SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2020405454> ?p ?o ?g. }

Showing items 1 to 100 of ±156 with 100 items per page.

W2020405454 endingPage "2962" @default.
W2020405454 startingPage "2943" @default.
W2020405454 abstract "Analyses of fluid inclusions in plutonic rocks recovered from the slow‐spreading Southwest Indian Ridge (SWIR) record CH 4 concentrations of 15–40 times those of hydrothermal vent fluids and of basalt‐hosted volcanic gases and provide the first direct sampling of CO 2 ‐CH 4 ‐H 2 O‐H 2 ‐C‐bearing fluids in the oceanic crust. Compositional, thermal, and spatial analyses of these fluids are used to model the evolution of volatiles during the crystallization and cooling of mid‐ocean ridge magma chambers and to assess the potential importance of carbon‐bearing fluids in geochemical processes in the lower crustal component of hydrothermal systems. Results from these analyses show that the earliest fluids to be exsolved from the melts are dominated by CO 2 ‐rich vapors, which with progressive fractionation evolved to more H 2 O‐rich compositions. These later fluids were most likely exsolved under immiscible conditions and involved the development of CO 2 ‐H 2 O‐rich vapors and CO 2 ‐H 2 O‐NaCl brines that were trapped during mineral growth, as well as during later high‐temperature fracturing events. CO 2 + CH 4 ± H 2 O‐rich fluids in olivine and plagioclase minerals that contain up to 30–50 mol % CO 2 and 33 mol % CH 4 may reflect respeciation of magmatic CO 2 during cooling and attendant graphite precipitation. Phase equilibria suggest that these fluids reequilibrated at ∼500°–600°C and at f O 2 's ∼ −3 log units below, to close to QFM conditions. Alternatively, the inclusions may record respeciation of magmatic fluids attendant with the inward diffusion of H 2 into the inclusions and reduction of entrapped CO 2 during degassing and cooling of the gabbros throughout the subsolidus regime. Subsequent seawater reaction, at minimum temperatures of ∼400°C, with mafic‐rich layers within the gabbroic rocks or with ultramafic material that underlies the plutonic sequence resulted in the formation of CH 4 ‐H 2 O fluids that contain up to 40 mol % CH 4 , molecular H 2 , and graphite(?) daughter minerals. These data provide strong evidence that the CH 4 ‐H 2 O‐rich fluids produced during serpentinization reactions were trapped under equilibrium conditions in the presence of graphite at very near to QFM conditions. The ubiquitous occurrence of CH 4 ‐rich fluids in oceanic crustal layer 3 rocks from the SWIR indicates that these fluids may be a significant and previously unrecognized source for these volatile species in some hydrothermal systems venting on the seafloor and that the deep‐seated fluids most likely play an important role in the transfer of carbon from the lithosphere to the hydrosphere." @default.
W2020405454 created "2016-06-24" @default.
W2020405454 creator A5063550735 @default.
W2020405454 date "1996-02-10" @default.
W2020405454 modified "2023-10-17" @default.
W2020405454 title "Methane‐rich fluids in the oceanic crust" @default.
W2020405454 cites W121624279 @default.
W2020405454 cites W135626895 @default.
W2020405454 cites W1502917427 @default.
W2020405454 cites W1569298414 @default.
W2020405454 cites W175151556 @default.
W2020405454 cites W193370860 @default.
W2020405454 cites W1970196312 @default.
W2020405454 cites W1970548478 @default.
W2020405454 cites W1970833454 @default.
W2020405454 cites W1974234490 @default.
W2020405454 cites W1976003896 @default.
W2020405454 cites W1977664265 @default.
W2020405454 cites W1977709697 @default.
W2020405454 cites W1980906311 @default.
W2020405454 cites W1990935332 @default.
W2020405454 cites W1994723472 @default.
W2020405454 cites W2000174243 @default.
W2020405454 cites W2000913813 @default.
W2020405454 cites W2007738410 @default.
W2020405454 cites W2012870221 @default.
W2020405454 cites W2013138018 @default.
W2020405454 cites W2013577431 @default.
W2020405454 cites W2013634805 @default.
W2020405454 cites W2019244511 @default.
W2020405454 cites W2019742135 @default.
W2020405454 cites W2020197462 @default.
W2020405454 cites W2021943979 @default.
W2020405454 cites W2024946900 @default.
W2020405454 cites W2027484077 @default.
W2020405454 cites W2030700737 @default.
W2020405454 cites W2033849826 @default.
W2020405454 cites W2034785002 @default.
W2020405454 cites W2035810404 @default.
W2020405454 cites W2042944392 @default.
W2020405454 cites W2043493255 @default.
W2020405454 cites W2044568901 @default.
W2020405454 cites W2046754847 @default.
W2020405454 cites W2050739689 @default.
W2020405454 cites W2055875329 @default.
W2020405454 cites W2056833090 @default.
W2020405454 cites W2057274239 @default.
W2020405454 cites W2057900937 @default.
W2020405454 cites W2072112611 @default.
W2020405454 cites W2072483987 @default.
W2020405454 cites W2072527059 @default.
W2020405454 cites W2073250859 @default.
W2020405454 cites W2079074808 @default.
W2020405454 cites W2082074302 @default.
W2020405454 cites W2082965301 @default.
W2020405454 cites W2087930089 @default.
W2020405454 cites W2091142956 @default.
W2020405454 cites W2092293335 @default.
W2020405454 cites W2100920436 @default.
W2020405454 cites W2101456050 @default.
W2020405454 cites W2127875576 @default.
W2020405454 cites W2133546431 @default.
W2020405454 cites W2136524507 @default.
W2020405454 cites W2149522351 @default.
W2020405454 cites W2156722647 @default.
W2020405454 cites W2166677066 @default.
W2020405454 cites W2170866675 @default.
W2020405454 cites W2176678440 @default.
W2020405454 cites W2181678566 @default.
W2020405454 cites W2189335670 @default.
W2020405454 cites W2317660510 @default.
W2020405454 cites W2481342051 @default.
W2020405454 cites W2491502524 @default.
W2020405454 cites W4243715129 @default.
W2020405454 cites W96572586 @default.
W2020405454 doi "https://doi.org/10.1029/95jb02252" @default.
W2020405454 hasPublicationYear "1996" @default.
W2020405454 type Work @default.
W2020405454 sameAs 2020405454 @default.
W2020405454 citedByCount "122" @default.
W2020405454 countsByYear W20204054542012 @default.
W2020405454 countsByYear W20204054542013 @default.
W2020405454 countsByYear W20204054542014 @default.
W2020405454 countsByYear W20204054542015 @default.
W2020405454 countsByYear W20204054542017 @default.
W2020405454 countsByYear W20204054542018 @default.
W2020405454 countsByYear W20204054542019 @default.
W2020405454 countsByYear W20204054542020 @default.
W2020405454 countsByYear W20204054542021 @default.
W2020405454 countsByYear W20204054542022 @default.
W2020405454 countsByYear W20204054542023 @default.
W2020405454 crossrefType "journal-article" @default.
W2020405454 hasAuthorship W2020405454A5063550735 @default.
W2020405454 hasConcept C120806208 @default.
W2020405454 hasConcept C127313418 @default.
W2020405454 hasConcept C151730666 @default.
W2020405454 hasConcept C154200439 @default.
W2020405454 hasConcept C156622251 @default.