FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2892139005> ?p ?o ?g. }

• W2892139005 endingPage "190" @default.
• W2892139005 startingPage "165" @default.
• W2892139005 abstract "Abstract The rate at which H+ moves into, through, and out of olivine is of great interest for understanding the deep water cycle, assessing the fidelity of olivine-hosted melt inclusions as recorders of pre-eruptive melt compositions, and estimating the decompression rate of magma during volcanic eruptions. Here we conduct a series of experiments and observations on natural Fe-bearing olivine to better understand and quantify this H+ mobility, with a particular focus on the rate at which H+ diffuses out of olivine. We have carried out sequential dehydration experiments on single crystals of natural, Fe-bearing olivine polished and oriented along three crystallographic orientations. These efforts include four separate parts: (1) the partial hydration of polished blocks of xenolithic San Carlos olivine at 800 °C and 1000 °C, 1 GPa, and oxygen fugacity (fO2) at the Ni-NiO buffer (NNO); (2) sequential dehydration of a homogeneous block of San Carlos olivine at 800 °C, 1-atm, and fO2 of NNO-2.6; (3) sequential dehydration of a polished block of an olivine phenocryst from Kilauea Iki at 800 and 1000 °C, 1 atm, and fO2 held at NNO-2.6 until the final step, which was conducted at NNO + 1.9; and (4) the measurement by secondary ion mass spectrometry of hydrogen zonation profiles in an olivine phenocryst from Kilauea Iki coupled with Monte Carlo modeling to determine total H diffusivities in a natural setting. Hydrogen zonation profiles were measured in all three crystallographic directions a, b, and c through the uncut blocks before and after each time step for all experiments by Fourier transform infrared spectroscopy using light polarized || a and modeled in 3 dimensions to determine both total and peak-specific dehydration, producing over 50 sets of 3 apparent diffusivities. The results show that the apparent diffusivity of total H+ varies both over time and for olivines with different defect populations, and thus H+ does not diffuse at inherently site-specific rates. These variations are due to rapid reactions that may occur between sites as a function of changing defect concentrations. Our experiments reveal three new phenomena: (1) H+ that is associated with the Ti-clinohumite defect, [Ti-2H], can enter and exit olivine at the fastest rate measured. (2) The rate of H+ loss from specific infrared absorption peaks, and in total, may change with progressive dehydration due to the buildup of Fe3+ and redistribution of defects, particularly the rehydration of [Ti-2H]. (3) The following Arrhenius laws appear to apply to total H+ diffusion out of most natural olivines that have been studied experimentally and naturally during dehydration: Da = 10−5.4exp(−130/RT); Db = 10−6.9exp(−130/RT); and Dc = 10−6.6exp(−130/RT), where R is the gas constant 8.314 J/mol K; T is the temperature, the units of the diffusivities (D) are in m2/s; and the activation energy is 130 kJ/mol. This rate is slower than proton-polaron redox rate but faster than proton-metal vacancy diffusion and appears to characterize olivine of Fo ∼90 composition in a wide range of conditions, from self-diffusion, to melt inclusion re-equilibration, to mantle xenolith and volcanic phenocryst zonation during ascent." @default.
• W2892139005 created "2018-09-27" @default.
• W2892139005 creator A5006371003 @default.
• W2892139005 creator A5034260525 @default.
• W2892139005 creator A5058110166 @default.
• W2892139005 creator A5067479604 @default.
• W2892139005 creator A5071848151 @default.
• W2892139005 date "2018-12-01" @default.
• W2892139005 modified "2023-10-17" @default.
• W2892139005 title "Rates of dehydration of olivines from San Carlos and Kilauea Iki" @default.
• W2892139005 cites W1552583707 @default.
• W2892139005 cites W1863934844 @default.
• W2892139005 cites W1965339476 @default.
• W2892139005 cites W1970967823 @default.
• W2892139005 cites W1974796100 @default.
• W2892139005 cites W1975509770 @default.
• W2892139005 cites W1981483059 @default.
• W2892139005 cites W1981907220 @default.
• W2892139005 cites W1982543726 @default.
• W2892139005 cites W1987984101 @default.
• W2892139005 cites W1988614024 @default.
• W2892139005 cites W1989240732 @default.
• W2892139005 cites W1989706724 @default.
• W2892139005 cites W1990068157 @default.
• W2892139005 cites W2000547396 @default.
• W2892139005 cites W2003156310 @default.
• W2892139005 cites W2006850280 @default.
• W2892139005 cites W2007168004 @default.
• W2892139005 cites W2009654497 @default.
• W2892139005 cites W2010427899 @default.
• W2892139005 cites W2017574277 @default.
• W2892139005 cites W2017924927 @default.
• W2892139005 cites W2020142959 @default.
• W2892139005 cites W2026491958 @default.
• W2892139005 cites W2028056984 @default.
• W2892139005 cites W2029345429 @default.
• W2892139005 cites W2029693986 @default.
• W2892139005 cites W2047525485 @default.
• W2892139005 cites W2049003200 @default.
• W2892139005 cites W2059539080 @default.
• W2892139005 cites W2066990311 @default.
• W2892139005 cites W2067602432 @default.
• W2892139005 cites W2068308356 @default.
• W2892139005 cites W2071392001 @default.
• W2892139005 cites W2076146328 @default.
• W2892139005 cites W2081111865 @default.
• W2892139005 cites W2081871706 @default.
• W2892139005 cites W2086285344 @default.
• W2892139005 cites W2096795635 @default.
• W2892139005 cites W2099504411 @default.
• W2892139005 cites W2103323851 @default.
• W2892139005 cites W2125967350 @default.
• W2892139005 cites W2132304896 @default.
• W2892139005 cites W2136898714 @default.
• W2892139005 cites W2140101655 @default.
• W2892139005 cites W2161301874 @default.
• W2892139005 cites W2167247838 @default.
• W2892139005 cites W2173943754 @default.
• W2892139005 cites W2189063999 @default.
• W2892139005 cites W2292128395 @default.
• W2892139005 cites W2330251261 @default.
• W2892139005 cites W2334707162 @default.
• W2892139005 cites W2345564264 @default.
• W2892139005 cites W2405962958 @default.
• W2892139005 cites W2470012906 @default.
• W2892139005 cites W2508375607 @default.
• W2892139005 cites W2514710360 @default.
• W2892139005 cites W2519966713 @default.
• W2892139005 cites W2567094215 @default.
• W2892139005 cites W2585020135 @default.
• W2892139005 cites W2592983691 @default.
• W2892139005 cites W2613319972 @default.
• W2892139005 cites W2728971516 @default.
• W2892139005 cites W2760970689 @default.
• W2892139005 cites W2776383016 @default.
• W2892139005 cites W566782438 @default.
• W2892139005 doi "https://doi.org/10.1016/j.gca.2018.08.050" @default.
• W2892139005 hasPublicationYear "2018" @default.
• W2892139005 type Work @default.
• W2892139005 sameAs 2892139005 @default.
• W2892139005 citedByCount "34" @default.
• W2892139005 countsByYear W28921390052019 @default.
• W2892139005 countsByYear W28921390052020 @default.
• W2892139005 countsByYear W28921390052021 @default.
• W2892139005 countsByYear W28921390052022 @default.
• W2892139005 countsByYear W28921390052023 @default.
• W2892139005 crossrefType "journal-article" @default.
• W2892139005 hasAuthorship W2892139005A5006371003 @default.
• W2892139005 hasAuthorship W2892139005A5034260525 @default.
• W2892139005 hasAuthorship W2892139005A5058110166 @default.
• W2892139005 hasAuthorship W2892139005A5067479604 @default.
• W2892139005 hasAuthorship W2892139005A5071848151 @default.
• W2892139005 hasBestOaLocation W28921390051 @default.
• W2892139005 hasConcept C127313418 @default.
• W2892139005 hasConcept C17409809 @default.
• W2892139005 hasConcept C185592680 @default.
• W2892139005 hasConcept C199289684 @default.
• W2892139005 hasConcept C2778769901 @default.

• next