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Challenges in Mapping Soil Variability Using Apparent Soil Electrical Conductivity under Heterogeneous Topographic Conditions
oleh: István Mihály Kulmány, László Bede, Dávid Stencinger, Sándor Zsebő, Péter Csavajda, Renátó Kalocsai, Márton Vona, Gergely Jakab, Viktória Margit Vona, Ákos Bede-Fazekas
Format: | Article |
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Diterbitkan: | MDPI AG 2024-05-01 |
Deskripsi
Site-specific management requires the identification of treatment areas based on homogeneous characteristics. This study aimed to determine whether soil mapping based on apparent soil electrical conductivity (EC<sub>a</sub>) is suitable for mapping soil properties of fields with topographic heterogeneity. Research was conducted on two neighbouring fields in Fejér county, Hungary, with contrasting topographic heterogeneity. To characterise the spatial variability of soil attributes, EC<sub>a</sub> was measured and supplemented by obtaining soil samples and performing soil profile analysis. The relationship between EC<sub>a</sub> and soil physical and chemical properties was analysed using correlation, principal component, and regression analyses. The research revealed that the quality and strength of the relationship between EC<sub>a</sub> and soil remarkably differed in the two studied fields. In homogeneous topographic conditions, EC<sub>a</sub> was weakly correlated with elevation as determined by soil physical texture and nutrient content in a strong (R<sup>2</sup> = 0.72) linear model. On the other hand, EC<sub>a</sub> was significantly determined by elevation in heterogeneous topographic conditions in a moderate (R<sup>2</sup> = 0.47) linear model. Consequently, EC<sub>a</sub>-based soil mapping can only be used to characterise the soil, thus delineating management zones under homogeneous topographic conditions.