Abstract
Soil degradation on Alpine grasslands is triggered mainly by extreme topography, prevailing climate conditions and land use practices. Suitable monitoring tools are required to assess soil erosion with high temporal and spatial resolution. In this study, we present an unprecedented and comprehensive approach based on object-based image analysis (OBIA) to map and assess all occurring erosion processes within a catchment (Urseren Valley, Switzerland). Five high-resolution (0.25−0.5m) orthophotos with RGB spectral information (SwissImage) produced during a 16-yr period were analyzed. Soil erosion sites are classified according to their type (shallow landslide or sites with reduced vegetation cover affected by sheet erosion) or the triggering land use management impacts (haying, trampling) with the Overall Accuracy ranging between 78 and 88% (Kappa 0.65–0.81) for the different years. The area affected by soil erosion increases for all classes during the study period (2000–2016) by a total of 156 ± 18% (increase consisting of 3% shallow landslides, 5% livestock trails, 46% sheet erosion and 46% management effects). Slopes at lower elevations (<1800masl) are increasingly affected by livestock trails and sheet erosion caused by trampling and grazing as well as other management practices. For areas located above the agricultural land use, an increase in shallow landslides, as well as sheet erosion, can be observed. This points to climate change as a triggering factor of soil degradation, which has not been identified so far as a factor for soil erosion in the Urseren Valley. While OBIA yields conservative estimations mainly due to limitations of spatial resolutions, the method facilitates a comprehensive overview of the ongoing temporal and spatial development regarding soil degradation within the Urseren Valley.
Highlights
Alpine grasslands can be strongly affected by various types of soil erosion triggered by wind, water, snow, gravity and management impacts
We developed a holistic approach using objectbased image analysis (OBIA) to provide information on the location and extent of different erosion features on high-resolution orthophotos (0.25 0.5 m) for the Urseren Valley (Central Swiss Alps)
We were able to use OBIA to map and classify sites according to the main erosion process or triggering land use management impact
Summary
Alpine grasslands can be strongly affected by various types of soil erosion triggered by wind, water, snow, gravity and management impacts (e.g., trampling). Future climate change is expected to have a strong impact on the Alpine region causing an increase in temperature and a change in frequency and intensity of precipitation events as well as strongly altered snow dynamics (Beniston, 2006, 2012; CH2011, 2011; Frei et al, 2018; CH2018, 2018). Along with changing land use practices, such as intensified use of pastures, these changes are expected to have an increasing effect on the soil erosion rates in Alpine regions (Bosco et al, 2009; Meusburger and Alewell, 2008, 2009; Scheurer et al, 2009). We separate livestock trails from other management effects due to the very different appearances, triggering factors and distribution in the catchment
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