Spatial and temporal variations in growth rates along active normal fault Systems: an example from the Lazio-Abruzzo Apennines, central Italy
Articolo
Data di Pubblicazione:
2004
Abstract:
The geometry, kinematics and rates of active extension in Lazio–Abruzzo, Italian Apennines, have been measured in order to gain a better
understanding of the spatial and temporal variations in fault growth rates and seismic hazards associated with active normal fault systems.
We present fault map traces, throws, throw-rates and slip-directions for 17 parallel, en e´chelon or end-on active normal faults whose 20–
40 km lengths combine to form a soft-linked fault array ca. 155 km in length and ca. 55 km across strike. Throw-rates derived from
observations of faulted late-glacial features and Holocene soils show that both maximum throw-rates and throw-rate gradients are greater on
centrally-located faults along the strike of the array; total throws and throw gradients show similar spatial variations but with weaker
relationships with distance along strike. When summed across strike, throw-rates are increasingly high towards the centre of the array relative
to summed throws. We interpret the above to suggest that throw-rates have changed in the recent past (ca. 0.7 Ma) from spatially-random
fault growth rates (initiating at 2.5–3.3 Ma) to growth rates that are greater on centrally-located faults. We interpret this as evidence for fault
interaction producing throw-rate variations that drive throw profile readjustment on these crustal scale soft-linked faults. The results are used
to discuss seismic hazards in the region, which are quantified in a second paper in this issue.
understanding of the spatial and temporal variations in fault growth rates and seismic hazards associated with active normal fault systems.
We present fault map traces, throws, throw-rates and slip-directions for 17 parallel, en e´chelon or end-on active normal faults whose 20–
40 km lengths combine to form a soft-linked fault array ca. 155 km in length and ca. 55 km across strike. Throw-rates derived from
observations of faulted late-glacial features and Holocene soils show that both maximum throw-rates and throw-rate gradients are greater on
centrally-located faults along the strike of the array; total throws and throw gradients show similar spatial variations but with weaker
relationships with distance along strike. When summed across strike, throw-rates are increasingly high towards the centre of the array relative
to summed throws. We interpret the above to suggest that throw-rates have changed in the recent past (ca. 0.7 Ma) from spatially-random
fault growth rates (initiating at 2.5–3.3 Ma) to growth rates that are greater on centrally-located faults. We interpret this as evidence for fault
interaction producing throw-rate variations that drive throw profile readjustment on these crustal scale soft-linked faults. The results are used
to discuss seismic hazards in the region, which are quantified in a second paper in this issue.
Tipologia CRIS:
Articolo su Rivista
Keywords:
Fault growth rates; Seismic hazards; Normal fault systems
Elenco autori:
Roberts, G. P.; Michetti, ALESSANDRO MARIA
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