烷循环的生物标志物的存在表明。为了进行油源对比和更好地了解油气系统,有必要将Maikop群产油与硅藻组产油区分开来。该研究表明,这些油可以根据C30甾烷、C25高支异戊二烯类(hbi)和C25类异戊二烯类(PMI)等特定生物标志物的分布来区分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Petroleum Geology
Journal of Petroleum Geology 地学-地球科学综合
CiteScore
3.40
自引率
11.10%
发文量
22
审稿时长
6 months
期刊介绍: Journal of Petroleum Geology is a quarterly journal devoted to the geology of oil and natural gas. Editorial preference is given to original papers on oilfield regions of the world outside North America and on topics of general application in petroleum exploration and development operations, including geochemical and geophysical studies, basin modelling and reservoir evaluation.
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