Morphological complexities and hazards during the emplacement of channel-fed `a`ā lava flow fields : a study of the 2001 lower flow field on Etna

Applegarth, Louisa Jane and Pinkerton, Harry and James, Michael and Calvari, Sonia (2010) Morphological complexities and hazards during the emplacement of channel-fed `a`ā lava flow fields : a study of the 2001 lower flow field on Etna. Bulletin of Volcanology, 72 (6). pp. 641-656. ISSN 0258-8900

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Abstract

Long-lived basaltic eruptions often produce structurally complex, compound `a`ā flow fields. Here we reconstruct the development of a compound flow field emplaced during the 2001 eruption of Mt. Etna (Italy). Following an initial phase of cooling-limited advance, the reactivation of stationary flows by superposition of new units caused significant channel drainage. Later, blockages in the channel and effusion rate variations resulted in breaching events that produced two new major flow branches. We also examined small-scale, late-stage ‘squeeze-up’ extrusions that were widespread in the flow field. We classified these as ‘flows’, ‘tumuli’ or ‘spines’ on the basis of their morphology, which depended on the rheology, extrusion rate and cooling history of the lava. Squeeze-up flows were produced when the lava was fluid enough to drain away from the source bocca, but fragmented to produce blade-like features that differed markedly from `a`ā clinker. As activity waned, increased cooling and degassing led to lava arriving at boccas with a higher yield strength. In many cases this was unable to flow after extrusion, and laterally extensive, near-vertical sheets of lava developed. These are considered to be exogenous forms of tumuli. In the highest yield strength cases, near-solid lava was extruded from the flow core as a result of ramping, forming spines. The morphology and location of the squeeze-ups provides insight into the flow rheology at the time of their formation. Because they represent the final stages of activity of the flow, they may also help to refine estimates of the most advanced rheological states in which lava can be considered to flow. Our observations suggest that real-time monitoring of compound flow field evolution may allow complex processes such as channel breaching and bocca formation to be forecast. In addition, documenting the occurrence and morphology of squeeze-ups may allow us to determine whether there is any risk of a stalled flow front being reactivated. This will therefore enhance our ability to track and assess hazard posed by lava flow emplacement.

Item Type:
Journal Article
Journal or Publication Title:
Bulletin of Volcanology
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/1900/1906
Subjects:
?? basaltic `a`ā channel-fed lavaeffusion rate squeeze-up tumuli etnageochemistry and petrology ??
ID Code:
68336
Deposited By:
Deposited On:
24 Jan 2014 05:54
Refereed?:
Yes
Published?:
Published
Last Modified:
15 Jul 2024 14:29