Abstract
The agricultural potential is generally assessed and managed based on a one-dimensional vision of the soil profile, however, the increased appreciation of sustainable production has stimulated studies on faster and more accurate evaluation techniques and methods of the agricultural potential on detailed scales. The objective of this study was to investigate the possibility of using soil magnetic susceptibility for the identification of landscape segments on a detailed scale in the region of Jaboticabal, São Paulo State. The studied area has two slope curvatures: linear and concave, subdivided into three landscape segments: upper slope (US, concave), middle slope (MS, linear) and lower slope (LS, linear). In each of these segments, 20 points were randomly sampled from a database with 207 samples forming a regular grid installed in each landscape segment. The soil physical and chemical properties, CO2 emissions (FCO2) and magnetic susceptibility (MS) of the samples were evaluated represented by: magnetic susceptibility of air-dried fine earth (MS ADFE), magnetic susceptibility of the total sand fraction (MS TS) and magnetic susceptibility of the clay fraction (MS Cl) in the 0.00 - 0.15 m layer. The principal component analysis showed that MS is an important property that can be used to identify landscape segments, because the correlation of this property within the first principal component was high. The hierarchical cluster analysis method identified two groups based on the variables selected by principal component analysis; of the six selected variables, three were related to magnetic susceptibility. The landscape segments were differentiated similarly by the principal component analysis and by the cluster analysis using only the properties with higher discriminatory power. The cluster analysis of MS ADFE, MS TS and MS Cl allowed the formation of three groups that agree with the segment division established in the field. The grouping by cluster analysis indicated MS as a tool that could facilitate the identification of landscape segments and enable the mapping of more homogeneous areas at similar locations.
Highlights
The increased recognition of sustainable production has stimulated studies on evaluation techniques and methods of the agricultural potential on a detailed scale that are fast, accurate and economical
The objective of this study was to investigate the potential of magnetic susceptibility in the identification of landscape segments on a detailed scale in an area located in Jaboticabal (SP), under mechanically harvested sugarcane
The values of magnetic susceptibility of the total sand fraction (MSTS), M, Organic matter (OM), V% and pH were highest in the middle slope position, while TS, Silt, magnetic susceptibility of air-dried fine earth (MSADFE), magnetic susceptibility of the clay fraction (MSCl), FCO2, Geometric Mean Diameter (GMD) and total pore volume (TPV) were highest in the lower slope
Summary
The increased recognition of sustainable production has stimulated studies on evaluation techniques and methods of the agricultural potential on a detailed scale that are fast, accurate and economical. The agricultural development in the tropics needs characterization and precise mapping of the soil for appropriate recommendations of the management system to be used (Shepherd & Walsh, 2007). The mapping of a soil, characterized as free or categorical mapping is based on the knowledge of the different landforms found at a site of interest (Legros, 2006) Such studies, aside from providing information for the characterization of homogeneous areas, permit knowledge take-over for the same sites of pedogeomorphic domain (Marques Jr., 2009), contributing to management strategies that are in agreement with sustainable production
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