Ammonium Silicate Stability Relations |
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Authors: | Marie Hallam Hans P. Eugster |
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Affiliation: | 1.Baltimore,USA;2.Department of Earth and Planetary Sciences,The Johns Hopkins University,Baltimore,USA |
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Abstract: | A method has been developed to control ammonium fugacity, (f_{{text{NH}}_{3}}), at elevated temperatures and pressures. The method uses an internal nitrogen buffer, the assemblage Cr + CrN, in conjunction with a traditional external hydrogen buffer. In this manner, all gas fugacities in the system N-O-H can be calculated.The Cr + CrN buffer has been applied to study equilibria between buddingtonite (ammonium feldspar), ammonium muscovite, sillimanite, and quartz at a constant gas pressure of 2,000 bars. Two of the five relevant reactions were measured experimentally; from these data, it is possible to calculate isothermal sections at 500, 600, and 700° C.Below 600° C, ammonium muscovite is stable even at extremely low levels of (f_{{text{NH}}_{3}}), while buddingtonite requires (f_{{text{NH}}_{3}};geqq;10^4) bars. Release of NH3 during progressive metamorphism can be achieved by three processes: thermal decomposition, dehydration, and cation exchange. Within the crust, (f_{{text{NH}}_{3}}) predominates over (f_{{text{N}}_{2}}) by several orders of magnitude; but on the surface, nitrogen released as NH3 by metamorphism will be oxidized to N2. Biological materials provide important intermediate storage for nitrogen compounds during the nitrogen cycle. |
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