The Hämmerlein skarn-hosted polymetallic deposit and the Eibenstock granite associated greisen, western Erzgebirge, Germany: two phases of mineralization—two Sn sources
The Hämmerlein skarn-hosted polymetallic deposit and the Eibenstock granite associated greisen, western Erzgebirge, Germany: two phases of mineralization—two Sn sources
The Hämmerlein polymetallic deposit is hosted in skarn, schists, and gneisses that reached their metamorphic peak at ~ 340 Ma during the Variscan orogeny. The deposit is spatially closely associated with one of the most voluminous granites of the Erzgebirge, the Eibenstock granite which intruded the metamorphic units at ~ 320 Ma, and locally also developed greisen mineralization. Cassiterite is the main ore mineral in the Hämmerlein skarn and in greisen mineralizations associated with the Eibenstock granite. The age of skarn formation is bracketed by multi-mineral Rb-Sr isochron ages of the gneisses (~ 340 Ma) and the end of ductile deformation (> 330 Ma). The dated calc-silicate minerals of the skarn have elevated Sn contents, which implies that some Sn was present in the system during regional metamorphism, i.e., well before the emplacement of the Eibenstock granite. Tin in the > 330 Ma old skarn silicates possibly was mobilized from the metamorphic wall rocks. Retrogression of the skarn mineral assemblage may have released some Sn that formed cassiterite in an assemblage with chlorite and fluorite. The Sr isotope signatures of fluorite indicate that this late assemblage is not related to cooling of the metamorphic rocks, but to the emplacement of the Eibenstock granite, which introduced additional Sn into the skarn. Thus, mineralization in the Hämmerlein deposit includes Sn that was introduced during two different events from different sources.
Erzgebirge, Hammerlein, Tin, Skarn, Greisen, Ore deposit, Eibenstock granite
193–216
Lefebvre, Marie G.
b9ca8d27-8ab9-4a72-b4e4-39defc53aa85
Romer, Rolf L.
4b7f8a1e-0f1f-48fc-870c-6febe58617fd
Glodny, Johannes
02581e85-51ed-4be8-a816-c2334bbb4459
Kroner, Uwe
dbc88fd3-8f24-4b44-b901-d06346bc6cf6
Roscher, Marco
a750f923-bae8-4a0b-ad22-9c0d81b53467
9 February 2019
Lefebvre, Marie G.
b9ca8d27-8ab9-4a72-b4e4-39defc53aa85
Romer, Rolf L.
4b7f8a1e-0f1f-48fc-870c-6febe58617fd
Glodny, Johannes
02581e85-51ed-4be8-a816-c2334bbb4459
Kroner, Uwe
dbc88fd3-8f24-4b44-b901-d06346bc6cf6
Roscher, Marco
a750f923-bae8-4a0b-ad22-9c0d81b53467
Lefebvre, Marie G., Romer, Rolf L., Glodny, Johannes, Kroner, Uwe and Roscher, Marco
(2019)
The Hämmerlein skarn-hosted polymetallic deposit and the Eibenstock granite associated greisen, western Erzgebirge, Germany: two phases of mineralization—two Sn sources.
Mineralium Deposita, 54, .
(doi:10.1007/s00126-018-0830-4).
Abstract
The Hämmerlein polymetallic deposit is hosted in skarn, schists, and gneisses that reached their metamorphic peak at ~ 340 Ma during the Variscan orogeny. The deposit is spatially closely associated with one of the most voluminous granites of the Erzgebirge, the Eibenstock granite which intruded the metamorphic units at ~ 320 Ma, and locally also developed greisen mineralization. Cassiterite is the main ore mineral in the Hämmerlein skarn and in greisen mineralizations associated with the Eibenstock granite. The age of skarn formation is bracketed by multi-mineral Rb-Sr isochron ages of the gneisses (~ 340 Ma) and the end of ductile deformation (> 330 Ma). The dated calc-silicate minerals of the skarn have elevated Sn contents, which implies that some Sn was present in the system during regional metamorphism, i.e., well before the emplacement of the Eibenstock granite. Tin in the > 330 Ma old skarn silicates possibly was mobilized from the metamorphic wall rocks. Retrogression of the skarn mineral assemblage may have released some Sn that formed cassiterite in an assemblage with chlorite and fluorite. The Sr isotope signatures of fluorite indicate that this late assemblage is not related to cooling of the metamorphic rocks, but to the emplacement of the Eibenstock granite, which introduced additional Sn into the skarn. Thus, mineralization in the Hämmerlein deposit includes Sn that was introduced during two different events from different sources.
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Accepted/In Press date: 23 July 2018
e-pub ahead of print date: 9 August 2018
Published date: 9 February 2019
Keywords:
Erzgebirge, Hammerlein, Tin, Skarn, Greisen, Ore deposit, Eibenstock granite
Identifiers
Local EPrints ID: 449754
URI: http://eprints.soton.ac.uk/id/eprint/449754
ISSN: 0026-4598
PURE UUID: 7722bfd0-561c-490b-b4d4-56b054ac0f4a
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Date deposited: 15 Jun 2021 16:33
Last modified: 17 Mar 2024 04:07
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Contributors
Author:
Marie G. Lefebvre
Author:
Rolf L. Romer
Author:
Johannes Glodny
Author:
Uwe Kroner
Author:
Marco Roscher
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