Carbonate diagenesis and feldspar alteration in fracture-related bleaching zones (Buntsandstein, central Germany): possible link to CO2-influenced fluid–mineral reactions

Fracture-related bleaching of Lower Triassic Buntsandstein red beds of central Germany was related to significant carbonate diagenesis and feldspar alteration caused by CO 2 -rich fluids. Using cathodoluminescence microscopy and spectroscopy combined with electron microprobe analysis and stable carb...

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Veröffentlicht in:International journal of earth sciences : Geologische Rundschau 2012, Vol.101 (1), p.159-176
Hauptverfasser: Wendler, Jens, Köster, Jens, Götze, Jens, Kasch, Norbert, Zisser, Norbert, Kley, Jonas, Pudlo, Dieter, Nover, Georg, Gaupp, Reinhard
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Sprache:eng
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Zusammenfassung:Fracture-related bleaching of Lower Triassic Buntsandstein red beds of central Germany was related to significant carbonate diagenesis and feldspar alteration caused by CO 2 -rich fluids. Using cathodoluminescence microscopy and spectroscopy combined with electron microprobe analysis and stable carbon isotope study, two major fluid–mineral interactions were detected: (1) zoned, joint-filling calcites and zoned pore-filling calcite cements, the latter replacing an earlier dolomite, were formed during bleaching. During the calcite formation and dolomite–calcite transformation, iron was incorporated into the calcite cement crystal cores due to Fe availability from the coeval bleaching. The dedolomitisation was ultimately associated with a volume increase. The related permeability decrease implies a certain degree of sealing and increasing retention of CO 2 , and the volume increase offers a minor CO 2 sink. Carbonate-rich sandstone, therefore, can provide advantages for underground CO 2 storage especially when situated in the fringes of the reservoir. (2) Alkali-feldspar alteration due to the bleaching fluids is reflected in cathodoluminescence spectra predominantly by the modulation of a brown luminescence emission peak (~620 nm). This peak represents a newly discovered effect related to alkali-feldspar alteration not solely associated with bleaching. Its modulation by the bleaching is interpreted to be due to Na depletion or a lattice defect in the Si–O bonds of the SiO 4 -tetrahedron. Alteration reflected by this luminescence feature has a destructive effect on the feldspars implying the possibility of diminished rock integrity due to bleaching and, hence, CO 2 -rich fluids. Two further CL spectral changes related to bleaching occur, (a) decreased intensity between around 570 nm assigned to Mn-depletion, and (b) increased amplitude and wavelength shift of the red (~680 nm) band. Converging evidence from carbonate and feldspar diagenesis, stable carbon isotope data and analysis of fracture directions suggests that CO 2 fluids contributed to a significant extent to the bleaching phenomena and alteration in the studied Buntsandstein strata.
ISSN:1437-3254
1437-3262
DOI:10.1007/s00531-011-0671-1