The evolution of andesite volcano structures: new evidence from gravity studies in Costa Rica

Details The evolution of andesite volcano structures: new evidence from gravity studies in Costa Rica The evolution of andesite volcano structures: new evidence from gravity studies in Costa Rica

Apr 1987

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1987e%26psl..82..323b&link_type=abstract

Earth and Planetary Science Letters, Volume 82, Issue 3-4, p. 323-334.

Mathematics

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Scientific paper

Published gravity data on active volcanoes generally reflect either the low density scoriaceous/pumiceous deposits that are localized within ring-fracture collapse depressions, such as the calderas of mature silicic volcanoes, or the high density frozen magma conduits that occur beneath basaltic shields and cones. The intensive gravity surveys reported here over three complex andesite volcanoes reveal features of both types. Their multi-component gravity fields have crater-centred positive anomalies (1-2 km diameter) surrounded by broader zones of negative gravity with similar amplitudes but greater width (5-10 km). The former are thought to reflect sub-crater magma pipes of normal density (ca. 2.5-2.6 Mg m-3) surrounded by pyroclastic scoria, ashes and occasional lava flows of much lower net density (1.8-2.4 Mg m-3) which, in turn, account for the negative anomalous zones because the deeper, more consolidated and older parts of these andesite volcano edifices have more normal densities (2.3-2.6 Mg m-3).
The low density materials are particularly interesting because they appear to have filled topographic depressions to depths of several hundred metres, especially where old caldera-like structures have been postulated from the steep gravity gradients over perimeter ring faults. A model is developed whereby short periods of caldera collapse, associated with intermittent, large high level magma bodies, are interspersed by normal crater-like activity with narrow sub-surface magma pipes. Dominantly pyroclastic activity from summit craters generates the materials that gradually fill earlier-formed topographic depressions. This study demonstrates the unique value of detailed gravity surveys, combined with surface geological information, for modelling and understanding the evolution of active volcano summit regions.

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