The Role of Deep Geofluids in the Enrichment of Sedimentary Organic Matter: A Case Study of the Late Ordovician-Early Silurian in the Upper Yangtze Region and Early Cambrian in the Lower Yangtze Region, South China

Organic matter is the material basis for shales to generate hydrocarbon, as well as the main reservoir space and seepage channel for shale gas. When the thermal evolution degree is consistent, the organic carbon content in present shales is subject to the abundance of primitive sedimentary organic m...

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Bibliographic Details
Published in:Geofluids 2020, Vol.2020 (2020), p.1-12
Main Authors: Wen, Ming, Huang, Yizhou, Zhong, Li, Liu, Pei, Jiang, Xiaojun, Zeng, Yao, Yang, Yiming, Cheng, Sihong, Xia, Qingsong, Li, Bin, Liu, Weiwei, Peng, Jun, Zhang, Kun, Liu, Dongmei
Format: Article
Language:English
Subjects:
Cambrian
Carbon content
Case studies
Climate change
Climate change influences
Enrichment
Fossils
Gases
Geology
Hydrothermal fields
Influence
Liu, Timothy
Nutrients
Ordovician
Organic carbon
Organic matter
Oxidation
Oxidation-reduction potential
Productivity
Sedimentary rocks
Sedimentation & deposition
Seepage
Shale
Shale gas
Shale oils
Shales
Silurian
Thermal evolution
Volcanic activity
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Summary:Organic matter is the material basis for shales to generate hydrocarbon, as well as the main reservoir space and seepage channel for shale gas. When the thermal evolution degree is consistent, the organic carbon content in present shales is subject to the abundance of primitive sedimentary organic matter. Deep geofluids significantly influence the sedimentary organic matter’s enrichment, but the mechanism remains unclear. This paper is aimed at determining how hydrothermal and volcanic activities affected the enrichment of sedimentary organic matter by studying lower Cambrian shales in the lower Yangtze region and upper Ordovician-lower Silurian shales. Oxidation-reduction and biological productivity are used as indicators in the study. The result shows that hydrothermal or volcanic activities affected the enrichment of sedimentary organic matter by influencing climate changes and the nutrients’ sources on the waterbody’s surface and reducing water at the bottom. In the lower Cambrian shales of the Wangyinpu Formation in the lower Yangtze region, hydrothermal origin caused excess silicon. During the sedimentary period of the lower and middle-upper Wangyinpu Formation, vigorous hydrothermal activities increased the biological productivity on the waterbody’s surface and intensified the reducibility at the bottom of the waterbody, which enabled the rich sedimentary organic matter to be well preserved. During the sedimentary period of the lower upper Ordovician Wufeng Formation and the lower Silurian Longmaxi Formation in the upper Yangtze region, frequent volcanic activities caused high biological productivity on the waterbody surface and strong reducibility at the bottom of the waterbody. As a result, the abundant organic matter deposited from the water surface can be well preserved. During the sedimentary period of the upper Longmaxi Formation, volcanic activities died down gradually then disappeared, causing the biological productivity on the water surface to decrease. Besides, the small amount of organic matter deposited from the water surface was destroyed due to oxidation.
ISSN:1468-8115
1468-8123
DOI:10.1155/2020/8868638