Abstract
Landslides are common in the Northern Apennines (Italy) and their resulting changes in soil structure affect edaphic fauna biodiversity, whose activity has concurrent impacts on soil structural stability and water-holding capacity. The aim of this study was to characterise landslide evolution and assess potential relationships between its hydrogeological features and soil fauna. The landforms of the study area, located in the River Taro valley, were mapped and the hydraulic head fluctuations and groundwater electrical conductivity profiles were measured. The soil arthropod community was studied in seven sites, one subject to earth flow and six to rotational slide; the last ones were divided into the main scarp of the slide, and five sites characterized by different land use: three grassland, a wheat cultivated field and an overgrown area. Soil organic matter (SOM) and pH measurements were performed. Hydrogeological results suggest unexpected rapid percolation of relatively low-salinity waters through the unsaturated zone. Both lower SOM content and arthropod biodiversity were found in earth flow area, while higher values were found in grasslands. Fauna composition appears to be a good indicator of soil degradation processes, linked to the hydraulic features, and contributes to the evaluation of the soil condition in landslide areas for further agricultural purposes.
Highlights
Landslides are complex systems dependent on geological, geomorphological, hydrogeological and geotechnical factors, and represent worldwide danger for people, buildings and transportation infrastructures
The lowest amount of Soil organic matter (SOM) was detected in the earth flow area (EF), followed by the main scarp of the rotational slide (RSMS ), and both sites were similar to the cultivated site within the rotational slide (RSC )
SOM content is an important feature in driving soil faunal community, and to confirm this, our study shows an evident relationship between SOM content and soil microarthropods
Summary
Landslides are complex systems dependent on geological, geomorphological, hydrogeological and geotechnical factors, and represent worldwide danger for people, buildings and transportation infrastructures. They are common in the Northern Apennines (Italy), a folded and thrusted belt developed since the Cretaceous period [1,2,3,4], where different types of landslides can be detected and large earth flows are widespread [5]. Earth or rock rotational and/or translational slides evolve into earth flows [6,7] These landslides can be huge [8], and the affected areas can reach up to 105 m2 (with displaced volumes up to 108 m3 ). The distribution of precipitation is influenced by the recent climate changes [11], and prolonged dry periods alternated with intense rainfalls are more and more frequent
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