Phosphorus (P) fertilizers are added to improve the soil P fertility, but the rate of P release can greatly influence its availability. Organic acids are effective in the release of inorganic P (Pi), but the contribution of each Pi fraction is not well understood. This study reported the transformation rate of P and solubility of Pi fractions induced by organic acids. Path analysis was utilized to explore the direct and indirect effects of Pi fractions on the amount of total Pi (TPi) solubilized. Results showed that the P release was initially rapid, followed by a slower release that lasted up to 2160 h, and the Elovich equation was the best-fitted kinetic equation to estimate the transformation rate of available P. The amount of TPi-solubilized by oxalic and citric acids tended to increase with increasing organic acid concentrations. Oxalic acid exhibited a lower TPi-solubility capability than citric acid when the organic acid concentration was ≤1 mmol L-1, whereas citric acid was higher at ≥1.5 mmol L-1. The Al-P-solubilized had the highest content of studied fractions, and path analysis revealed that the Al-P-solubilized exhibited a significant direct effect on TPi-solubilized. Thus, Al-P is a potential P source in black soil.
How to translate text using browser tools
30 January 2019
Phosphorus release kinetics and solubility capacity of phosphorus fractionation induced by organic acids from a black soil in northeast China
Xiaoyan Yang,
Xiangwei Chen,
Xitian Yang
ACCESS THE FULL ARTICLE
It is not available for individual sale.
This article is only available to subscribers.
It is not available for individual sale.
It is not available for individual sale.
Canadian Journal of Soil Science
Vol. 99 • No. 1
March 2019
Vol. 99 • No. 1
March 2019
citric acid
oxalic acid
path analysis
phosphorus fractions
phosphorus solubility