【 摘 要 】

The macroscopic capillary length, lambda(c), is a fundamental soil parameter expressing the relative importance of the capillary over gravity forces during water movement in unsaturated soil. In this investigation, we propose a simple field method for estimating lambda(c) using only a single-ring infiltration experiment of the Beerkan type and measurements of initial and saturated soil water contents. We assumed that the intercept of the linear regression fitted to the steady-state portion of the experimental infiltration curve could be used as a reliable predictor of lambda(c). This hypothesis was validated by assessing the proposed calculation approach using both analytical and field data. The analytical validation demonstrated that the proposed method was able to provide reliable lambda(c) estimates over a wide range of soil textural characteristics and initial soil water contents. The field testing was performed on a large database including 433 Beerkan infiltration experiments, with the 99% of the experiments yielding realistic lambda(c) values. The generated lambda(c) values were then used in conjunction with four different methods for estimating saturated soil hydraulic conductivity, K-s. Estimated K-s values were close to those generated by a reference method, with relative error < 25% in nearly all cases. By comparison, assuming constant or soil-dependent lambda(c) values caused relative errors in K-s of up to 600%. Altogether, the proposed method constitutes an easy solution for estimating lambda(c), which can improve our ability to estimate K-s in the field.

【 授权许可】

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10_1016_j_jhydrol_2020_125159.pdf	3261KB	PDF	download