Fractal Features of Soil Particles as an Index of Land Degradation under Different Land-Use Patterns and Slope-Aspects

This study examines the effects of land use and slope aspect on soil erodibility (K-factor) and the fractal dimension (D) of soil particle size distribution (PSD) in calcareous soils at the watershed scale in western Iran. The study analyzed 113 soil samples collected from four land uses (slope-farm...

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Bibliographic Details
Published in:Land (Basel) 2023-03, Vol.12 (3), p.615
Main Authors: He, Feng, Mohamadzadeh, Neda, Sadeghnejad, Mostafa, Ingram, Ben, Ostovari, Yaser
Format: Article
Language:English
Subjects:
Agricultural land
calcareous soil
Calcareous soils
Calcium carbonate
Cation exchange
Cation exchanging
Clay
Clay soils
Comparative analysis
Composition
Degradation
DEM
Environmental aspects
fractal
Fractal geometry
Fractals
inceptisols
Iran
k factors
Land degradation
Land use
Measurement
Mechanical properties
Moisture content
Organic matter
Organic soils
Particle size
Particle size distribution
Particles
Pasture
Reading
RUSLE
Sedimentation & deposition
Size distribution
Slopes (Physical geography)
Soil analysis
Soil chemistry
Soil degradation
Soil erosion
Soil organic matter
Soil properties
Soil texture
Soil water
Solar radiation
Texture
Topography
Water content
Woodlands
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Summary:This study examines the effects of land use and slope aspect on soil erodibility (K-factor) and the fractal dimension (D) of soil particle size distribution (PSD) in calcareous soils at the watershed scale in western Iran. The study analyzed 113 soil samples collected from four land uses (slope-farmland, farmland, pasture, and woodland) at a depth of 0–20 cm, measuring common soil properties such as soil texture, soil organic matter (SOM), calcium carbonate (CaCO3), pH, and cation exchange capacity (CEC). The PSD of soil samples was measured using the international system of soil size fractions, and the D for PSD was calculated. The K-factor was calculated using the RUSLE model. The results showed that the K-factor was highest in slope farmlands with SOM at 1.6% and lowest in woodlands at 0.02 Mg h MJ−1 mm−1 with SOM at 3.5%. The study also found that there were significant correlations between D and clay content (r = 0.52), sand content (r = −0.29), and CEC (r = 0.36). Woodland soils had the highest SOM content, with a mean D value of 2.895, significantly higher than the mean D value of slope farmland soils, which had the lowest SOM at 1.6%. The study concludes that woodland soils retain finer particles, particularly clay, resulting in lower soil loss and land degradation compared to other land uses. Finally, the study suggests that shady slope aspects (south aspect) contain more organic matter due to less solar radiation and higher soil water content, resulting in lower soil erodibility (0.02 Mg h MJ−1 mm−1) and higher D values compared to other slope aspects.
ISSN:2073-445X
2073-445X
DOI:10.3390/land12030615