Lahitte, P, Dibacto, S, Karatson, D, Gertisser, R and Veres, D (2019) Eruptive history of the Late Quaternary Ciomadul (Csomad) volcano, East Carpathians, part I: timing of lava dome activity. Bulletin of Volcanology, 81 (4). ISSN 0258-8900

[thumbnail of Lahitte-et-al-BullVolc-Accepted-5March2019-Keele.pdf]
Lahitte-et-al-BullVolc-Accepted-5March2019-Keele.pdf - Accepted Version
Available under License Creative Commons Attribution Non-commercial.

Download (7MB) | Preview


Located at the southern tip of the Intra-Carpathian Volcanic Range in Romania, and composed of a dozen dacitic lava domes, the Ciomadul (Csomád) volcanic complex is the youngest eruptive centre of the Carpatho-Pannonian Region. Whereas, in the last decade, the explosive history of Ciomadul since 50 ka has been well constrained by numerous studies, the chronology of the dome sequence still lacks robust chronological constraints and an extended analysis of all available data. Here, we apply a detailed K-Ar dating approach to refine the chronology of the lava dome eruptions, using the unspiked K-Ar Cassignol-Gillot technique. Our dating focused on the most voluminous central part of the lava dome complex. New eruption ages were determined following a strict separation (of 10 g) of groundmass from about 3 kg of unaltered sample rocks, thereby isolating material whose cooling was contemporaneous with the eruption. The newly applied methodology, mainly consisting of a double full preparation, first at larger grain size (~ 0.4 mm) and then at < 100 μm, provides an appropriate procedure to separate suitable material to obtain the K-Ar age of the eruption, i.e. the sample’s groundmass, in which there is no risk of the presence of older, inherited crystals. Our new geochronological data set gives an improved insight into the temporal construction of the Ciomadul volcanic complex, where (due to the method applied here) all ages are younger than those from previous studies that used whole-rock K-Ar ages. Our new results show that Ciomadul’s volcanic activity began with the construction of the south-eastern, peripheral domes from ca. 850 ka to 440 ka. After a ca. 250-ky-long repose period, the activity resumed in the northern part at around 200 ka, with subsequent domes emplaced between 200 and 130 ka, aligned roughly north-south in the western-central part of the complex. Following a 30-ky-long quiescence period, the eastern-central domes formed between 100 and 60 ka. In addition to the chronological history of lava dome volcanism, we also investigated the sequence of crystallization of mineral phases present in the lavas with respect to the modification of eruption ages. Ages obtained on pure minerals (plagioclase, amphibole, and biotite) are systematically older than those obtained on groundmass, showing that most of them formed up to 1.85 Myr before eruption in a long-lived, pre-Ciomadul magmatic system. Crystal size distribution (CSD) data support the age contrasts between juvenile groundmass and older inherited minerals. After injection of new magma and convective mixing with crystal clots, ascent of the resulting mixture led to eruptions of material representing contrasting ages.

Item Type: Article
Additional Information: This is the accepted author manuscript (AAM). The final published version (version of record) is available online via Springer at - please refer to any applicable terms of use of the publisher.
Uncontrolled Keywords: K-Ar geochronology, Groundmass, Glomerocryst, Excess argon, Dacitic lava dome, Crystal size distributions, Quaternary volcanism
Subjects: G Geography. Anthropology. Recreation > GB Physical geography
Divisions: Faculty of Natural Sciences > School of Geography, Geology and the Environment
Related URLs:
Depositing User: Symplectic
Date Deposited: 01 May 2019 12:38
Last Modified: 29 Mar 2020 01:30

Actions (login required)

View Item
View Item