Fractal dimension and geostatistical parameters for soil microrelief as a function of cumulative precipitation

Authors

  • Eva Vidal Vázquez Universidade da Coruña; Facultad de Ciencias
  • Sidney Rosa Vieira Instituto Agronômico; Centro de Solos e Recursos Ambientais
  • Isabella Clerici De Maria Instituto Agronômico; Centro de Solos e Recursos Ambientais
  • Antonio Paz González Universidade da Coruña; Facultad de Ciencias

DOI:

https://doi.org/10.1590/S0103-90162010000100011

Keywords:

Oxisol, tillage, soil surface roughness, semivariogram, crossover length

Abstract

Surface roughness isinfluenced by type and intensity of soil tillage among other factors, and it changes considerably with rain. In microrelief studies the advantages of using indices such as the fractal dimension, D, and the crossover length, l, is that they allow the partition of the roughness characteristics into properties that depend purely on the scale and on a scale free component, respectively. On the other hand, some geostatistical parameters may provide different ways to understand soil surface variability not addressed with fractal parameters. Changes in fractal dimension and semivariogram parameters for surface roughness evolution were evaluated as a function of cumulative rainfall on Oxisol samples over six tillage treatments, namely, disc harrow, disc plow, chisel plow, disc harrow+disc level, disc plow+disc level and chisel plow+disc level. Measurements were taken in each tillage treatment after rainfall events yielding a total of 48 experimental surfaces measured with a pin microrelief meter. The plot had 135 cm by 135 cm and the sample spacing was 25 mm. Trends due to plot slope component with its concavities and convexities and to agricultural practices were removed from field data sets. A semivariogram model was fitted to each of the surfaces and the model parameters were analyzed and related to the fractal dimension, D, and crossover length, l. A relationship was found between the fractal dimension, D, and semivariogram model parameters. The cross over length, l,did not show as strong relationships with the semivariogram model parameters, even though there was a power relation between D and l.

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Published

2010-02-01

Issue

Section

Soils and Plant Nutrition

How to Cite

Fractal dimension and geostatistical parameters for soil microrelief as a function of cumulative precipitation . (2010). Scientia Agricola, 67(1), 78-83. https://doi.org/10.1590/S0103-90162010000100011