Hintzen R, Werner W, Hauck M, Klemd R, Fischer LA (2023)
Publication Type: Journal article
Publication year: 2023
Book Volume: 35
Pages Range: 403-426
Journal Issue: 3
The Black Forest hosts a wide range of hydrothermal mineralization, including fluorite-barite vein deposits. In a detailed investigation of the Finstergrund and Tannenboden deposits in the Wieden mining district (southern Black Forest), the diversity, geochemical evolution and relative chronology of multistage fluorite precipitation is tracked on the basis of rare earth element (REE) geochemistry, geologic field relationships and crystal zoning. Geochemical discrimination and mathematical λ coefficients suggest a total of seven fluorite REE groups, at least three distinguishable post-Variscan fluid mobilization events and independent formation histories for the deposits despite their spatial proximity. Fluorite vein mineralization at the Finstergrund deposit evolved over three fluid generations, was derived from gneissic source aquifers and comprises five distinct fluorite REE groups: the first fluid generation is characterized by fluorite precipitation above 200°C ("group III"), below 200°C ("group I") and after fractional crystallization ("group IV"); the second generation comprises remobilized fluorite ("group II"); and the third generation revealed fluorite precipitation by meteoric water mixing ("group V"). Fluorite vein formation at the Tannenboden deposit is associated with two distinct fluorite REE patterns derived from the same fluid generation: fluorite precipitation above 200°C ("group VII") and after cooling below 200°C ("group VI"). Its fluid source aquifer lithology best matches migmatites contrary to previous models that suggest either gneissic or granitic aquifer rocks for fluorite vein precipitation in the Black Forest. The decoupled formation history between the deposits is tectonically controlled as suggested by a new genetic model for the Wieden mining district. The model argues for a change in the local fluid percolation network and the termination of hydrothermal activity at the Tannenboden deposit after the first fluid mobilization event. The geochemical evolution of multistage fluorite mineralization, as exemplified by the Tannenboden and Finstergrund deposits in combination with other fluorite mineralizations in the Black Forest, provides unique insights into the lithospheric origin and precipitation behaviour of fluorite by various fluid-rock interaction processes occurring in large hydrothermal systems. The local diversity of REE patterns emphasizes the need for detailed investigations of individual hydrothermal vein deposits.
APA:
Hintzen, R., Werner, W., Hauck, M., Klemd, R., & Fischer, L.A. (2023). Multistage fluorite mineralization in the southern Black Forest, Germany: Evidence from rare earth element (REE) geochemistry. European Journal of Mineralogy, 35(3), 403-426. https://doi.org/10.5194/ejm-35-403-2023
MLA:
Hintzen, Robin, et al. "Multistage fluorite mineralization in the southern Black Forest, Germany: Evidence from rare earth element (REE) geochemistry." European Journal of Mineralogy 35.3 (2023): 403-426.
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