Forcing Mechanisms of Rockfalls in a Volcanic Environment: Ten Years of Seismic Data on the Piton de la Fournaise Volcano, La Réunion.
Abstract
The seismic network of the Piton de la Fournaise volcano (La Réunion Island) is very well appropriate to study seismic signals generated by rockfalls in the Dolomieu crater. In particular, seismic data make it possible to precisely locate the rockfalls and recover the volume of each rockfall. In April 2007, an eruption caused the collapse of the crater floor. We processed ten years of data, from after the collapse to June 2017, ending up with a catalog of precise time, location and volume of rockfalls. These ten years show three different periods, in term of volcanic activity. From April 2007 to December 2010, four eruptions occurred. They are followed by a quiet period, with four years with no eruption. Then, the eruptive activity started again in June 2014, with eight eruptions in three years. It allows us to study three regimes of rockfall activity. First, the activity linked to the rearrangement of the crater slopes following the collapse. Then, the activity during a quiet period, with only climatic excitation. Finally, the activity linked to the recovery of the eruptive activity, on stable slopes. Comparing the spatio-temporal evolution of rockfalls during these three periods enables us to have an insight into the influence of the seismicity and the deformation associated to the eruptive activity on the slope stability. We observe that the slopes respond differently to excitation, depending on their stability. Around eruption times, stable slopes will exhibit a change in rockfall volumes, but not in their frequency, whereas unstable slopes will show a change in both volume and frequency. This study also suggests that pre-eruptive seismicity is the main triggering factor for the largest volumes, with a delay of one to several days. We infer that repetitive vibrations from the many seismic events induce crack (or slip) growth in highly fractured (or granular) materials, leading to the collapse of large volumes. Rain seems to act as a final straw in the slope destabilization.
- Publication:
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AGU Fall Meeting Abstracts
- Pub Date:
- December 2018
- Bibcode:
- 2018AGUFM.S51D0366M
- Keywords:
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- 9805 Instruments useful in three or more fields;
- GENERAL OR MISCELLANEOUSDE: 9820 Techniques applicable in three or more fields;
- GENERAL OR MISCELLANEOUSDE: 1895 Instruments and techniques: monitoring;
- HYDROLOGYDE: 4315 Monitoring;
- forecasting;
- prediction;
- NATURAL HAZARDS