Characterization of Particle-Size Distribution in Soils with a Fragmentation Model

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DIVISION S-1-SOIL PHYSICS

Characterization of Particle-Size Distribution in Soils with a Fragmentation Model

Marco Bittelli^a, Gaylon S. Campbell^a and Markus Flury^a

^a Department of Crop and Soil Sciences, Washington State University, Pullman, WA 99164 USA

bittelli{at}mail.wsu.edu

Particle-size distributions (PSDs) of soils are often used toestimate other soil properties, such as soil moisture characteristicsand hydraulic conductivities. Prediction of hydraulic propertiesfrom soil texture requires an accurate characterization of PSDs.The objective of this study was to test the validity of a mass-basedfragmentation model to describe PSDs in soils. Wet sieving,pipette, and light-diffraction techniques were used to obtainPSDs of 19 soils in the range of 0.05 to 2000 µm. Lightdiffraction allows determination of smaller particle sizes thanthe classical sedimentation methods, and provides a high resolutionof the PSD. The measured data were analyzed with a mass-basedmodel originating from fragmentation processes, which yieldsa power-law relation between mass and size of soil particles.It was found that a single power-law exponent could not characterizethe PSD across the whole range of the measurements. Three mainpower-law domains were identified. The boundaries between thethree domains were located at particle diameters of 0.51 ±0.15 and 85.3 ± 25.3 µm. The exponent of the powerlaw describing the domain between 0.51 and 85.3 µm wascorrelated with the clay and sand contents of the soil sample,indicating some relationship between power-law exponent andtextural class. Two simple equations are derived to calculatethe parameters of the fragmentation model of the domain between0.51 and 85.3 µm from mass fractions of clay and silt.

Abbreviations: PSD, particle-size distribution • RMSE, root mean square error

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				T. H. Skaggs, L. M. Arya, P. J. Shouse, and B. P. Mohanty Estimating Particle-Size Distribution from Limited Soil Texture Data Soil Sci. Soc. Am. J., July 1, 2001; 65(4): 1038 - 1044. [Abstract] [Full Text] [PDF]