The relation between climate change and its potential effects on the stability of slopes remains an open issue. For rainfall induced landslides, the point consists in determining the effects of the projected changes in the duration and amounts of rainfall that can initiate slope failures. We investigated the relationship between fine-scale climate projections obtained by downscaling and the expected modifications in landslide occurrence in Central Italy. We used rainfall measurements taken by 56 rain gauges in the 9-year period 2003 - 2011, and the RainFARM technique to generate downscaled synthetic rainfall fields from global climate model projections for the 14-year calibration period 2002-2015, and for the 40-year projection period 2010-2049. Using a specific algorithm, we extracted a number of rainfall events, i.e. rainfall periods separated by dry periods of no or negligible amount of rain, from the measured and the synthetic rainfall series. Then, we used the selected rainfall events to force TRIGRS v. 2.1, the Transient Rainfall Infiltration and Grid-Based Regional Slope-Stability Model. We analyzed the results in terms of variations (or lack of variations) in the pluviometric thresholds for the possible initiation of landslides, in the probability distribution of landslide size (area), and in landslide hazard. Results showed that the downscaled rainfall fields obtained by RainFARM can be used to single out rainfall events, and to force the slope stability model. Results further showed that while the rainfall thresholds for landslide occurrence are expected to change in future scenarios, the probability distribution of landslide areas are not. We infer that landslide hazard in the study area is expected to change in response to the projected variations in the rainfall conditions. We expect that our results will contribute to regional investigations of the expected impact of projected climate variations on slope stability conditions and on landslide hazards.

Implications of climate change on landslide hazard in Central Italy

M Alvioli;M Melillo;F Guzzetti;M Rossi;E Palazzi;M T Brunetti;S Peruccacci
2018

Abstract

The relation between climate change and its potential effects on the stability of slopes remains an open issue. For rainfall induced landslides, the point consists in determining the effects of the projected changes in the duration and amounts of rainfall that can initiate slope failures. We investigated the relationship between fine-scale climate projections obtained by downscaling and the expected modifications in landslide occurrence in Central Italy. We used rainfall measurements taken by 56 rain gauges in the 9-year period 2003 - 2011, and the RainFARM technique to generate downscaled synthetic rainfall fields from global climate model projections for the 14-year calibration period 2002-2015, and for the 40-year projection period 2010-2049. Using a specific algorithm, we extracted a number of rainfall events, i.e. rainfall periods separated by dry periods of no or negligible amount of rain, from the measured and the synthetic rainfall series. Then, we used the selected rainfall events to force TRIGRS v. 2.1, the Transient Rainfall Infiltration and Grid-Based Regional Slope-Stability Model. We analyzed the results in terms of variations (or lack of variations) in the pluviometric thresholds for the possible initiation of landslides, in the probability distribution of landslide size (area), and in landslide hazard. Results showed that the downscaled rainfall fields obtained by RainFARM can be used to single out rainfall events, and to force the slope stability model. Results further showed that while the rainfall thresholds for landslide occurrence are expected to change in future scenarios, the probability distribution of landslide areas are not. We infer that landslide hazard in the study area is expected to change in response to the projected variations in the rainfall conditions. We expect that our results will contribute to regional investigations of the expected impact of projected climate variations on slope stability conditions and on landslide hazards.
2018
Istituto di Ricerca per la Protezione Idrogeologica - IRPI
Climate change
landslide hazard
rainfall thresholds
size distribution
TRGIRS
physically based
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/351116
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