Assessment of the impacts of land-use change and slope position on soil loss by magnetic susceptibility-based models |
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| Institution: | 1. State Key Laboratory of Eco-hydraulics in Northwest Arid Region of China, Xi''an University of Technology, Xi''an 710048, Shaanxi, China;2. Chair of Water Resources Management and Modeling of Hydrosystems, Department of Civil Engineering, Technische Universität Berlin, TIB 1-B14, Gustav-Meyer-Allee 25, 13355 Berlin, Germany;3. Key Laboratory of National Forestry Administration on Ecological Hydrology and Disaster Prevention in Arid Regions, Xi''an University of Technology, Xi''an 710048, Shaanxi, China;4. Shaanxi Province Institute of Water Resources and Electric Power Investigation and Design, Xi''an 710005, Shaanxi, China;1. Department of Water Engineering, Faculty of Agriculture, University of Tabriz, Tabriz, Iran;2. Department of Civil Engineering, Chandigarh University, Mohali, Punjab, India;3. School of Engineering, University of St. Thomas, Minnesota, 2115 Summit Avenue, St. Paul, MN 55105, USA;4. Department of Water Engineering, Faculty of Agriculture, Urmia University, Urmia, Nazlu, Iran;5. Department of Civil Engineering, Saeb University, Abhar, Iran;1. Pars Oil and Gas Company, Tehran, Iran;2. School of Geology, College of Science, University of Tehran, Tehran, Iran;1. EPROAD Research Unit, University of Picardie Jules Verne, IUT of Aisne, Saint Quentin, 02100, France;2. Hanoi University of Civil Engineering, Ha Noi, Viet Nam |
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| Abstract: | Soil loss is a global environmental problem resulting from the erosion process caused by many factors, including land use and slope position. Estimation of total soil loss from agricultural fields is useful for understanding the consequences of historical and current erosion. The main purposes of the current study are to explore the application of magnetic measurements in the mapping and measuring soil redistribution in cultivated (MZ13) and forested (MZ17) transects in a Moroccan subcatchment, to develop a methodological approach correlating magnetic susceptibility (MS, denoted χ) variation to soil erosion/aggradation, and to discriminate the effects of land-use change and slope position on the total cumulative soil loss, assessed using three recently established erosion models based on an MS parameter. MS measurements were done on several soil cores collected at different slope positions including the summit (SU), shoulder (SH), back slope (BS), foot slope (FS), toe slope (TS) for Transects MZ13 and MZ17. A tillage homogenization (T-H) model, simple correlation model (SCM), and simple proportional model (SPM) based on χlf (where lf indicates low frequency) were applied to estimate soil loss for each slope position in the two transects. The results show that the correlation between χlf and χfd (which is the frequency-dependent magnetic susceptibility percentage) is positive and high for the two transects (R2 = 0.95; p < 0.01). The results confirm that the χlf enhancement of soils selected in calcareous parent material is related to the pedogenic processes with the formation of superparamagnetic particles distributed along the slope positions. The current study proves that it is possible to trace and monitor soil erosion and deposition using magnetic parameters (χlf and χfd%) for different slope positions along cultivated and forested transects. The results confirm that the soil losses strongly depend on land use and slope position. Higher erosion depth (d) estimated using the three erosion models are comparable and were about d(T-H, BS17L) = ?154.9 cm, d(SCM, BS17L) = ?142.3 cm, and d(SPM, BS17L) = ?143.6 cm for MZ17 Transect, and about d(T-H, FS13M) = ?156.3 cm, d(SCM, TS13L) = ?143.8 cm, d(SPM, FS13M) = ?145.9 cm for MZ13 Transect. The applied models indicate that the strong losses take place in the upper and lower slopes of the cultivated transect, and in the middle and lower slopes of the forested transect. |
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| Keywords: | Magnetic susceptibility Soil loss Tillage homogenization Upper slope Lower slope Land use |
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