New evidence for persistent impact-generated hydrothermal activity in the Miocene Ries impact structure, Germany
Autor: | Claudia Kolepka, Nicole Nolte, Volker Karius, Bent T. Hansen, Gernot Arp, Klaus Simon |
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Rok vydání: | 2013 |
Předmět: |
010504 meteorology & atmospheric sciences
Geochemistry 010502 geochemistry & geophysics 01 natural sciences Hydrothermal circulation Diagenesis Petrography Geophysics Impact crater Space and Planetary Science Subaerial Breccia Impact structure Vein (geology) Geology 0105 earth and related environmental sciences |
Zdroj: | Meteoritics & Planetary Science. 48:2491-2516 |
ISSN: | 1086-9379 |
Popis: | The extent of impact-generated hydrothermal activity in the 24 km sized Ries impact structure has been controversially discussed. To date, mineralogical and isotopic investigations point to a restriction of hydrothermal activity to the impact-melt bearing breccias, specifically the crater-fill suevite. Here, we present new petrographic, geochemical, and isotopic data of postimpact carbonate deposits, which indicate a hydrothermal activity more extended than previously assumed. Specifically, carbonates of the Erbisberg, a spring mound located upon the inner crystalline ring of the crater, show travertine facies types not seen in any of the previously investigated sublacustrine soda lake spring mounds of the Ries basin. In particular, the streamer carbonates, which result from the encrustation of microbial filaments in subaerial spring effluents between 60 and 70 °C, are characteristic of a hydrothermal origin. While much of the primary geochemical and isotopic signatures in the mound carbonates have been obliterated by diagenesis, a postimpact calcite vein from brecciated gneiss of the subsurface crater floor revealed a flat rare earth element pattern with a clear positive Eu anomaly, indicating a hydrothermal fluid convection in the crater basement. Finally, the strontium isotope stratigraphic correlation of the travertine mound with the crater basin succession suggests a hydrothermal activity for about 250,000 yr after the impact, which would be much longer than previously assumed. |
Databáze: | OpenAIRE |
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