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Abstract
Soil tests commonly used to develop potassium (K) fertilizer recommendations, such as extraction by 1 M ammonium acetate (NH4OAc) at pH 7, measure both soluble and exchangeable K. In soils that fix K so that it is no longer exchangeable, although a portion of it may still be available to plants, additional tests are required to understand the dynamics of soil K. The sodium tetraphenylboron method has been shown in some studies to provide a better measure of plant-available, nonexchangeable K. Two K-fixation-potential tests estimate the amount of K that a soil will fix in a nonexchangeable state. This study uses extractions with ammonium acetate and sodium tetraphenylboron along with the 1-h K-fixation-potential test to analyze the fate of K applied as potassium chloride (KCl) to K-fixing soil samples from the San Joaquin Valley of California. Samples were incubated moist for 1, 2, 4, 8, or 16 days to evaluate the effect of time on the K-test values. The effects of drying on K-fixation potential and NH4OAc-extractable K were also investigated. After application of K at a rate equal to the measured K-fixation potential and incubation for up to 16 days, soils continued to fix added K, though reduced as compared to initial amounts. Drying treated samples increased their subsequent K-fixation potential but had mixed effects on NH4OAc-extractable K. Over the range of incubation times, K-fixation-potential values remained stable for all soils. NH4OAc-extractable K and sodium tetraphenylboron–extractable K values, however, were affected variably by incubation time. The results of this work will be useful for determining K-fertilizer application requirements for K-fixing soils.
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Acknowledgments
The authors thank Hideomi Minoshima and Jiayou Deng for technical assistance. Research was made possible by grants from the Lodi Winegrape Commission and the California Department of Food and Agriculture.