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High-temperature rapid pyrometamorphism induced by a charcoal pit burning: The case of Ricetto,central Italy
Authors:Flavio?Capitanio  author-information"  >  author-information__contact u-icon-before"  >  mailto:flavio.capitanio@geo.uniroma.it"   title="  flavio.capitanio@geo.uniroma.it"   itemprop="  email"   data-track="  click"   data-track-action="  Email author"   data-track-label="  "  >Email author,Francesco?Larocca,Salvatore?Improta
Affiliation:(1) Dottorato di Ricerca in Geodinamica, Dip.to Scienze Geologiche, Università Roma Tre, Rome, Italy;(2) Dip.to Botanica, Università La Sapienza, Rome, Italy;(3) Dip.to Fisica, Università La Sapienza, Rome, Italy
Abstract:Bulk chemistry and mineralogy of the peculiar rock of Ricetto (Carseolani Mts., Central Apennines, Italy) was studied to resolve its controversial origin: igneous dyke or anthropic product. This hybrid rock consists of a colorless, felsic component made up of glass plus quartz, and a brown, femic component made up of fans and spherulites of diopside, calcic plagioclase, wollastonite, and melilite. Textural relationships indicate very rapid cooling and immiscibility phenomena. The bulk chemistry of the rock is the same as that of the surrounding siliciclastic sandstone. The 14C analysis of a coal fragment from bottom of the body yields the conventional age of 227(±50) years. The Ricetto occurrence is an example of pyrometamorphism of a siliceous limestone induced by a charcoal pit burning. The small size of the heat source at Ricetto caused an intense but short-lived melting of the country rock. Prograde metamorphism caused a temperature increase up to 1,000–1,100 °C when melilite crystallization conditions were reached at appreciable P(CO2) and high f(O2). Melting occurred in a close system represented by the simplified equation: 3Cal+16.5Qtz+Ms+BtrarrMel+Melt+2H2O+3CO2+0.5O2. Diopside+calcic plagioclase+wollastonite formed by melilite breakdown during rapid cooling, through the reaction: 6Mel+6Qtz+0.5O2rarr3Di+2An+7Wo. Liquid immiscibility caused the separation between the felsic melt component and the femic melilite-bearing component. Immiscibility was characterized by different fractionation of alumina and alkalies between these two phases. Differences in bulk, glass, and mineral chemistry between the Ricetto and other melilite-bearing pyrometamorphic rocks can be attributed mainly to different protoliths.An erratum to this article can be found at
Keywords:Ricetto  Central Apennines  Pyrometamorphism  Melilite breakdown  Silicate melt immiscibility
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