Citation: Jhm. Wosten et al., Pedotransfer functions: bridging the gap between available basic soil dataand missing soil hydraulic characteristics, J HYDROL, 251(3-4), 2001, pp. 123-150
Citation: Wj. Rawls et al., Testing soil water retention estimation with the MUUF pedotransfer model using data from the southern United States, J HYDROL, 251(3-4), 2001, pp. 177-185
Citation: Ca. Reynolds et al., Estimating soil water-holding capacities by linking the Food and Agriculture Organization soil map of the world with global pedon databases and continuous pedotransfer functions, WATER RES R, 36(12), 2000, pp. 3653-3662
Citation: Lj. Sikora et Wj. Rawls, In situ respiration determination as tool for classifying soils according to soil organic matter content, COMM SOIL S, 31(17-18), 2000, pp. 2793-2801
Citation: Ya. Pachepsky et Wj. Rawls, Accuracy and reliability of pedotransfer functions as affected by groupingsoils, SOIL SCI SO, 63(6), 1999, pp. 1748-1757
Authors:
Filgueira, RR
Fournier, LL
Sarli, GO
Aragon, A
Rawls, WJ
Citation: Rr. Filgueira et al., Sensitivity of fractal parameters of soil aggregates to different management practices in a Phaeozem in central Argentina, SOIL TILL R, 52(3-4), 1999, pp. 217-222
Citation: Ya. Pachepsky et al., The current status of pedotransfer functions: Their accuracy, reliability,and utility in field- and regional-scale modeling, GEOPHYS M, 108, 1999, pp. 223-234