Abstract
La Pacana (central Andes, Northern Chile) is one of the largest resurgent calderas in the world, formed 4 Ma ago during an eruption with a VEI of 8.7. We undertake a gravimetric study to contribute new insights into the inner structure and evolution of this caldera. The La Pacana Bouguer residual anomaly is asymmetric and has an average amplitude of -12 to -14 mGal, which we interpret as being produced by the low-density intracaldera ignimbrite infill. A reinterpretation of the caldera stratigraphy plus the available geochronology suggests that the current shape of La Pacana was produced by the collapse of two nested calderas, roughly limited by the axis where the resurgent dome changes its orientation, with the oldest eruption in the southern part of La Pacana. The gravity data suggests that these southern and northern nested structures would have collapsed with downsag and trap-door geometries respectively, evidence of asymmetric subsidence. Intra caldera ignimbrite thicknesses were calculated with 2.5D forward models and show that the ignimbrite infill in its southern and northern parts reach ∼0.6-1.1 km and ∼2.5-3 km respectively. Using Gauss’s theorem, we calculate the volume of the intra caldera ignimbrite infill is ∼3,400-3,500 km3, in agreement with previous estimates and with models that show that the larger the caldera diameter, the larger the erupted volume.
Highlights
Resurgent calderas, known as supervolcanoes, are the result of the largest volcanic eruptions on the geological record, which have been at least two orders of magnitude bigger than any eruption ever registered by humans (e.g., Newhall and Self, 1982; Mason et al, 2004; Miller and Wark, 2008)
The largest ignimbrite f lareups in the world (e.g., Taupo volcanic zone, New Zealand; San Juan mountains, SW United States; Altiplano Puna Volcanic Complex APVC, southern central Andes of Bolivia, Chile and Argentina) are the places where the largest calderas in the world are located (Lipman, 2007; Rowland et al, 2010; De Silva, 1989a; De Silva et al, 2006; De Silva and Gosnold, 2007) and constitute ideal study cases to investigate the dynamics of these supervolcanoes
We present a gravimetric study of the inner structure of La Pacana, the largest caldera in the Altiplano Puna Volcanic Complex (e.g., Gardeweg and Ramírez, 1987; De Silva, 1989a, b), which produced the fifth largest eruption ever registered in the geological record (e.g., Mason et al, 2004)
Summary
Known as supervolcanoes, are the result of the largest volcanic eruptions on the geological record, which have been at least two orders of magnitude bigger than any eruption ever registered by humans (e.g., Newhall and Self, 1982; Mason et al, 2004; Miller and Wark, 2008). The large size of these eruptions (volumes larger than 450 km and a Volcanic Explosivity Index (VEI) greater than 8) has attracted a growing global interest to understand the evolution and eruptive dynamics of the biggest calderas (Wilson, 2008), by studying their emitted products and the formation of their structure and geometry (Sparks et al, 2005; Acocella, 2007; Martí et al, 2008; Hardy, 2008). The largest ignimbrite f lareups in the world (e.g., Taupo volcanic zone, New Zealand; San Juan mountains, SW United States; Altiplano Puna Volcanic Complex APVC, southern central Andes of Bolivia, Chile and Argentina) are the places where the largest calderas in the world are located (Lipman, 2007; Rowland et al, 2010; De Silva, 1989a; De Silva et al, 2006; De Silva and Gosnold, 2007) and constitute ideal study cases to investigate the dynamics of these supervolcanoes. Since caldera inner structures are normally covered by inf low ignimbrites, geophysical data are key elements to understand them and their dynamics
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