EVALUATION OF UNIVERSAL EXTRACTANTS FOR DETERMINING PLANT-AVAILABLE POTASSIUM IN INTENSIVELY CULTIVATED SOILS

Eighteen soils from northwestern Switzerland were used to study the value of seven universal extractants (CaCl2; DB-DTPA; Mehlich 1, 2, and 3; Morgan-Wolf; and NH4OAc-EDTA) for predicting plant available potassium (K) as compared to a bioassay (a modified Neubauer test with winter rye). These extractants were evaluated on the basis of K uptake by the bioassay test and the soil K status. In order to create the sufficiency level of exchangeable K for plant growth, soils were treated with 0, 20, 40, 80, and 160 mg K/kg of soil. The range of K uptake by the bioassay tests was between 89.2 and 403.0 mg/kg of soil for the control pots, and 136.6 to 495.8 for the K treatments with optimal conditions for plant growth. The average amounts of K extracted by the seven universal extractants, in ascending order, were: CaCl2 < Morgan-Wolf < Mehlich 1 < Mehlich 2 < NH4OAc-EDTA < Mehlich 3 < DB-DTPA. The highest simple correlation with K uptake versus the bioassay test was obtained with the DB-DTPA (r = 0.89) extractant and the lowest with the Mehlich 1 (r = 0.53) extractant. The DP-DTPA, NH4OAc-EDTA and Mehlich 3-K procedures showed an advantage over K procedures based on water soluble and exchangeable K pools in the investigated soils in order to predict the amount of plant-available K. A simple regression and the Cate-Nelson graphic method offer the possibility of assessing the soil-K status using K values obtained by these universal extractants and to calibrate them against K forms as follows: exchangeable, water soluble, and non-exchangeable.