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W2910921282 endingPage "40" @default.
W2910921282 startingPage "29" @default.
W2910921282 abstract "Fluid flow patterns at cold seeps provide insights into the mechanism and influence of methane emission into the ocean, which is critical in its environmental impact assessment. Here, we report pore fluid compositions of three ∼8 m long piston cores (QDN-14A, QDN-14B and R1) collected from the newly-discovered active Haima cold seeps on the northwestern slope of the South China Sea. Reaction-transport models were further applied to quantify related biogeochemical processes and to reveal the patterns of fluid flow. Extremely low δ13C values (<−52‰) of dissolved inorganic carbon (DIC) near the sulfate-methane transition in the three cores suggest that anaerobic oxidation of methane is the predominant biogeochemical process. The presence of small pieces of gas hydrates along with negative anomalies of porewater chloride and sodium concentrations reflects gas hydrate dissociation. Nearly invariable concentrations of sulfate, DIC, and calcium on a meter-scale were observed in the uppermost part of the sediment cores QDN-14A and QDN-14B. This irrigation-like feature is inferred to result from enhanced methane flux in QDN-14A and QDN-14B. We infer that lateral migration of methane-rich fluids from R1 site to QDN-14A and QDN-14B sites together with upward migrated methane is responsible for the enhanced methane flux. This speculation is supported by the occurrence of gas hydrates which might have clogged the fluid channel in the seepage center (R1) and driven the transportation of methane-bearing fluid along a coarser sediment layer in surrounding sediments (QDN-14A and QDN-14B). The proposed scenario is further demonstrated using a non-steady-state modeling that reconstructed the porewater irrigation-like feature assuming an increased methane flux. The modeling result predicts that gas-hydrate formation in core R1 started at least 150 yr B.P. The proposed fluid flow pattern within a localized seep site may have a great implication for understanding the heterogeneity of sedimentary records." @default.
W2910921282 created "2019-01-25" @default.
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W2910921282 date "2019-05-01" @default.
W2910921282 modified "2023-10-18" @default.
W2910921282 title "Pore fluid compositions and inferred fluid flow patterns at the Haima cold seeps of the South China Sea" @default.
W2910921282 cites W1199166739 @default.
W2910921282 cites W1612517152 @default.
W2910921282 cites W1799510633 @default.
W2910921282 cites W1964653390 @default.
W2910921282 cites W1971867610 @default.
W2910921282 cites W1976204754 @default.
W2910921282 cites W1976255891 @default.
W2910921282 cites W1978746405 @default.
W2910921282 cites W1979043629 @default.
W2910921282 cites W1984471612 @default.
W2910921282 cites W1985779982 @default.
W2910921282 cites W1992383576 @default.
W2910921282 cites W1992676307 @default.
W2910921282 cites W1998014287 @default.
W2910921282 cites W2005041858 @default.
W2910921282 cites W2005541915 @default.
W2910921282 cites W2006113617 @default.
W2910921282 cites W2008680648 @default.
W2910921282 cites W2009136031 @default.
W2910921282 cites W2013002804 @default.
W2910921282 cites W2020678859 @default.
W2910921282 cites W2021856491 @default.
W2910921282 cites W2023362491 @default.
W2910921282 cites W2024947601 @default.
W2910921282 cites W2028654944 @default.
W2910921282 cites W2032375832 @default.
W2910921282 cites W2032808902 @default.
W2910921282 cites W2032854853 @default.
W2910921282 cites W2041166777 @default.
W2910921282 cites W2046518911 @default.
W2910921282 cites W2048773359 @default.
W2910921282 cites W2052003117 @default.
W2910921282 cites W2058697647 @default.
W2910921282 cites W2061359881 @default.
W2910921282 cites W2061624993 @default.
W2910921282 cites W2062393229 @default.
W2910921282 cites W2063690807 @default.
W2910921282 cites W2063897302 @default.
W2910921282 cites W2064358580 @default.
W2910921282 cites W2067890461 @default.
W2910921282 cites W2070292413 @default.
W2910921282 cites W2070854806 @default.
W2910921282 cites W2076477280 @default.
W2910921282 cites W2080273936 @default.
W2910921282 cites W2082887649 @default.
W2910921282 cites W2083659886 @default.
W2910921282 cites W2084001960 @default.
W2910921282 cites W2087156935 @default.
W2910921282 cites W2089139281 @default.
W2910921282 cites W2089602988 @default.
W2910921282 cites W2094053702 @default.
W2910921282 cites W2094397205 @default.
W2910921282 cites W2096271614 @default.
W2910921282 cites W2122547600 @default.
W2910921282 cites W2133828667 @default.
W2910921282 cites W2135003228 @default.
W2910921282 cites W2139847732 @default.
W2910921282 cites W2146418625 @default.
W2910921282 cites W2162107715 @default.
W2910921282 cites W2165586855 @default.
W2910921282 cites W2170903123 @default.
W2910921282 cites W2173948703 @default.
W2910921282 cites W2175012702 @default.
W2910921282 cites W2333925881 @default.
W2910921282 cites W2468775417 @default.
W2910921282 cites W2510058194 @default.
W2910921282 cites W2523913972 @default.
W2910921282 cites W2550471339 @default.
W2910921282 cites W2562059892 @default.
W2910921282 cites W2566522728 @default.
W2910921282 cites W2589289013 @default.
W2910921282 cites W2607847102 @default.
W2910921282 cites W2622424069 @default.
W2910921282 cites W2737282851 @default.
W2910921282 cites W2782179343 @default.
W2910921282 cites W2810118754 @default.
W2910921282 doi "https://doi.org/10.1016/j.marpetgeo.2019.01.007" @default.
W2910921282 hasPublicationYear "2019" @default.
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