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  • 1
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    Caldera size modulated by the yield stress within a crystal-rich magma reservoir (2012)
    Nature Research
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    Publication Date: 2023-07-19
    Description: The largest volcanic eruptions in the geologic record have no analogue in the historical record. These eruptions had global impacts1,2, but are known only through their eruptive products. They have left behind calderas that formed as the surface collapsed when eruption evacuated magma chambers at 5–15 km depths3,4. It is generally assumed that calderas reflect the spatial dimensions of underlying magma reservoirs. Here we use a numerical model of conduit flow and dynamic magma-chamber drainage to show that caldera size can be affected by the material properties of crystal-rich silicic magma. We find that magma in the chamber can experience a rheological transition during eruption. This transition causes magma near the conduit to behave as a fluid, whereas magma farther away behaves elastically and remains locked. The intervening surface—the yield surface—expands through the chamber as eruption progresses. If a yielding transition occurs, calderas can form before complete mobilization of the entire reservoir. The resulting distribution of eruption volumes is then bimodal, as observed in the geologic record. We suggest that the presence or absence of a magma yield stress determines whether caldera size reflects the true spatial extent of magma storage.
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  • 2
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    Giant offshore pumice deposit records a shallow submarine explosive eruption of ancestral Santorini (2024)
    Nature Research
    Details
    Publication Date: 2024-02-01
    Description: Large explosive volcanic eruptions from island arcs pour pyroclastic currents into marine basins, impacting ecosystems and generating tsunamis that threaten coastal communities and infrastructures. Risk assessments require robust records of such highly hazardous events, which is challenging as most of the products lie buried under the sea. Here we report the discovery by IODP Expedition 398 of a giant rhyolitic pumice deposit emplaced 520 ± 10 ky ago at water depths of 200 to 1000 m during a high-intensity, shallow submarine eruption of ancestral Santorini Volcano. Pyroclastic currents discharged into the sea transformed into turbidity currents and slurries, forming a 〉89 ± 8 km 3 volcaniclastic megaturbidite up to 150 m thick in the surrounding marine basins, while breaching of the sea surface by the eruption column laid down veneers of ignimbrite on three islands. The eruption is one of the largest recorded on the South Aegean Volcanic Arc, and highlights the hazards from submarine explosive eruptions.
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  • 3
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    Hazardous explosive eruptions of a recharging multi-cyclic island arc caldera (2024)
    Nature Research
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    Publication Date: 2024-04-15
    Description: Caldera-forming eruptions of silicic volcanic systems are among the most devastating events on Earth. By contrast, post-collapse volcanic activity initiating new caldera cycles is generally considered less hazardous. Formed after Santorini’s latest caldera-forming eruption of ~1600 bce , the Kameni Volcano in the southern Aegean Sea enables the eruptive evolution of a recharging multi-cyclic caldera to be reconstructed. Kameni’s eruptive record has been documented by onshore products and historical descriptions of mainly effusive eruptions dating back to 197 bce . Here we combine high-resolution seismic reflection data with cored lithologies from International Ocean Discovery Program Expedition 398 at four sites to determine the submarine architecture and volcanic history of intra-caldera deposits from Kameni. Our shore-crossing analysis reveals the deposits of a submarine explosive eruption that produced up to 3.1 km 3 of pumice and ash, which we relate to a historical eruption in 726 ce . The estimated volcanic explosivity index of magnitude 5 exceeds previously considered worst-case eruptive scenarios for Santorini. Our finding that the Santorini caldera is capable of producing large explosive eruptions at an early stage in the caldera cycle implies an elevated hazard potential for the eastern Mediterranean region, and potentially for other recharging silicic calderas.
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