Pore-Water Geochemical Gradients of Sulfate, Calcium, Magnesium, and Iodide Correlated With Underlying Gas Hydrate Potential: A Case Study of the Shenhu Area, South China Sea

Ai, Xinyu; Zha, Rihuan; Lai, Yijun; Yang, Tao; Su, Pibo

doi:10.3389/feart.2022.882207

Front. Earth Sci.

2022

DOI: 10.3389/feart.2022.882207

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Pore-Water Geochemical Gradients of Sulfate, Calcium, Magnesium, and Iodide Correlated With Underlying Gas Hydrate Potential: A Case Study of the Shenhu Area, South China Sea

Xinyu Ai

Rihuan Zha²,

Yijun Lai³

et al.

Abstract: Geochemical profiles in pore water of marine sediments have been considered as, important indicators of gas hydrate occurrence. In the gas hydrate area around the world, the decrease of sulfate, calcium, and magnesium concentrations with depth mainly results directly or indirectly from the anaerobic oxidation of methane (AOM). The ubiquitous abnormally high concentration gradients of iodide in the research area reflect the large methane-generating potential of the area. Thus, we explore the feasibility of usin… Show more

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“…A total of 30 research papers and abstracts publishing in this topic present exciting and distinguishing detections and conceptions on understanding the properties of GHs.General natural principles of geology, geochemistry and geophysics are extensively adopted to explore GH-related system in fields. Ai et al (2022), Feng C. et al, Feng J. et al (2022), and Kong et al (2022 focus on the records of methanogenesis and anaerobic oxidation of methane in shallow sediments and investigate related methane seepage activities in northern SCS. ), Liu et al, Song et al and Xing et al (2022 use in-situ seismic and logging data and drilling cores to investigate the existence and characteristics of GH in sediments.…”

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Editorial: Gas hydrate appearance, accumulation, exploration and exploitation in continental margins

Guan²,

Wan³

et al. 2023

Front. Earth Sci.

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Editorial on the Research Topic Gas hydrate appearance, accumulation, exploration and exploitation in continental margins Gas hydrate (GH) is so fascinating whether in exploring natural principle of geological evolution or for pursuing economic benefits of human sustainable development. GH plays an essential role in global carbon cycle and climate change. Two prominent events, the Paleocene-Eocene thermal maximum (PETM) and the three submarine Storegga Slides off Norway's continental shelf, are typical consequences subjected to GH dissociation with scales from global continental to local shelf (Paull et al., 2007;Ruppel and Kessler, 2017). Spanning from cold Alaska and Siberia permafrost zones, to busy merchant nautical routes in warm seas, like the north South China Sea (SCS), Nankai Trough, northeast India Ocean, and northern Gulf of Mexico, many governments and petroleum companies pay great interests on utilizing the huge resource potential of GHs.Our Research Topic is divided into two format-separate and content-coherent volumes, aims to deepen theoretical cognition and broaden technological applications on the exploration and exploitation of GH-bearing sediments, including the appearance, accumulation, and abundance. A total of 30 research papers and abstracts publishing in this topic present exciting and distinguishing detections and conceptions on understanding the properties of GHs.General natural principles of geology, geochemistry and geophysics are extensively adopted to explore GH-related system in fields. Ai et al. (2022), Feng C. et al., Feng J. et al. (2022), and Kong et al. (2022 focus on the records of methanogenesis and anaerobic oxidation of methane in shallow sediments and investigate related methane seepage activities in northern SCS. ), Liu et al., Song et al. and Xing et al. (2022 use in-situ seismic and logging data and drilling cores to investigate the existence and characteristics of GH in sediments. In addition, many authors theoretically evaluate the influence of sedimentary geological structure on the accumulation of free gases and hydrates (

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mentioning

confidence: 99%

Editorial: Gas hydrate appearance, accumulation, exploration and exploitation in continental margins

Guan²,

Wan³

et al. 2023

Front. Earth Sci.

Self Cite

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Pore-Water Geochemical Gradients of Sulfate, Calcium, Magnesium, and Iodide Correlated With Underlying Gas Hydrate Potential: A Case Study of the Shenhu Area, South China Sea

Cited by 1 publication

References 81 publications

Editorial: Gas hydrate appearance, accumulation, exploration and exploitation in continental margins

Editorial: Gas hydrate appearance, accumulation, exploration and exploitation in continental margins

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