Abstract
Calderas often inflate up to a few metres for weeks to years, which is an evidence of short-term unrest. Some calderas also show a larger uplift (up to a thousand metres), achieved on the longer-term (hundreds to thousands of years), testified by a resurgent dome or block. How the short-term inflation relates to long-term resurgence is still poorly understood, even though established views consider the two processes distinct. This study exploits the longer deformation time series now available for several calderas, as well as the better understanding of magmatic processes and their evolution, to try to bridge the gap between these two scales of uplift. Available data challenge established views, suggesting that resurgence, rather than being produced by constant or continuous uplift, is the net cumulated result of tens to thousands distinct episodes of inflation, even interrupted by deflation episodes, as observed on short-term unrest. These inflation episodes are ascribed to distinct pulses of shallow magma emplacement, with most of the magma remaining intruded, especially in felsic calderas. This supports an incremental growth of magmatic systems, consistently with what observed below resurgent calderas and what inferred for plutons. Comparing the uplift (as expression of the intrusive record) and eruptive histories or resurgent calderas opens new exciting research paths to understand the causal relationships between intruded and erupted magma at a given caldera, thus enhancing its long-term eruptive forecast.
Highlights
Valerio Acocella*Reviewed by: Paul Randall Lundgren, NASA Jet Propulsion Laboratory (JPL), United States Jorge Vazquez, United States Geological Survey, United States John Stix, McGill University, Canada
Calderas are the surface expression of large and long-lived magmatic systems, produced by the repeated shallow accumulation of magma (Branney and Acocella, 2015)
This perspective opens new exciting paths for research, trying to compare the uplift and eruptive histories or resurgent calderas. This may allow understanding the causal relationships promoting magma eruption from a certain intruded budget at a given caldera, promoting long-term eruptive forecasts. This overview challenges established views on resurgence, which consider it detached from unrest
Summary
Reviewed by: Paul Randall Lundgren, NASA Jet Propulsion Laboratory (JPL), United States Jorge Vazquez, United States Geological Survey, United States John Stix, McGill University, Canada. Available data challenge established views, suggesting that resurgence, rather than being produced by constant or continuous uplift, is the net cumulated result of tens to thousands distinct episodes of inflation, even interrupted by deflation episodes, as observed on short-term unrest. These inflation episodes are ascribed to distinct pulses of shallow magma emplacement, with most of the magma remaining intruded, especially in felsic calderas. This supports an incremental growth of magmatic systems, consistently with that observed below resurgent calderas and what is inferred for plutons. Comparing the uplift (as expression of the intrusive record) and eruptive histories or resurgent calderas opens new exciting research paths to understand the causal relationships between intruded and erupted magma at a given caldera, enhancing its long-term eruptive forecast
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