A reverse biomarker-derived maturity trend in Triassic Yanchang Formation shales from the Ordos Basin in China

IF 4.2 3区工程技术 Q2 ENERGY & FUELS

Natural Gas Industry B Pub Date : 2024-10-01 DOI:10.1016/j.ngib.2024.09.008

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Abstract

Organic-rich shales from the Triassic Yanchang Formation in the Ordos Basin in China are mainly derived from aquatic organisms with type II kerogen. A reverse maturity trend, derived from the commonly used biomarker maturity parameter Ts/(Ts + Tm) occurs in the depth profiles of the Chang 7₃ submember and the Chang 8 member. In contrast, maturity proxies derived from aromatic compounds show a normal sequence for more deeply buried Chang 8 samples exhibiting higher maturity levels, as expected. To explain the abnormal phenomenon, multiple controlling factors—including the paleoredox condition, water salinity, the clay mineral content and composition, biodegradation, the primary migration fractionation effect, and organofacies—are considered. It was found that organofacies BC (HI_o = 400-250) appear in the Chang 8 samples, while organofacies B (HI_o = 400-650) appear in the Chang 7₃ submember. The results suggest that variation in organofacies has a significant impact on Ts/(Ts + Tm) values, even for samples with the same kerogen type and similar source input, and is primarily responsible for the reverse maturity trend in the depth profiles.

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中国鄂尔多斯盆地三叠纪延长地层页岩的反向生物标志物成熟度趋势

中国鄂尔多斯盆地三叠系延长组富含有机质的页岩主要来自水生生物，具有第二类角质。根据常用的生物标志物成熟度参数Ts/（Ts + Tm），在长73亚成岩和长8成岩的深度剖面中出现了反向成熟度趋势。与此相反，从芳香族化合物中提取的成熟度代用指标显示，埋藏较深的 Chang 8 样品的成熟度较高，呈现出正常的序列。为了解释这一异常现象，考虑了多种控制因素，包括古氧化还原条件、水盐度、粘土矿物含量和组成、生物降解、原生迁移分馏效应和有机层。研究发现，有机成因 BC（HIo = 400-250）出现在 Chang 8 样品中，而有机成因 B（HIo = 400-650）出现在 Chang 73 亚成员中。结果表明，有机质的变化对Ts/（Ts + Tm）值有显著影响，即使是具有相同角质类型和相似来源输入的样品也是如此，并且是造成深度剖面中反向成熟趋势的主要原因。

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来源期刊

Natural Gas Industry B Earth and Planetary Sciences-Geology

CiteScore

5.80

自引率

6.10%

发文量

审稿时长

79 days