Bicyclic alkanes in source rocks of the Triassic Yanchang Formation in the Ordos Basin and their inconsistency in oil-source correlation

Discovery and geological significance of the Magma-hydrothermal micro-jets at the bottom of a lake: A case from the Chang 7 section of the Yanchang Formation of the Triassic in the Ordos Basin, China

10.5194/egusphere-egu2020-6331 ◽

2020 ◽

Author(s):

Jiyuan You ◽

Yiqun Liu ◽

Dingwu Zhou

Keyword(s):

Hydrothermal Vents ◽

Ordos Basin ◽

Hydrothermal Activity ◽

Life Forms ◽

Major Elements ◽

Source Rocks ◽

Geological History ◽

Yanchang Formation ◽

The Ordos Basin

<p>The "black chimney" type of hydrothermal vents in the modern deep sea have become a popular research topic in many disciplines. Due to the actual conditions, the research on palaeo-thermal vents in geological history is relatively low. Fortunately, the discovery of hydrothermal vents and bio-fossils from the Chang 7 source rocks of the Yanchang Formation of the Triassic in the Ordos Basin, China, provides the best evidence for deciphering hydrothermal activity during geological history. Here, we report a case study. Through ordinary sheet observation, scanning electron microscopy and electron probe observation, layered grained siliceous rocks, dolomites, and hydrothermal mineral combinations, such as pyrite + dolomite + gypsum and calcite + barite, are found. Their unique petrological characteristics, mineral composition, and structure confirm the existence of palaeo-thermal fluid vents. We further analysed the geochemical characteristics and in situ isotope characteristics. The study found that Cs, U, Th, Pb, Ba and other trace elements of the sample showed positive abnormalities, in which values of U/Th were high; in addition, the enrichment of major elements such as Sr, Mn, and the in situ sulphur isotopes of pyrite reached 7.89%-10.88%. This study of hydrothermal vents over geological history is expected to provide new insights on the life forms of various extreme microorganisms in hydrothermal environments and on their formation of high-quality source rocks.</p>

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Depocenter migration of the Ordos Basin in the late Triassic and its controls on shale distribution

Interpretation ◽

10.1190/int-2016-0101.1 ◽

2017 ◽

Vol 5 (2) ◽

pp. SF81-SF98

Author(s):

Jing Wang ◽

Xiangbo Li ◽

Huaqing Liu ◽

Xiuqin Deng ◽

Rong Wanyan

Keyword(s):

Oil Shale ◽

Ordos Basin ◽

Source Rocks ◽

Late Triassic ◽

The South ◽

Deep Lake ◽

The West ◽

Resource Potential ◽

Yanchang Formation ◽

The Ordos Basin

The Ordos Basin has abundant conventional and unconventional oil and gas resources. Focusing on shale oil in the Ordos Basin, we studied the distribution, depositional features, and resource potential of shales in the upper Triassic Yanchang Formation based on the Ordos Basin development and depocenter migration. During the late Triassic, the Ordos Basin was a large cratonic sedimentary basin that bordered to the Hexi Corridor to the west, the southern North China block to the east, the Qilian and western Qinling orogenic zone to the south, and the foot of the Yin Mountains to the north. During deposition of the Yanchang Formation, its depocenter was not fixed. It migrated to the west before deposition of the Chang 7 oil layer and to the south after deposition of the Chang 7 oil layer. Controlled by the depocenter migration and relevant deep-lake facies, the Yanchang Formation mainly developed two sets of source rocks. The dark mudstone and shale in the Chang 9 oil layer is chiefly distributed in the south-central region of the basin, with thicknesses of 4–16 m and covers an area of approximately [Formula: see text]. The shales in the Chang 7 oil layer can be divided into two types, black oil shale and dark mudstone, and they are much thicker and more widespread than the dark mudstone in the Chang 9 oil layer. The black shale alone can be up to 60 m thick, and covers an area of more than [Formula: see text]. The shales in the Chang 7 and 9 oil layers were mainly formed in a deep-lake environment that produced high concentrations of organic matter and large hydrocarbon generation potential. According to preliminary estimates, the Chang 7 oil shale may contain [Formula: see text] of oil, thereby representing a huge resource potential with broad exploration prospectivity.

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The Oil Source Analysis of Rare Earth Elements and Transition Group Metal Elements Extracted from Asphaltenes by Oil Sands and Hydrocarbon Source Rocks—A Case Study of the Lower Assemblage of Yanchang Formation in Yan’an Region, Ordos Basin

Advances in Geosciences ◽

10.12677/ag.2020.1012122 ◽

2020 ◽

Vol 10 (12) ◽

pp. 1256-1265

Author(s):

忠义张

Keyword(s):

Rare Earth ◽

Rare Earth Elements ◽

Oil Sands ◽

Ordos Basin ◽

Source Rocks ◽

Source Analysis ◽

Yanchang Formation ◽

Oil Source ◽

Yan’An Region

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Geochemical significance of 17α(H)-diahopane and its application in oil-source correlation of Yanchang formation in Longdong area, Ordos basin, China

Marine and Petroleum Geology ◽

10.1016/j.marpetgeo.2015.10.016 ◽

2016 ◽

Vol 71 ◽

pp. 238-249 ◽

Cited By ~ 21

Author(s):

Weiwei Yang ◽

Guangdi Liu ◽

Yuan Feng

Keyword(s):

Ordos Basin ◽

Yanchang Formation ◽

Source Correlation ◽

Geochemical Significance ◽

Oil Source

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Grain composition and diagenesis of organic-rich lacustrine tarls, Triassic Yanchang Formation, Ordos Basin, China

Interpretation ◽

10.1190/int-2016-0092.1 ◽

2017 ◽

Vol 5 (2) ◽

pp. SF189-SF210 ◽

Cited By ~ 12

Author(s):

Kitty L. Milliken ◽

Ying Shen ◽

Lucy T. Ko ◽

Quansheng Liang

Keyword(s):

Ordos Basin ◽

Source Rocks ◽

Barnett Shale ◽

Solid Hydrocarbon ◽

Pore Filling ◽

Grain Composition ◽

Yanchang Formation ◽

The Ordos Basin ◽

Quartz Grains

The role of the primary detrital grain assemblage as a control on diagenetic pathways is reasonably well-understood in sandstones and limestones, but less so in mudrocks. We have documented diagenesis in mudstones from the Triassic Yanchang Formation that are dominated ([Formula: see text] by volume) by grains derived from outside the basin of deposition (terrigenous-argillaceous mudstones or tarls). Major extrabasinal grains are K-rich clay, quartz, plagioclase, K-feldspar, lithic fragments, and micas. In terms of the quartz-feldspar-lithic grain compositions, the silt fraction in these samples is classified as arkose. Grains of intrabasinal derivation include particulate organic matter, phosphatic debris, and rare carbonate allochems. The principal chemical diagenetic components in these mudrocks have strongly localized spatial distributions at micrometer to centimeter scales. Chemical diagenetic components include cone-in-cone structures, replacements of detrital feldspar, pore-filling precipitates within anomalously large pores, pore-filling solid hydrocarbon, and very minor quartz overgrowths associated with local packing flaws around silt-size detrital quartz grains. Matrix-dispersed intergranular cementation, as observed in well-known organic-rich marine mudstones, such as the Barnett Shale and the Eagle Ford Formation, is not observed in Yanchang Formation lacustrine mudstones. The authigenic features present are consistent with the thermal maturity of the units ([Formula: see text]) and are broadly similar to features observed in other mudstones that contain grain assemblages dominated by particles of extrabasinal derivation. The low porosity and the absence of significant amounts of intergranular cement indicate that compactional porosity loss and in-filling by migrated solid hydrocarbon were the major causes of porosity decline during diagenesis of Yanchang Formation mudrocks. Although the mudstones of the Yanchang Formation have a relatively high content of organic carbon and serve as source rocks in the Ordos Basin, the depositional grain assemblage is not conducive to creation of porosity, permeability, and mechanical properties that would make these mudrocks effective unconventional reservoirs.

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