2022
DOI: 10.1130/g49959.1
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Mid-loaf crisis: Internal breadcrust surfaces in rhyolitic pyroclasts reveal dehydration quenching

Abstract: Breadcrust bombs are pyroclasts displaying fractured, dense surfaces enveloping expanded interiors, and are associated with Vulcanian explosions. We document pyroclasts from the 2008–2009 CE eruption of Chaitén (Chile) that are internally as well as externally breadcrusted. The pyroclasts are cut by intersecting micrometer- to millimeter-thick tuffisites with dense glassy walls, which grade into strongly inflated pumiceous material. We find H2O diffusion gradients proximal to the breadcrusted surfaces, such th… Show more

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Cited by 6 publications
(3 citation statements)
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“…proposed in other studies (Tuffen et al, 2022;Wilding et al, 1996). In the core, growth rate decreases as water is lost by nucleation and growth, and newly nucleated bubbles are therefore growing progressively more slowly as vesiculation continues.…”
Section: Post-fragmentation Evolution Of the Dacitic Bombsmentioning
confidence: 73%
See 1 more Smart Citation
“…proposed in other studies (Tuffen et al, 2022;Wilding et al, 1996). In the core, growth rate decreases as water is lost by nucleation and growth, and newly nucleated bubbles are therefore growing progressively more slowly as vesiculation continues.…”
Section: Post-fragmentation Evolution Of the Dacitic Bombsmentioning
confidence: 73%
“…In the rim, growth rate decreases mostly due to cooling whereas it decreases by degassing in the core (Figure 9b), as a consequence of the viscosity evolution. We therefore distinguish a dominant thermal quenching in the crust and a vesiculation‐induced quench in the core as proposed in other studies (Tuffen et al., 2022; Wilding et al., 1996). In the core, growth rate decreases as water is lost by nucleation and growth, and newly nucleated bubbles are therefore growing progressively more slowly as vesiculation continues.…”
Section: Discussionmentioning
confidence: 83%
“…The 2008 eruption of Volcán Chaitén and the 2011-12 eruption of Cordón Caulle, both in Chile, have reframed our understanding of silicic volcanism. Direct observations from those iconic and hazardous events showed that silicic eruptions can exhibit simultaneous and sustained effusive lava production alongside explosive activity producing pyroclastic deposits [1][2][3][4][5][6][7][8][9][10] . Such sustained simultaneity of explosive and effusive dynamics at the same vent has challenged traditional conceptions of the shallow volcanic sub-surface and the physical processes that are inferred.…”
mentioning
confidence: 99%