Abstract
Grazing management practices can be erosion abatement actions for lowering soil loss and the subsequent sediment pollution of surface water bodies. Process-based Geographic Information Systems models provide the opportunity to identify critical areas and hence better target such actions across the landscape. This study implemented the SWAT (Soil Water Assessment Tool) hydrologic and catchment management model to estimate the soil loss vulnerability of the nearly pristine but highly erodible Greek island of Samothraki in the North Aegean Sea, with a typical Mediterranean climate and steep topography. Model parameterization and evaluation were carried out by taking advantage of previous modeling experience on areas with data limitations. Inter-annual and intra-annual soil loss variability and the most critical areas (subbasins) of soil loss to waters were adequately identified and grazing management scenarios, including livestock reductions by 50% and 100%, grazing period reduction, and a combination of them, were formulated and applied to investigate the degree to which soil loss could be reduced. The annual reduction results varied between scenarios in the range of 10% to 25% for the entire island, and in wider ranges for its individual subbasins, showing a high potential for reducing the vulnerability of the most pressured ones. However, due to the high importance of the natural factors of rainfall and land slopes, the erosion vulnerability of the island overall could be significantly altered only if grazing management was integrated within a vegetation regeneration plan that included reforestation.
Highlights
Soil erosion is considered to be one of the major threats to Europe’s soils, impacting on agricultural production, ecosystem services, and water resources [1,2]
Equation (1) calculates the hillslope erosion material that is lost from the land entering surface waters; this paper reports soil loss estimates
Due to the mountainous land of those three basins, precipitation and snowfall were much higher than the averages for the entire island. This was the case for runoff, which—due to the low soils’ permeability and very steep relief—was enhanced in Samothraki, and even more in the three basins
Summary
Soil erosion is considered to be one of the major threats to Europe’s soils, impacting on agricultural production, ecosystem services, and water resources [1,2]. For the European Mediterranean environments, it is one of the most important land degradation processes, with hot spots of soil erosion (rates > 20 t/ha/y) [4]. The major anthropogenic factors of soil erosion and loss are considered to be deforestation, overgrazing, and unsuitable agricultural practices of the cropping land [7]. Recent Mediterranean studies have reported some factors that are responsible for erosion factors, including intensive ploughing [8], the non-adoption of catch crops to cover bare soil in between tree cultivations [9], as well as limited organic farming, which, based on reduced tillage and organic fertilizers, could improve soil physical quality
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