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Staude, S., Mordhorst, T., Neumann, R., Prebeck, W., Markl, G. (2010) Compositional variation of the tennantite–tetrahedrite solid-solution series in the Schwarzwald ore district (SW Germany): The role of mineralization processes and fluid source. Mineralogical Magazine, 74 (2) 309-339 doi:10.1180/minmag.2010.074.2.309

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Reference Type	Journal (article/letter/editorial)
Title	Compositional variation of the tennantite–tetrahedrite solid-solution series in the Schwarzwald ore district (SW Germany): The role of mineralization processes and fluid source
Journal	Mineralogical Magazine
Authors	Staude, S.		Author
	Mordhorst, T.		Author
	Neumann, R.		Author
	Prebeck, W.		Author
	Markl, G.		Author
Year	2010 (April)	Volume	74
Issue	2
Publisher	Mineralogical Society
DOI	doi:10.1180/minmag.2010.074.2.309Search in ResearchGate
	Generate Citation Formats
Classification	Not set	LoC	Not set
Mindat Ref. ID	244069	Long-form Identifier	mindat:1:5:244069:3
GUID	0
Full Reference	Staude, S., Mordhorst, T., Neumann, R., Prebeck, W., Markl, G. (2010) Compositional variation of the tennantite–tetrahedrite solid-solution series in the Schwarzwald ore district (SW Germany): The role of mineralization processes and fluid source. Mineralogical Magazine, 74 (2) 309-339 doi:10.1180/minmag.2010.074.2.309
Plain Text	Staude, S., Mordhorst, T., Neumann, R., Prebeck, W., Markl, G. (2010) Compositional variation of the tennantite–tetrahedrite solid-solution series in the Schwarzwald ore district (SW Germany): The role of mineralization processes and fluid source. Mineralogical Magazine, 74 (2) 309-339 doi:10.1180/minmag.2010.074.2.309
In	(2010, April) Mineralogical Magazine Vol. 74 (2) Mineralogical Society
Abstract/Notes	The study presents analysis from members of the tennantite–tetrahedrite solid-solution series (‘fahlore’) from 78 locations in the Schwarzwald ore district of SW Germany. Electron microprobe analysis is used to correlate the compositional variations of the fahlores with mineral association, host rock, tectonic history and precipitation mechanisms. Results indicate that most fahlores from gneiss-hosted veins do not have distinctive geochemical characteristics and range from tetrahedrite to tennantite end-member composition with variable trace-element content. However, diagenetically formed fahlore has a near-end-member tennantite composition with very small trace-element content. Red-bed-hosted fahlore formed by fluid mixing is tennantite enriched in Hg that probably has its source in the red-bed sediments. Fahlore formed from granite-related late-magmatic fluids, or from mixing of fluids of which one has equilibrated with granitic basement rocks, is typically As- and Bi-rich (up to 22.2 wt.% Bi). Gneiss-hosted fahlore formed by fluid cooling is Ag-rich near-end-member tetrahedrite. Some fahlores reflect their paragenetic association, e.g. a large Ag content in association with Ag-bearing minerals or a large Co and Ni in association with Co- and Ni-arsenides.Although they have similar compositions, gneiss-hosted fahlores show systematic variations in Ag contents and Fe/Zn ratios between the Central and the Southern Schwarzwald with Fe-rich fahlore in higher stratigraphic levels (North) and Zn- and Ag-rich fahlore in lower stratigraphic levels (South). We show that fahlore composition varies with precipitation mechanism (cooling vs. mixing vs. diagenesis), depth of formation, paragenetic association and host rock. Comparison with fahlores from other European occurrences indicates that these conclusions are consistent with fahlore systematics found elsewhere, and could be used to infer details of ore-forming processes.

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Locality	Citation Details
Himmlisch Heer Mine, Hallwangen, Dornstetten, Freudenstadt, Karlsruhe Region, Baden-Württemberg, Germany

Mineral Occurrences

Locality	Mineral(s)
Himmlisch Heer Mine, Hallwangen, Dornstetten, Freudenstadt, Karlsruhe Region, Baden-Württemberg, Germany	ⓘ Tennantite-(Fe), ⓘ Tennantite-(Zn)

👁 Image	Staude, S., Mordhorst, T., Nau, S., Pfaff, K., Brugmann, G., Jacob, D. E., Markl, G. (2012) Hydrothermal carbonates of the Schwarzwald ore district, southwestern Germany: Carbon source and conditions of formation using δ18O, δ13C, 87Sr/86Sr, and fluid inclusions. The Canadian Mineralogist, 50 (5) 1401-1434 doi:10.3749/canmin.50.5.1401
👁 Image	Staude, Sebastian, Werner, Wolfgang, Mordhorst, Teresa, Wemmer, Klaus, Jacob, Dorrit E., Markl, Gregor (2012) Multi-stage Ag–Bi–Co–Ni–U and Cu–Bi vein mineralization at Wittichen, Schwarzwald, SW Germany: geological setting, ore mineralogy, and fluid evolution. Mineralium Deposita, 47 (3) 251-276 doi:10.1007/s00126-011-0365-4
👁 Image	Apopei, A. I., Damian, G., Buzgar, N., Buzatu, A., Andráš, P., Milovska, S. (2017) The determination of the Sb/As content in natural tetrahedrite–tennantite and bournonite–seligmannite solid solution series by Raman spectroscopy. Mineralogical Magazine, 81 (6) 1439-1456 doi:10.1180/minmag.2017.081.008
👁 Image	Staude, S., Dorn, A., Pfaff, K., Markl, G. (2010) Assemblages of Ag-Bi sulfosalts and conditions of their formation: The type locality of schapbachite (Ag_0.4Pb_0.2Bi_0.4S) and neighboring mines in the Schwarzwald ore district, southern Germany. The Canadian Mineralogist, 48 (3) 441-466 doi:10.3749/canmin.48.3.441
👁 Image	Sack, Richard O., Ebel, Denton S. (1993) As-Sb Exchange Energies in Tetrahedrite-Tennantite Fahlores and Bournonite-Seligmannite Solid Solutions. Mineralogical Magazine, 57 (389) 635-642 doi:10.1180/minmag.1993.057.389.07
👁 Image	Miller, J. W., & Craig, J. R. (1983). Tetrahedrite-tennantite series compositional variations in the Cofer Deposit, Mineral District, Virginia. American Mineralogist, 68(1-2), 227-234.
👁 Image	*Kolitsch, U. (2010) The crystal structure and compositional range of mckinstryite. Mineralogical Magazine, 74 (1) 73-84 doi:10.1180/minmag.2010.074.1.73*
👁 Image	BAATARTSOGT, B.; SCHWINN, G.; WAGNER, T.; TAUBALD, H.; BEITTER, T.; MARKL, G. (2007) Contrasting paleofluid systems in the continental basement: a fluid inclusion and stable isotope study of hydrothermal vein mineralization, Schwarzwald district, Germany. Geofluids, 7 (2). 123-147 doi:10.1111/j.1468-8123.2007.00169.x
👁 Image	Grey, I. E., Mumme, W. G., Neville, S. M., Wilson, N. C., Birch, W. D. (2010) Jahnsite-whiteite solid solutions and associated minerals in the phosphate pegmatite at Hagendorf-Süd, Bavaria, Germany. Mineralogical Magazine, 74 (6) 969-978 doi:10.1180/minmag.2010.074.6.969
👁 Image	Arlt, T., Diamond, L. W. (1998) Composition of tetrahedrite-tennantite and ‘schwazite’ in the Schwaz silver mines, North Tyrol, Austria. Mineralogical Magazine, 62 (6) 801-820 doi:10.1180/002646198548188
👁 Image	Ströbele, Florian, Staude, Sebastian, Pfaff, Katharina, Premo, Wayne R., Hildebrandt, Ludwig H., Baumann, Albrecht, Pernicka, Ernst, Markl, Gregor (2012) Pb isotope constraints on fluid flow and mineralization processes in SW Germany. Neues Jahrbuch für Mineralogie - Abhandlungen Journal of Mineralogy and Geochemistry, 189 (3) 287-309 doi:10.1127/0077-7757/2012/0225

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