algorithm for calculating the least limiting water range of soils

algorithm for calculating the least limiting water range of soils

The least limiting water range (LLWR) is used to estimate the optimum soil water content for plant growth based on the range of bulk density values for a given soil series under evaluation. However, the use of this methodological approach by soil scientists has been limited by the lack of a detailed...

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Bibliographic Details
Published in:Agronomy journal Vol. 97; no. 4; pp. 1210 - 1215
Main Authors: Leao, T.P, Silva, A.P. da, Perfect, E, Tormena, C.A
Format: Journal Article
Language:English
Published: Madison, WI American Society of Agronomy 01-07-2005
Subjects:
Agronomy. Soil science and plant productions
Biological and medical sciences
bulk density
equations
Fundamental and applied biological sciences. Psychology
least limiting water range of soils
mathematical models
soil
soil density
soil penetration resistance
soil water
soil water content
soil water potential
statistical analysis
Soil water properties
Soil moisture
Agronomy
Water content
Property of soil
Physical properties
Algorithm
Computing method
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Summary:The least limiting water range (LLWR) is used to estimate the optimum soil water content for plant growth based on the range of bulk density values for a given soil series under evaluation. However, the use of this methodological approach by soil scientists has been limited by the lack of a detailed description of the statistical and mathematical procedures used for its calculation. This paper describes a Statistical Analysis System (SAS) algorithm for calculation of the LLWR from bulk density, volumetric water content, water potential, and soil penetration resistance data. Since nonlinear regression techniques are used, a brief description of the theory involved in this type of statistical analysis is presented. To improve the visualization and interpretation of the LLWR results, a plotting subroutine is also described. Five soils with different textures and management conditions were used to validate the algorithm. Statistical comparison with previously published LLWR calculations showed that the new method is reliable and accurate and can substantially reduce the time and labor necessary to estimate the LLWR of soils.
ISSN:0002-1962
1435-0645
DOI:10.2134/agronj2004.0229