Log selfsimilarity of continuous soil particle-size distributions estimated using random multiplicative cascades
Martín Martín, Miguel Ángel (Universidad Politécnica de Madrid. ETSI Agronomica, Alimentaria y de Biosistemas)
Garcia-Gutieŕrez, Carlos (Universidad Politécnica de Madrid. ETSI Agronomica, Alimentaria y de Biosistemas)

Fecha:	2008
Resumen:	Particle-size distribution (PSD) is a fundamental soil property usually reported as discrete clay, silt, and sand percentages. Models and methods to effectively generate a continuous PSD from such poor descriptions using another property would be extremely useful to predict and understand in fragmented distributions, which are ubiquitous in nature. Power laws for soil PSDs imply scale invariance (or selfsimilarity), a property which has proven useful in PSD description. This work is based on two novel ideas in modeling PSDs: (1) the concept of selfsimilarity in PSDs; and (2) mathematical tools to calculate fractal distributions for specific soil PSDs using few actual texture data. Based on these ideas, a random, multiplicative cascade model was developed that relies on a regularity of scale invariance called 'log-selfsimilarity. ' The model allows the estimation of intermediate particle size values from common texture data. Using equivalent inputs, this new modeling approach was checked using soil data and shown to provide greatly improved results in comparison to the selfsimilar model for soil PSD data. The Kolmogorov-Smirnov D-statistic for the log-selfsimilar model was smaller than the selfsimilar model in 92. 94% of cases. The average error was 0. 74 times that of the selfsimilar model. The proposed method allows measurement of a heterogeneity index, H, defined using Hölder exponents, which facilitates quantitative characterization of soil textural classes. The average H value ranged from 0. 381 for silt texture to 0. 838 for sandy loam texture, with a variance of <0. 034 for all textural classes. The index can also be used to distinguish textures within the same textural class. These results strongly suggest that the model and its parameters might be useful in estimating other soil physical properties and in developing new soil PSD pedotransfer functions, This modeling approach along with its potential applications, might be extended to fine-grained mineral and material studies.
Ayudas:	Ministerio de Ciencia e Innovación AGL2004-04079
Derechos:	Tots els drets reservats.
Lengua:	Anglès
Documento:	Article ; recerca ; Versió publicada
Materia:	Fractals ; Fragmentation ; Iterated Function Systems ; Log-selfsimilarity ; Particle-size Distribution ; Random Cascades ; Soil
Publicado en:	Clays and Clay Minerals, Vol. 56, Núm. 3 (2008) , p. 389-395, ISSN 1552-8367

DOI: 10.1346/CCMN.2008.0560308

7 p, 190.1 KB  Acceso restringido a la UAB

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