Abstract
Abstract. The Mediterranean region is particularly prone to erosion. This is because it is subject to long dry periods followed by heavy bursts of erosive rainfall, falling on steep slopes with fragile soils, resulting in considerable amounts of erosion. In parts of the Mediterranean region, erosion has reached a stage of irreversibility and in some places erosion has practically ceased because there is no more soil left. With a very slow rate of soil formation, any soil loss of more than 1 t ha−1 yr−1 can be considered as irreversible within a time span of 50-100 years. The objectives of this study were i) to estimate the temporal and spatial distribution of soil erosion under climate change scenarios in study area ii) to assess the hydrological runoff processes. In this study, climate data, land use, topographic and physiographic properties were assembled for Egribuk Subcatchment at Seyhan River Basin in Turkey and used in a process-based Geographical Information System (GIS) to determine the hydrological sediment potential and quantify reservoir sedimentation. The estimated amount of sediment transported downstream is potentially large based on hydrological runoff processes using the Pan-European Soil Erosion Risk Assessment (PESERA) model. The detailed model inputs included 128 variables derived mainly from, soil, climate, land use/cover, topography data sets. The outcomes of this research were spatial and temporal distribution of erosion amount in t ha−1 yr−1 or month−1.
Highlights
Soil erosion is a major environmental problem in Turkey and worldwide
Future climate maps were obtained from WorldClim research group with 1-km spatial resolution which were based on climate projections from global climate models (GCMs) for the Representative Concentration Pathways’ (RCPs) 4.5 which was one of the most recent GCM climate projections defined in the Intergovernmental Panel on Climate Change (IPCC) Fifth Assessment report
In this paper we modelled the soil erosion estimates using the Pan-European Soil Erosion Risk Assessment (PESERA) model at 100 m resolution for the Seyhan River Basin
Summary
Soil erosion is a major environmental problem in Turkey and worldwide. It is associated with about 85 % of land degradation in the world, causing up to 17% reduction in crop productivity (Oldeman et al, 1990). In respect to increases of greenhouse emissions due to anthropogenic effects, The Intergovernmental Panel on Climate Change (IPCC) has developed different climate scenarios within its 5th Assessment Report. These scenarios are called ‘Representative Concentration Pathways’ (RCPs) because they were developed to be ‘representative’ of possible future emissions and concentration scenarios published in the existing literature. Four RCPs scenarios were selected with prescribed CO2 concentrations reaching 421 ppm (RCP2.6), 538 ppm (RCP4.5), 670 ppm (RCP6.0), and 936 ppm (RCP 8.5) by the year 2100 (Australian Government, 2014)
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