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Reply to Discussion of ‘Rare metals on shatter cone surfaces from the Steinheim Basin (SW Germany) – remnants of the impacting body?’

Published online by Cambridge University Press:  17 June 2019

E. Buchner Open the ORCID record for E. Buchner [Opens in a new window]  and
M. Schmieder
E. Buchner*
Affiliation:
HNU - Neu-Ulm University of Applied Sciences, Wileystraße 1, D-89231 Neu-Ulm, Germany Institut für Mineralogie und Kristallchemie, Universität Stuttgart, Azenbergstraße 18, D-70174 Stuttgart, Germany
M. Schmieder
Affiliation:
Lunar and Planetary Institute – USRA, 3600 Bay Area Boulevard, Houston Texas 77058, USA
*
Author for correspondence: E. Buchner, Email: elmar.buchner@hs-neu-ulm.de
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Abstract

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Type
Discussion - Reply
Information
Geological Magazine , Volume 156 , Issue 9 , September 2019 , pp. 1641 - 1643
Copyright
© Cambridge University Press 2019 

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References

Buchner, E, Hölzel, M, Schmieder, M, Ferrière, L, Koeberl, C, Rasser, M, Fietzke, J, Frische, M, Meier, MMM, Busemann, H, Maden, C and Kutterolf, S (2018) The meteorite from Steinheim, SW Germany: probably a pallasite. In 81st Annual Meeting of the Meteoritical Society, 22–27 July 2018, Moscow, Russia. LPI Contribution no. 2067.Google Scholar
Buchner, E and Schmieder, M (2010) Steinheim suevite – a first report of melt‐bearing impactites from the Steinheim Basin (SW Germany). Meteoritics & Planetary Science 45, 1093–107.CrossRefGoogle Scholar
Buchner, E and Schmieder, M (2013a) Der Steinheimer Suevit – schmelzeführende Impaktite aus dem Steinheimer Becken, Südwestdeutschland. Zeitschrift der Deutschen Gesellschaft für Geowissenschaften (German Journal of Geosciences) 164, 471–90.CrossRefGoogle Scholar
Buchner, E and Schmieder, M (2013b) Das Ries-Steinheim-Ereignis – Impakt in eine miozäne Seen und Sumpflandschaft. Zeitschrift der Deutschen Gesellschaft für Geowissenschaften (German Journal of Geosciences) 164, 459–70.CrossRefGoogle Scholar
Buchner, E and Schmieder, M (2016) Discovery of possible meteoritic matter on shatter cones and slickensides – 1. Ries crater, Southern Germany. In 79th MetSoc, 7–12 August 2016, Berlin, Germany, Abstract no. 6027.Google Scholar
Buchner, E and Schmieder, M (2017) Rare metals on shatter cone surfaces from the Steinheim Basin (SW Germany) – remnants of the impacting body? Geological Magazine 155, 1205–29.CrossRefGoogle Scholar
El Goresy, A and Schmidt, G (2019) Discussion of ‘Rare metals on shatter cone surfaces from the Steinheim Basin (SW Germany) – remnants of the impacting body?’ Geological Magazine doi: 10.1017/S001675681800064X.CrossRefGoogle Scholar
Gay, NC, Comins, NR and Simpson, C (1978) The composition of spherules and other features on shatter cone surfaces from the Vredefort structure, South Africa. Earth & Planetary Science Letters 41, 372–80.CrossRefGoogle Scholar
Gibson, HM and Spray, JG (1998) Shock-induced melting and vaporization of shatter cone surfaces: evidence from the Sudbury impact structure. Meteoritics & Planetary Science 33, 329–36.CrossRefGoogle Scholar
Goderis, S, Tagle, R, Belza, J, Smit, J, Montanari, A, Vanhaecke, F, Erzinger, J and Claeys, P (2013) Reevaluation of siderophile element abundances and ratios across the Cretaceous–Paleogene (K–Pg) boundary: implications for the nature of the projectile. Geochimica et Cosmochimica Acta 120, 417–46.CrossRefGoogle Scholar
Kracher, A, Willis, J and Wasson, T (1980) Chemical classification of iron meteorites – IX. A new group (IIF), revision of IAB and IIICD, and data on 57 additional irons. Geochimica et Cosmochimica Acta 44, 773–87.CrossRefGoogle Scholar
Neal, CR, Burney, D, Kring, DA, Schmieder, M, Tikoo, S, Riller, UP, Simpson, SL, Osinski, G, Cockell, CS, Coolen, M and Gulick, SPS (2018) What do platinum group elements reveal about the formation of the Chicxulub impact basin? In 49th Lunar and Planetary Science Conference 2018, 19–23 March 2018, The Woodlands, Texas, Abstract no. 2067.Google Scholar
Reiff, W (1977) The Steinheim Basin – an impact structure. In Impact and Explosion Cratering: Planetary and Terrestrial Implications, Proceedings of the Symposium on Planetary Cratering Mechanics, (September 13–17, 1976) (eds Roddy, DJ, Pepin, RO and Merrill, RB), pp. 309–20. Flagstaff, Arizona: Pergamon Press.Google Scholar
Reiff, W (2004) Geologische Karte von Baden-Württemberg 1:25.000, Blatt 7326 Heidenheim, mit Erläuterungen. Freiburg im Breisgau: Landesamt für Geologie, Rohstoffe und Bergbau, 223 pp. (in German).Google Scholar
Schmidt, G and Pernicka, E (1994) The determination of platinum group elements (PGE) in target rocks and fall-back material of the Nördlinger Ries impact crater, Germany. Geochimica et Cosmochimica Acta 58, 5083–90.CrossRefGoogle Scholar
Schmieder, M, Chennaoui Aoudjehane, H, Buchner, E and Tohver, E (2015) Meteorite traces on a shatter cone surface from the Agoudal impact site, Morocco. Geological Magazine 152, 751–7.CrossRefGoogle Scholar
Wallace, MW, Gostin, VA and Keays, RR (1990). Acraman impact ejecta and host shales: evidence for low-temperature mobilization of iridium and other platinoids. Geology 18, 132–5.2.3.CO;2>CrossRefGoogle Scholar