Depositional environments and source rock potential from molecular to basin scales: An example from the Middle to Upper Cretaceous succession, Abu Gharadig Basin, Egypt

IF 1.8 3区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

International Journal of Earth Sciences Pub Date : 2024-08-30 DOI:10.1007/s00531-024-02451-5

Haytham El Atfy, Bandar I. Ghassal, Linda Burnaz, Salah Y. El Beialy

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Abstract

We present a case study of high-resolution screening and integration of palynological and organic geochemical methodologies in the TSW-21 well in the Abu Gharadig Basin, north Western Desert of Egypt. A total of 84 cores and cuttings samples were analyzed for TOC wt%, Rock–Eval pyrolysis, molecular geochemistry, vitrinite reflectance (R_o%), and palynology. The categorization of dispersed organic matter in palynological macerals shows that it differs not only in palynofacies properties but also in distinct palynomorph characteristics (mainly abundance, diversity, marine versus non-marine, and preservation). The work highlights the value of integrating optical and geochemical methods in screening hydrocarbon source rock potential, and the implications for kerogen examination and the reconstruction of depositional environments. In the present study, data indicate a marine, near-shore depositional environment of the middle Cretaceous Bahariya Formation, and more open-marine conditions for the overlying strata of the Upper Cretaceous Abu Roash Formation. A variety of kerogen types (II/III, II, III, and IV) is predominant in the Bahariya Formation and is mainly gas-prone (highly phytoclastic and rich in amorphous organic matter [AOM]). In contrast, the Abu Raoash Formation yielded highly oil-prone Type II > I kerogen (AOM-rich). Thermal maturity proxies including Rock–Eval pyrolysis (T_max), R_o%, and Spore Coloration Index (SCI) reveal that the Bahariya and Abu Raoash formations are immature.

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从分子尺度到盆地尺度的沉积环境和源岩潜力：以埃及阿布-加拉迪格盆地中上白垩世演替为例

摘要我们介绍了在埃及西部沙漠北部 Abu Gharadig 盆地的 TSW-21 井中进行的高分辨率筛选和整合古植物学与有机地球化学方法的案例研究。共对 84 个岩心和岩屑样本进行了 TOC wt%、Rock-Eval 热解、分子地球化学、玻璃光泽反射率（Ro%）和古生物学分析。对古生物学大颗粒样本中分散有机物的分类表明，这些有机物不仅在古生界特性上存在差异，而且在古生形态特征（主要是丰度、多样性、海洋性与非海洋性以及保存情况）上也各不相同。这项工作凸显了综合使用光学和地球化学方法筛选烃源岩潜力的价值，以及对角质层检查和沉积环境重建的影响。在本研究中，数据表明中白垩世巴哈利亚地层的沉积环境为海洋近岸沉积环境，而上白垩世阿布罗阿什地层的上覆地层的沉积环境则更为开阔。巴哈利亚地层中主要存在各种类型的角质（II/III、II、III 和 IV），主要为气体易溶岩（高度植蚀作用，富含无定形有机质 [AOM]）。与此相反，阿布拉奥什地层出产的是高度易生石油的 II > I 型角质（富含 AOM）。热成熟度代用指标，包括岩石-评价热解（Tmax）、Ro%和孢子着色指数（SCI），揭示了巴哈利亚地层和阿布拉奥什地层是不成熟的。

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来源期刊

International Journal of Earth Sciences 地学-地球科学综合

CiteScore

4.60

自引率

4.30%

发文量

120

审稿时长

4-8 weeks

期刊介绍： The International Journal of Earth Sciences publishes process-oriented original and review papers on the history of the earth, including - Dynamics of the lithosphere - Tectonics and volcanology - Sedimentology - Evolution of life - Marine and continental ecosystems - Global dynamics of physicochemical cycles - Mineral deposits and hydrocarbons - Surface processes.