The impact of heat, readily provided by magma, circulating hot fluids, or rapid fault slip on carbonate substrata is an important factor in determining the flank stability of volcanoes and the mechanical behavior of faults in areas where carbonate lithologies are prevalent. The mineralogy and mechanical properties of carbonate rocks are demonstrably altered by thermally induced decarbonation. While previous studies have considered the role of decarbonation in bulk strength loss at subvolcanic conditions and dynamic weakening during coseismic fault slip, little is known about the effects of decarbonation on the frictional properties of carbonate rocks during both the nucleation and inter-seismic phases. Here, we present results from experiments performed on a portlandite-rich material, a typical hydrous product of the decarbonation reaction. To evaluate frictional strength, stability, and healing at shallow crustal conditions, we sheared gouge layers of this material under saturated conditions at room temperature and at velocities comparable to those involved in earthquake nucleation. Our data indicate that the reaction of calcite to portlandite results in a distinct change in the mechanical behavior of the gouge. Decarbonated shear zones are (1) frictionally weaker at higher normal stresses, (2) more frictionally unstable, and (3) likely to regain their frictional strength more quickly than unaltered calcite-rich zones. The occurrence of portlandite could be key for interpreting the stability of volcanic flanks that root into carbonate substrata and for seismogenic normal faults located within thick sedimentary sequences, and thus provide a better understanding of the hazards they pose.

Influence of calcite decarbonation on the frictional behavior of carbonate-bearing gouge. Implications for the instability of volcanic flanks and fault slip / Carpenter, B. M; Mollo, Silvio; Viti, C.; Collettini, Cristiano. - In: TECTONOPHYSICS. - ISSN 0040-1951. - 658:(2015), pp. 128-136. [10.1016/j.tecto.2015.07.015]

Influence of calcite decarbonation on the frictional behavior of carbonate-bearing gouge. Implications for the instability of volcanic flanks and fault slip

MOLLO, SILVIO;COLLETTINI, CRISTIANO
2015

Abstract

The impact of heat, readily provided by magma, circulating hot fluids, or rapid fault slip on carbonate substrata is an important factor in determining the flank stability of volcanoes and the mechanical behavior of faults in areas where carbonate lithologies are prevalent. The mineralogy and mechanical properties of carbonate rocks are demonstrably altered by thermally induced decarbonation. While previous studies have considered the role of decarbonation in bulk strength loss at subvolcanic conditions and dynamic weakening during coseismic fault slip, little is known about the effects of decarbonation on the frictional properties of carbonate rocks during both the nucleation and inter-seismic phases. Here, we present results from experiments performed on a portlandite-rich material, a typical hydrous product of the decarbonation reaction. To evaluate frictional strength, stability, and healing at shallow crustal conditions, we sheared gouge layers of this material under saturated conditions at room temperature and at velocities comparable to those involved in earthquake nucleation. Our data indicate that the reaction of calcite to portlandite results in a distinct change in the mechanical behavior of the gouge. Decarbonated shear zones are (1) frictionally weaker at higher normal stresses, (2) more frictionally unstable, and (3) likely to regain their frictional strength more quickly than unaltered calcite-rich zones. The occurrence of portlandite could be key for interpreting the stability of volcanic flanks that root into carbonate substrata and for seismogenic normal faults located within thick sedimentary sequences, and thus provide a better understanding of the hazards they pose.
2015
carbonates; earthquakes; faults; friction; earth-surface processes; geophysics
01 Pubblicazione su rivista::01a Articolo in rivista
Influence of calcite decarbonation on the frictional behavior of carbonate-bearing gouge. Implications for the instability of volcanic flanks and fault slip / Carpenter, B. M; Mollo, Silvio; Viti, C.; Collettini, Cristiano. - In: TECTONOPHYSICS. - ISSN 0040-1951. - 658:(2015), pp. 128-136. [10.1016/j.tecto.2015.07.015]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/797916
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