Borselli L., Vigiak O., Cavalli M., Ortiz Rodrigues A. J., 2014, Using connectivity to assess soil erosion and mass movement processes in the landscape_ applications and discussion of a new paradigm., CONNECTEUR - Scientific Kickoff Meeting (COST Action ES 1306), Wageningen (Olanda), 24-26 agosto 2014,
URL: http://www.cnr.it/prodotto/i/286485

Hydrologic and sedimentological connectivity concepts recently appeared as novel paradigms (Bracken and Croke, 2007) and tools to assess soil erosion at various scales. The landscape flow connectivity index IC (Borselli et al. 2007, 2008) is based on the ratio of hydrological distance to streams with the potential upstream runoff occurrence, hence it allows mapping surface runoff connectivity and erosion across the landscape. After its first introduction, several studies applied the IC algorithm in very different geographic regions and territorial scale_ 150 km2 watershed in Tuscany (Italy; Borselli et al. 2007, 2008); 20 small catchments (5 to 350 ha) in Murcia (Spain; Sougnez et al. 2011); 400 km2 watershed in Basilicata (South Italy; Borselli et al. 2011); 3300 km2 watershed in Victoria (Australia; Vigiak et al. 2012); 6 and 8 km2 watersheds in the Italian Alps (Cavalli et al., 2013); 74 ha catchment in Spanish Pre-Pyrenees (López-Vicente et al. 2013). Meanwhile, the IC index has been adapted for application to different erosion processes, i.e. hillslope erosion (Vigiak et al. 2012; López-Vicente et al. 2013), sediment remobilization by shallow landslides (Borselli et al. 2011), and debris flow (Cavalli et al 2013). Validation of IC index applications in spatially distributed erosion models has been conducted with field observations at hillslope scale, calibration against sediment yield estimates at several monitoring stations. These scientific results highlight the promising potential application of IC concept for erosion and shallow mass movement modelling . In this session, the IC model with a set of its proposed variants will be described. Future work perspectives, including potential developments of IC approach as an alternative method to classical soil erosion modelling, will be discussed.

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