Gerardo Herrera, Juan Carlos Garci?a Lo?pez-Davalillo, Jose Antonio Ferna?ndez-Merodo, Marta Be?jar-Pizarro, Paolo Allasia, Piernicola Lollino, Giorgio Lollino, Fausto Guzzetti, Maria Inmaculada A?lvarez-Ferna?ndez, Andrea Manconi, Javier Duro, Ciscu Sa?nchez, and Rube?n Iglesias, 2017, The Differential Slow Moving Dynamic of a Complex Landslide_ Multi-sensor Monitoring, 4th World Landslide Forum, pp. 219–225, Lubiana, 2017,
URL: http://www.cnr.it/prodotto/i/373389

Monitoring is essential to understand the mechanics of landslides, and predict their behavior in time and space. In this work we discuss the performance of multi-sensor monitoring techniques applied to measure the kinematics and the landslide hydrology of Portalet landslide complex, which is located in the SW-facing slopes of Petrasos peak at the border between Spain and France. In the summer 2004, the excavation of a parking lot at the foot of the slides triggered a secondary failure in the lower part of the slope, accelerating the dynamic of the landslide complex. The deployed hydro-meteorological network has been useful to understand that the greatest infiltration in the moving mass is produced in spring due to the combination of snow melt and seasonal rainfall. Landslide surface kinematics measured with differential GPS (D-GPS) were useful to measure the slower (<10 cm/year) and faster (20-30 cm/year) dynamic of the landslide complex. Advanced DInSAR was useful to monitor the slower ground displacements from long datasets of SAR images, providing a wider spatial coverage and measurement point density than the D-GPS. In addition, the NL-InSAR processing strategy was applied to monitor the faster motion using short datasets of TerraSAR-X images excluding the snow cover period.

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