Abstract
A detailed experimental mineralogical and geochemical study on hydrothermal alteration processes of volcanic glasses with a different chemical composition and leucites sampled in the Roman Comagmatic Region was carried out. 2g samples of different grain sizes and 50 ml of deionized water or seawater were sealed in bronze Teflon-lined autoclaves and placed in a rotating sample-holder at 200°C. The internal pressure was 16.2 bars. At arbitrary intervals, the pressure vessel was quenched to room temperature and both solids and solutions were separated by filtration. The solids were used to identify possible alteration products by means of X-ray powder diffraction, SEM and microprobe analyses. In all deionized water systems the contact solution reached pH basic values, but in the various systems the consumption of H+ ions occurred in different ways. This is probably linked to different concentrations of released cations. In seawater systems, however, pH values initially fell sharply but subsequently increased slightly. After 2 days, cation concentrations were clearly buffered by reaction products in all solutions. These were mainly zeolites and clay minerals. The following crystallization sequences in all glass/deionized water experiments were observed: the first reaction product was represented by phillipsite, followed by analcime and illite in the alkali-trachytic run; chabasite and analcime in the phonolitic-tephritic run; analcime and finally feldspar in shoshonitic and trachytic runs. Phillipsite and smectite crystallized together only in the basaltic run. In leucite/deionized water systems, however, the first reaction phase was illite, followed by analcime and then phillipsite. The reaction products in glass/seawater systems were smectite and anydrite. The chemical composition of synthetic zeolites was clearly controlled by the chemistry of initial glasses. These synthetic zeolites are like the natural ones in volcaniclastic products from central and southern Italy. This suggests that extensive zeolitization processes of these volcaniclastic rocks may occur through interaction of volcanic glasses with fluids at a very low salinity and a temperature close to 200°C.
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References
Afifi A.A., Bricker O.P. and Chemerys J.C. (1985) Experimental chemical weathering of various bedrock types at different pH-values, Sandstone and granite. InWater-Rock Interaction (Guest Editor Y. Kitano),Chemical Geology 49, 87–113 (special issue).
Barth-Wirsching U. and Holler H. (1989) Experimental studies on zeolite formation conditions.Eur. J. Miner 1, 489–506.
Berger G., Schott J. and Loubet M. (1988) Fundamental process controlling the first stage of alteration of basaltic glass by seawater: An experimental study between 200–300°C.Earth Plan. Sci. Lett. 84, 431–445.
Boles J.R. (1988) Occurrences of natural zeolites — Present status and future research. InOccurrence, Properties and Utilization of Natural Zeolites (ed. D. Kallo and H.S. Sharry), pp. 3–18. Akadémiai Kiadò, Budapest.
Casey W.H., Banfield J.F., Westrich H.R. and McLaughlin L. (1993) What do dissolution experiments tell us about natural weathering?Chemical Geology 105, 1–15.
Crovisier J.L., Honnorez J. and Eberhart J.P. (1987) Dissolution of basaltic glass in sea water: Mechanism and rate.Geochim. Cosmochim. Acta 51, 2977–2990.
dè Gennaro M. and Franco E. (1976) La K-cabasite di alcuni tufi del Vesuvio.Acc. Naz. Lincei Rend. Acc. Sc. Fis. Mat. e Nat. 40, 490–497.
dè Gennaro M., Franco E., Langella A., Mirra P. and Morra V. (1982) Le phillipsiti dei tufi gialli del Napoletano.Period. Min. 51, 287–310.
dè Gennaro M., Franco E., Rossi A., Langella A. and Ronca A. (1987) Epigenetic minerals in the volcanoclastic deposits from Central-Southern Italy: A contribution to zeolite genesis. InThe Volcanoclastic Rocks of Campania (Southern Italy) (ed. P. Di Girolamo), pp. 317, 339. Rend. Acc. Sci. Fis. Mat. Napoli.
De Jong B.H.W.S., Schramm C.M. and Parziale V.E. (1983) Polymerization of silicate and aluminate tetrahedra in glass, melts, and aqueous solution. IV. Aluminum coordination in glass and aqueous solution and comments on the aluminum avoidance principle.Geochim. Cosmochim. Acta 47, 1223–1236.
Dibble W.E. Jr. and Tiller W.A. (1981) Non-equilibrium water-rock interactions, I. Model for interface-controlled reactions.Geochim. Cosmochim. Acta 45, 79–92.
Donahoe R.J. and Liou L.G. (1985) An experimental study on the process of zeolite formation.Geochim. Cosmochim. Acta 49, 2349–2360.
Di Girolamo P., Ghiara M.R., Rolandi G., Stanzione D. (1979) Caratteri geochimici delle vulcaniti quaternarie della Campania (calcalcaline, shoshonitiche, leucitiche): osservazione geotettoniche e genetiche.Rend. Soc It. Min. e Petr. 35(1), 361–375.
Franco E. (1975) La zeolitizzazione naturale.Atti dei Convegni Lincei 5, 33–61.
Franco E., Ghiara M.R. and Stanzione D. (1987) Studi sperimentali sull'alterazione idrotermale dei vetri vulcanici dei Campi Flegrei (Campania, Italia).Atti Semin. Inf. Energia Geoterm. SI-5, Ferrara, pp. 201–226.
Franco E., Petti C., Stanzione D., Ghiara M.R. and Marchetiello A. (1989–1990) Studi sugli equilibri chimici e sui minerali di neoformazione nell'interazione H2O-Leucite.Boll. Soc. Natur. Napoli, 25–39.
Galli E. and Loschi Ghittoni A.G. (1972) The crystal chemistry structure of phillipsite.Am. Miner 57, 1125–1145.
Ghiara M.R., Biasco A., Franco E., Petti C. and Stanzione D. (1991) Formation of zeolites by reaction of natural phonolitic-tephritic glass with deionized water in a closed system.Atti I Conv. Naz. Tecn. delle Zeoliti, Aquila 1991, pp. 83–90.
Ghiara M.R., Franco E., Petti C., Stanzione D. and Valentino G.M. (1993) Hydrothermal interaction between basaltic glass, deionized water and seawater.Chemical Geology 104, 125–138.
Ghiara M.R., Petti C., Franco E. and Stanzione D. (1994) Hydrothermal alteration process of volcanic glasses in a closed system at 200°C: Zeolite formation.Materials Engineering 52, 131–144.
Gislason S.R. and Eugster H.P. (1987) Meteoric water-basalt interactions, I. A laboratory study.Geochim. Cosmochim. Acta 51, 2827–2840.
Hajash A. (1975) Hydrothermal processes along mid-ocean ridges: An experimental investigation.Contrib. Mineral. Petrol. 53, 205–226.
Hajash A. and Arker P. (1980) Experimental seawater-basalt interactions: Effect of cooling.Contrib. Mineral. Petrol. 75, 1–13.
Hajash A. and Bloom M.A. (1991) Marine diagenesis of feldspathic sand: A flow-through experimental study at 200°C, 1 Kbar.Chemical Geology 89, 359–376.
Helgeson H.C. (1971) Kinetics of mass transfer among silicates and aqueous solution.Geochim. Cosmochim. Acta 35, 421–469.
Kacandes G.H. and Grandstaff D.E. (1989) Differences between geothermal and experimentally derived fluids: How well do hydrothermal experiments model the composition of geothermal reservoir fluids?Geochim. Cosmochim. Acta 53, 343–358.
Kronberg B.I., Nesbitt H.W. and Fyfe W.S. (1987) Mobilities of alkalis, alkaline earth and halogens during weathering.Chemical Geology 60, 41–49.
Kawano M, Tomita K. and Kamino Y. (1993) Formation of clay minerals during low temperature experimental alteration of obsidian.Clays and Clay Minerals 41(4), 431–441.
Lécuyer C., Brouxel M. and Albarède F. (1990) Elemental fluxes during hydrothermal alteration of the Trinity ophiolite (California U.S.A.) by seawater.Chemical Geology 89, 87–115.
Merino E., Colin H. and Murray H.H. (1989) Aqueous-chemical control of the tetrahedral-aluminum content of quartz, halloysite and other low-temperature silicates.Clays and Clay Minerals 37, 135–142.
Moore E.L., Ulmer G.C. and Grandstaff D. (1985) Hydrothermal interaction of Columbia Plateau basalt from the Umtanum flow (Washington, U.S.A.) with its coexisting groundwater. InWater-Rock Interaction (Guest Editor Y. Kitano).Chemical Geology 49, 53–71 (special issue).
Mottl M.J. (1983) Metabasalt, axial hotsprings and the structure of hydrothermal systems at mid ocean ridges.Geol. Soc. Am. Bull. 94, 161–180.
Passaglia E. (1970) The crystal chemistry of chabazites.Am. Miner 55, 1278–1301.
Seyfried W.E. and Bishoff J.L. (1977) Hydrothermal trasport of heavy metals by seawater: The role of seawater-basalt ratio.Earth Planet. Sci. Lett. 34, 71–78.
Seyfried W.E. and Bishoff J.L. (1979) Low temperature basalt alteration by seawater: an experimental study at 70°C and 150°C*.Geochim. Cosmochim. Acta 43, 1937–1947.
Seyfried W.E. and Mottl M.J. (1982) Hydrothermal alteration of basalt by seawater under seawater-dominated conditions.Geochim. Cosmochim. Acta 46, 985–1002.
Shiraki R. and Iiyama J.T. (1990) Na-K ion exchange reaction between rhyolitic glass and (Na,K)Cl aqueous solution under hydrothermal conditions.Geochim. Cosmochim. Acta 54, 2923–2931.
Stanzione D., Franco E. and dè Gennaro M. (1984) Primi risultati delle esperienze sull'interazione acqua-vetro trachitico a 200°C.Rend. Soc. It. Miner. e Petrol. 39(1), 253–260.
Taylor M. and Gordon E.B. Jr. (1979) Structure of minerel glasses—I. The feldspar glasses NaAlSi3O8, KAlSi3O8, CaAl2Si2O8.Geochim. Cosmochim. Acta 43, 61–75.
Thomassin J.H., Boutonnat F., Toutay J.C. and Baillif P. (1989) Geochemical role of the water/rock ratio during the experimental alteration of a synthetic basaltic glass at 50°C — An XPS and STM investigation.Eur. J. Miner. 1, 261–274.
Thomassin J.H. and Iiyama J.T. (1988) Etude expérimentale des stades précoces de l'altération hydrothermale de matériaux vitreux: cas d'une obsidienne (300°C-100MPa).Bull. Soc. Fr. Minéral. Cristall. 111, 633–647.
Thornton E.C. and Seyfried W.E. (1985) Sediment-sea-water interaction at 200 and 300°C, 500 bars pressure: The role of sediment composition in diagenesis and low grade metamorphism of marine clay.Geol. Soc. Am., Bull. 96, 1287–1295.
Vollmer R., Johnston K., Ghiara M.R., Lirer L., Munno R. (1982) Sr isotope geochemistry of megacrysts from continental rift and converging plate margin alkaline volcanism South Italy.J. Volcanol. Geoth. Res. 11, 317–327.
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Ghiara, M.R., Petti, C. Chemical alteration of volcanic glasses and related control by secondary minerals: Experimental studies. Aquat Geochem 1, 329–354 (1995). https://doi.org/10.1007/BF00702738
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DOI: https://doi.org/10.1007/BF00702738