4.7 Article

Frictional controls on the seismogenic zone: Insights from the Apenninic basement, Central Italy

期刊

EARTH AND PLANETARY SCIENCE LETTERS
卷 583, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.epsl.2022.117444

关键词

earthquakes; rheology; friction; structural heterogeneities; basement; seismogenic regime

资金

  1. ERC [259256, 835012]
  2. European Research Council (ERC) [835012] Funding Source: European Research Council (ERC)

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Crustal seismicity usually occurs within the seismogenic layer, which is typically below 10 km depth, and its lower boundary is influenced by the properties of the sedimentary cover and rock. Studies in the central-northern Apennines have shown that seismic sequences primarily occur within the sedimentary cover, indicating the significant role of the basement in dictating the depth of the seismogenic zone.
Crustal seismicity is in general confined within the seismogenic layer, which is bounded at depth by processes related to the brittle-ductile transition (BDT) and in the shallow region by fault zone consolidation state and mineralogy. In the past 10-15 years, high resolution seismological and geodetic data have shown that faulting within and around the traditional seismogenic zone occurs in a large variety of slip modes. Frictional and structural heterogeneities have been invoked to explain such differences in fault slip mode and behaviour. However, an integrated and comprehensive picture remains extremely challenging because of difficulties to properly characterize fault rocks at seismogenic depths. Thus, the central-northern Apennines provide a unique opportunity because of the integration of deep-borehole stratigraphy and seismic reflection profiles with high resolution seismological data and outcrop studies. These works show that seismic sequences are limited within the sedimentary cover (depth < 9-10 km), suggesting that the underlaying basement plays a key-role in dictating the lower boundary of the seismogenic zone. Here we integrate structural data on exhumed outcrops of basement rocks with laboratory friction data to shed light on the mechanics of the Apenninic basement. Structural data highlight heterogeneous and pervasive deformation where foliated and phyllosilicate-rich rocks surround more competent quartz-rich lenses up to hundreds of meters in thickness. Phyllosilicate horizons deform predominantly by folding and foliation-parallel frictional sliding whereas quartz-rich lenses are characterized by brittle signatures represented by extensive fracturing and minor faulting. Laboratory experiments revealed that quartzrich lithologies have relatively high friction, mu approximate to 0.51, velocity-strengthening to neutral behaviour, and elevated healing rates. On the contrary, phyllosilicate-rich (muscovite and chlorite) lithologies show low friction, 0.23 < mu < 0.31, a marked velocity strengthening behaviour that increases with increasing sliding velocity and negligible rates of frictional healing. Our integrated approach suggests that in the Apenninic basement deformation occurs along shear zones distributed on thickness up-to several kilometres, where the frictionally stable, foliated, and phyllosilicate-rich horizons favour aseismic deformation and therefore confine the depth of major earthquake ruptures and the seismogenic zone. (C) 2022 The Author(s). Published by Elsevier B.V.

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