Velio Coviello 1, Marta Chiarle 1, Massimo Arattano 1, Paolo Pogliotti 2, Umberto Morra di Cella 2, 2015, Monitoring rock wall temperatures and microseismic activity for slope stability investigation at J.A. Carrel hut, Matterhorn, Engineering Geology for Society and Territory, pp. 305–309, Torino, Settembre 2014,
URL: http://www.cnr.it/prodotto/i/302644

Recent climate changes are increasing the frequency of rock-slope instabilities in the Alpine region. The formation of cracks leading to rockfalls causes a release of energy propagating in form of elastic waves. These latter can be detected by a suitable transducer array together with the vibrations generated by the impact of rockfalls. Geophones are among the most effective monitoring devices to investi-gate both these phenomena. A monitoring system composed by geophones and thermometers was installed at the J.A. Carrel hut (3829 m a.s.l., Matterhorn, NW Alps) in the framework of the Interreg Alcotra projects PERMAdataROC and MASSA by CNR IRPI and ARPA with the financial and logistic support of the Valle d'Aosta Region. The correlation between temperature trends and microseismic events is presented_ cold periods characterized by a rapid tempera-ture decrease present higher concentration of microseismic activity. However, not every drop in temperature is associated to microseismic activity, and the identifi-cation of the processes generating microseismic events in occasion of rapid tem-perature decrease is still uncertain. The objective of the ongoing research activity is to analyze in deep the statistical correlation between the number of microseismic records and the temperatures of air and rock in order to investigate the existence of recurrent patterns in the detected signals.

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