2013
DOI: 10.1007/s00445-013-0741-2
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Paleogene phreatomagmatic volcanism on the western main fault of the northern Upper Rhine Graben (Kisselwörth diatreme and Nierstein–Astheim Volcanic System, Germany)

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Cited by 13 publications
(11 citation statements)
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“…This uplift was also contemporaneous to a long-wavelength folding episode of the lithosphere, related to the Alpine Tethys' geodynamical development (Ziegler et al 2007;Bourgeois et al 2007). Some studies suggest fault reactivations before the main Late Eocene subsidence episode, in association with volcanism on the northwestern margin of the Upper Rhine Graben, with the example of the Kisselwörth diatreme, which was 40 Ar/ 39 Ar dated to 55.8 ± 0.2 Ma (Lutz et al 2013).…”
Section: Pre-rift Tectono-sedimentary Historymentioning
confidence: 96%
See 1 more Smart Citation
“…This uplift was also contemporaneous to a long-wavelength folding episode of the lithosphere, related to the Alpine Tethys' geodynamical development (Ziegler et al 2007;Bourgeois et al 2007). Some studies suggest fault reactivations before the main Late Eocene subsidence episode, in association with volcanism on the northwestern margin of the Upper Rhine Graben, with the example of the Kisselwörth diatreme, which was 40 Ar/ 39 Ar dated to 55.8 ± 0.2 Ma (Lutz et al 2013).…”
Section: Pre-rift Tectono-sedimentary Historymentioning
confidence: 96%
“…The first stages of rifting started during a phase of regional uplift and volcanism during the Middle Eocene NW from the central URG (Volcanism in the Hocheifel at approx. 44-35 Ma (Lutz et al 2013)), sedimentation started in mini Fig. 1 Geological context and sampling localities: A Schematic geological map of the URG after Bossennec et al (2018) and Eisbacher and Fielitz (2010) with sampled localities in pink.…”
Section: Syn-rift Tectono-sedimentary Historymentioning
confidence: 99%
“…This orientation leads to active subsidence and a trans-tensive regime in fault zones of the NURG [55,[73][74][75]. Associated extensive and trans-tensive regimes induced local basaltic and trachytic volcanism (Kaiserstuhl, Vogelsberg) [60,76,77].…”
Section: Geological Contextmentioning
confidence: 99%
“…Associated with the Upper Rhine Graben formation, intraplate magmatism and volcanism were initiated, apparently influenced by the Alpine collision-related stress regime (Sissingh 2003). Several small Tertiary volcanoes are located along the northern margin of the URG, i.e., in the Taunus Mountains of the Hunsrück-Taunus Mountain Range and on the eastern shoulder of the northern URG, i.e., the Sprendlinger Horst (e.g., Berger et al 2005a,b;Reischmann et al 2011;Lutz et al 2013). More than 30 locations of deeply eroded volcanoes (< 200 m) and proven maars on the Sprendlinger Horst document the Paleogene off-rift volcanism (Maccaferri et al 2014;Büchel and Schaal 2018).…”
Section: Geological Settingmentioning
confidence: 99%
“…The micrometer-sized cavities left by dissolved ash particles and minerals in MH M suggest that crystals and shards originate from the distal parts of a faraway wind-driven ash cloud that partly settled over Lake Messel. Therefore, the nearby Eocene eruption centers on the Sprendlinger Horst, in the Taunus Mountains, or within the Upper Rhine Graben Rift Zone, the latter today buried under kilometers of younger Tertiary and Pleistocene sediments (Lutz et al 2013), are less probable as a cause. In terms of grain size, distant ashes from the post-breakup North Atlantic Igneous Province (NAIP) or the pre-rift Massif Central, which were active in the time of Messel (Michon and Merle 2001;Meyer et al 2007;Wilkinson et al 2017) are potentially to Huber et al 2003), but this is speculative, due to the intense diagenetic overprint of the precursor material.…”
Section: Marker Horizon Precursor Sedimentmentioning
confidence: 99%