Grasso, Jean-Robert and Guyoton, Fabrice and Fréchet, Julien and Gamond, Jean-François (1992) Triggered earthquakes as stress gauge: Implication for the uppercrust behavior in the Grenoble area, France. Pure and Applied Geophysics, 139 (3-4). pp. 579-605. DOI: https://doi.org/10.1007/BF00879952
Full text not available from this repository.Abstract
A sequence of moderate shallow earthquakes (3.5≤ML≤5.3) was located within the Vercors massif (France) in the period 1961–1984. This subalpine massif has been a low seismic area for at least 5 centuries. During the period 1962–1963, 12 shallow earthquakes occurred in the neighborhood (Δ≤10 km) of the Monteynard reservoir, 30 km south of the city of Grenoble. The latest fourML≥4.0 earthquakes occurred in 1979–1984 either at larger distance (35 km) or greater depth (≥10 km) from the reservoir. Two triggering mechanisms are suggested for this sequence: (i) the direct effect of elastic loading through either increased shear stress or strength reducing by increased pore pressure at depth; (ii) the pore pressure diffusion induced by poroelastic stress change due to the reservoir filling. The weekly water levels, local balanced geological cross sections, and focal mechanisms argue for two types of mechanical connection between the earthquake sequence and the filling cycles of the Monteynard reservoir. The seismic sequence started with the 1962–1963 shallow earthquakes that occurred during the first filling of the reservoir and are typical of the direct effect of elastic loading. The 1979 deeper earthquake is located at a 10 km depth below the reservoir. This event occurred 16 years after the initial reservoir impoundment, but one month after the previous 1963 maximum water level was exceeded. Moreover the yearly reservoir level increased gradually in the period 1962–1979 and has decreased since 1980. Accordingly we suggest that the gradual diffusion of water from reservoir to hypocentral depths decreases the strength of the rock matrices through increased pore pressure. The transition between the two types of seismic response is supported by the analysis ofML≥3.5 earthquakes which all occurred in the period 1964–1971, ranging between 10 and 30 km distance from the reservoir. The three other delayed earthquakes of the 1961–1984 seismic sequence (ML≥4 during the 1979–1984 period) are all located 35 km away from the reservoir. Based on the seismic activity, the estimates for the hydraulic diffusivities range between 0.2–10 m2/s, except for the first event that occurred 30 km north of the reservoir, the filling just started. The lack ofin situ measurements of crustal hydrological properties in the area, shared by most of the Reservoir-Induced-Seismicity cases, prevents us from obtaining absolute evidence for the triggering processes. These observations and conceptual models attest that previous recurrence times for moderate natural shocks (4.5≤ML≤5.5) estimated within this area using historical data, could be modified by 0.1–1 MPa stress changes. These small changes in deviatoric stress suggest that the upper crust is in this area nearly everywhere at a state of stress near failure. Although the paucity of both number and size of earthquakes in the French subalpine massif shows that aseismic displacements prevail, our study demonstrates that triggered earthquakes are important tools for assessing local seismic risk through mapping fault zones and identifying their possible seismic behavior.
| Item Type: | Article |
|---|---|
| Uncontrolled Keywords: | Induced seismicity, faulting, fluid, artificial reservoir, pore pressure, poroelasticity |
| Subjects: | Methodology > Method and procesing > Collective properties of seismicity Region > France > Owernia-Rodan-Alpy Inducing technology > Reservoir impoundment |
| Project: | EPOS-IP > MONTEYNARD: water reservoir |