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Relating sulfate and methane dynamics to geology: Accretionary prism offshore SW Taiwan (2013)

Chuang, Pei-Chuan ; Dale, Andrew W. ; Wallmann, Klaus ; [et al.]

AGU (American Geophysical Union) | Wiley

In: Geochemistry, Geophysics, Geosystems, 14 (7). pp. 2523-2545.

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Publication Date: 2018-02-28

Description: Geochemical data (CH4, SO42−, I−, Cl−, particulate organic carbon (POC), δ13C-CH4, and δ13C-CO2) are presented from the upper 30 m of marine sediment on a tectonic submarine accretionary wedge offshore southwest Taiwan. The sampling stations covered three ridges (Tai-Nan, Yung-An, and Good Weather), each characterized by bottom simulating reflectors, acoustic turbidity, and different types of faulting and anticlines. Sulfate and iodide concentrations varied little from seawater-like values in the upper 1–3 m of sediment at all stations; a feature that is consistent with irrigation of seawater by gas bubbles rising through the soft surface sediments. Below this depth, sulfate was rapidly consumed within 5–10 m by anaerobic oxidation of methane (AOM) at the sulfate-methane transition. Carbon isotopic data imply a mainly biogenic methane source. A numerical transport-reaction model was used to identify the supply pathways of methane and estimate depth-integrated turnover rates at the three ridges. Methane gas ascending from deep layers, facilitated by thrusts and faults, was by far the dominant term in the methane budget at all sites. Differences in the proximity of the sampling sites to the faults and anticlines mainly accounted for the variability in gas fluxes and depth-integrated AOM rates. By comparison, methane produced in situ by POC degradation within the modeled sediment column was unimportant. This study demonstrates that the geochemical trends in the continental margins offshore SW Taiwan are closely related to the different geological settings.

Type: Article , PeerReviewed

Format: text

DOI: 10.1002/ggge.20168

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OceanRep: Article in a Scientific Journal - peer-reviewed

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Relating sulfate and methane dynamics to geology: The accretionary prism offshore SW Taiwan (2013)

Pei-Chuan Chuang, Andrew W. Dale, Klaus Wallmann, Matthias Haeckel, Tsanyao Frank Yang, Nai-Chen Chen, Hsiao-Chi Chen, Hsuan-Wen Chen, Saulwood Lin, Chih-Hsien Sun, Chen-Feng You, Chorng-Shern Horng, Yunshuen Wang, San-Hsiung Chung

Wiley-Blackwell

In: Geochemistry Geophysics Geosystems (G3)

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Publication Date: 2013-05-14

Description: [1] Geochemical data (CH 4 , SO 4 2– , I – , Cl – , particulate organic carbon (POC), δ 13 C–CH 4 and δ 13 C–CO 2 ) are presented from the upper 30 m of marine sediment on a tectonic submarine accretionary wedge offshore southwest Taiwan. The sampling stations covered three ridges (Tai–Nan, Yung–An and Good Weather), each characterized by bottom simulating reflectors, acoustic turbidity and different types of faulting and anticlines. Sulfate and iodide concentrations varied little from seawater-like values in the upper 1-3 m of sediment at all stations; a feature which is consistent with irrigation of seawater by gas bubbles rising through the soft surface sediments. Below this depth, sulfate was rapidly consumed within 5 to 10 m by anaerobic oxidation of methane (AOM) at the sulfate-methane transition. Carbon isotopic data imply a mainly biogenic methane source. A numerical transport-reaction model was used to identify the supply pathways of methane and estimate turnover rates at the three ridges. Methane gas ascending from deep layers, facilitated by thrusts and faults, was by far the dominant term in the methane budget at all sites. Differences in the proximity of the sampling sites to the faults and anticlines mainly accounted for the variability in gas fluxes and AOM rates. By comparison, methane produced in situ by POC degradation within the modeled sediment column was unimportant. This study demonstrates that the geochemical trends in the continental margins offshore SW Taiwan are closely related to the different geological settings.

Electronic ISSN: 1525-2027

Topics: Chemistry and Pharmacology , Geosciences , Physics

Published by Wiley-Blackwell on behalf of American Geophysical Union (AGU).

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Production, consumption, and migration of methane in accretionary prism of southwestern Taiwan (2017)

Nai-Chen Chen, Tsanyao Frank Yang, Wei-Li Hong, Hsuan-Wen Chen, Hsiao-Chi Chen, Chin-Yi Hu, Yu-Chun Huang, Saulwood Lin, Li-Hung Lin, Chih-Chieh Su, Wei-Zhi Liao, Chih-Hsien Sun, Pei-Ling Wang, Tao Yang, Shao-yong Jiang, Char-Shine Liu, Yunshuen Wang, San-Hsiung Chung

Wiley-Blackwell

In: Geochemistry Geophysics Geosystems (G3)

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Publication Date: 2017-07-16

Description: To systematically quantify the production, consumption and migration of methane along a continental margin, 210 sediment cores were collected from offshore southwestern Taiwan and analyzed for their gas and aqueous geochemistry. These data, combined with published results, were used to calculate the diffusive methane fluxes across different geochemical transitions and to develop scenarios of mass balance to constrain deep microbial and thermogenic methane production rates within the accretionary prism. The results showed that methane diffusive fluxes ranged from 2.71 × 10 −3 to 2.78 × 10 −1 and from ‒1.88 × 10 −1 to 3.97 mmol m −2 d −1 at the sulfate-methane-transition-zone (SMTZ) and sediment-seawater interfaces, respectively. High methane fluxes tend to be associated with structural features, suggesting a strong structural control on the methane transport. A significant portion of ascending methane (〉50%) is consumed by anaerobic oxidation of methane at the SMTZ at most sites, indicating effective biological filtration. Gas compositions and isotopes revealed a transition from the predominance of microbial methane in the passive margin to thermogenic methane at the upper slope of the active margin and onshore mud volcanoes. Methane production and consumption at shallow depths were nearly offset with a small fraction of residual methane discharged into seawater. The flux imbalance arose primarily due to the larger production of methane through deep microbial and thermogenic processes at a magnitude of 1,512 – 43,096 Tg Myr −1 methane and could be likely accounted for by the sequestration of methane into hydrate forms, and clay absorption.

Electronic ISSN: 1525-2027

Topics: Chemistry and Pharmacology , Geosciences , Physics

Published by Wiley-Blackwell on behalf of American Geophysical Union (AGU).

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