STRATIGRAPHY, SEDIMENTOLOGY AND GEOCHEMISTRY OF THE OLIGOCENE – LOWER MIOCENE MAIKOP GROUP IN DAGESTAN, NE CAUCASUS

IF 1.8 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Yu. Gavrilov, R. Nedumov, E. Shchepetova, E. Shcherbinina, E. Kozlova, O. Golovanova, B. Pokrovsky
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引用次数: 5

Abstract

A relatively complete section of the Maikop Group (Oligocene – lower Miocene) is exposed along the Sulak River valley in Dagestan (NE Caucasus) and contains a depositional record for this part of the Eastern Paratethys. At the Sulak River outcrop, the Maikop Group is ca. 1200 m thick and can be divided into six lithologically-defined formations: these are from the base up the Khadum Formation (Rupelian), the Miatly Formation, the Lower Clayey Formation, the Mutsidakal Formation (Chattian), the Riki Formation and the Zuramakent Formation (lower Miocene). The Khadum Formation rests on the upper Eocene Belaya Glina Formation and the boundary is marked by a sharp lithological transition from pale-coloured, bioturbated limestones below to black organic-rich shales above.

Biostratigraphic studies of calcareous nannoplankton in samples from the Sulak River section allowed the position of the Eocene – Oligocene boundary at the base of the Maikop Group to be defined. The boundary occurs within the CP16 Zone near the division between the CP16a and CP16b subzones. This is consistent with the age of the boundary at a reference outcrop along the Kheu River in Kabardino-Balkaria in the Central North Caucasus, some 200 km west of Dagestan. A positive oxygen stable isotope anomaly occurs at the top of the Belaya Glina Formation.

Samples of the Maikop Group are characterized by variations in TOC content ranging between 0.14 and 11.06 wt. %. The highest values were measured in both carbonate- and clay-rich samples from the Khadum Formation, and the lowest (less than 0.5 wt.%) in sandstones from the overlying Oligocene Miatly, Lower Clayey and Mutsidacal Formations. Samples of the lower Miocene Riki and Zuramakent Formations have moderate TOC values (on average more than 1.5 wt.%). Results of Rock-Eval pyrolysis show that Maikop samples contain kerogen Types II and III which is distributed unevenly throughout the formations. Clay-rich rocks in the upper part of the Khadum Formation (Solenovian Member) with Type II kerogen have the greatest oil-generating potential, with initial hydrogen index values estimated at 400-600 mg HC/g TOC. The Miatly Formation sandstones and siltstones contain migrated bitumen which is recognized from increased values of Rock-Eval S1 and the high Production Index (S1/(S1+S2). Overlying Oligocene – lower Miocene rocks contain mainly Type III kerogen, although increased TOC values obtained from samples of the Riki Formation indicate that it may have minor gas source potential.

Samples of Maikop Group sediments from the Sulak section were analysed for their contents of Mo, S, Fe, Mn, V, Ni and other elements. A stagnation coefficient (Mo/Mn x 100) was calculated and was interpreted as a measure of the intensity of anoxia in the Maikop palaeobasin. Anoxic conditions are interpreted to have reached a maximum in the Rupelian and Aquitanian during deposition of the Khadum and Riki Formations respectively. However, geochemical conditions were unstable and the oxygen concentration in the bottom waters varied widely over time. Thus, the Zuramakent Formation at the top of the Maikop Group was largely deposited in normally oxygenated conditions.

新高加索达吉斯坦渐新统-中新统下迈科普群地层学、沉积学和地球化学
在达吉斯坦(高加索东北部)的苏拉克河流域,暴露出一段较为完整的迈科普群(渐新世—中新世下)剖面,其中包含了东帕拉特提斯这部分的沉积记录。在Sulak河露头处,Maikop群厚度约1200 m,可划分为6个岩性明确的地层:从基底向上为Khadum组(Rupelian)、Miatly组、下Clayey组、Mutsidakal组(Chattian)、Riki组和Zuramakent组(下中新世)。Khadum组位于始新统上部Belaya Glina组上,其边界标志着一个明显的岩性转变,从下部的浅色生物干扰灰岩到上部的黑色富有机质页岩。通过对苏拉克河剖面钙质纳米浮游生物的生物地层学研究,确定了迈可普群底部始新世-渐新世界线的位置。边界发生在CP16a和CP16b亚带分界附近的CP16带内。这与达吉斯坦以西约200公里的北高加索中部Kabardino-Balkaria的Kheu河沿岸参考露头的边界年龄一致。正氧稳定同位素异常出现在贝拉亚-格里纳组顶部。Maikop组样品的TOC含量变化范围在0.14%至11.06 wt. %之间。在Khadum组富含碳酸盐和粘土的样品中测量到的值最高,而在上覆的渐新世Miatly组、下粘土组和Mutsidacal组的砂岩中测量到的值最低(小于0.5 wt.%)。中新世下Riki组和Zuramakent组样品TOC值中等(平均大于1.5 wt.%)。岩石热解结果表明,Maikop样品中含有ⅱ型和ⅲ型干酪根,其在地层中分布不均匀。含ⅱ型干酪根的Khadum组上段富泥岩生油潜力最大,初始氢指数为400 ~ 600 mg HC/g TOC。岩石评价S1值增大,生产指数S1/(S1+S2)较高,表明米特利组砂岩和粉砂岩中含有运移沥青。上覆渐新统—中新统下岩石主要含III型干酪根,但Riki组样品TOC值升高表明其气源潜力不大。对苏拉克剖面Maikop群沉积物样品进行了Mo、S、Fe、Mn、V、Ni等元素含量分析。计算了停滞系数(Mo/Mn x 100),并将其解释为Maikop古盆地缺氧强度的度量。在Khadum组和Riki组沉积期间,鲁伯利期和阿基坦期缺氧条件分别达到最大值。然而,地球化学条件不稳定,海底氧气浓度随时间变化很大。因此,Maikop群顶部的Zuramakent组大部分沉积在正常的氧化条件下。
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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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