Properties of Nitrogen-, Potassium-, and Phosphorus-Containing Biocomposite Fertilizers Based on Pine Bark
M. YU. BELASH, E. V. VEPRIKOVA, I. P. IVANOV, N. V. CHESNOKOV, O. P. TARAN
Institute of Chemistry and Chemical Technology SB RAS, Federal Research Centre “Krasnoyarsk Scientific Centre SB RAS”, Krasnoyarsk, Russia
Keywords: pine bark, porous support, biocomposite fertilizer, urea, potassium dihydrophosphate, prolonged action
Pages: 217-225
Abstract
A method for producing biocomposite fertilizers with increased water resistance, based on the sequential impregnation of supports from pine bark with the solutions of urea and potassium dihydrophosphate is proposed. The structure of supports prepared from pine bark and fertilizers based on them was studied by means of scanning electron microscopy. The ability of biocomposite fertilizers based on pine bark supports to provide slow outwashing of mineral components with water for a long time was established. The treatment of fertilizers with water at room temperature for 15 days results in the removal of nitrogen, phosphorus and potassium by not more than 34.4, 74.3 and 58.4 wt. %, respectively (of the initial content), which evidences in favour of the prolonged action of biocomposite fertilizers based on pine bark. It is shown that the use of support obtained through extraction treatment of pine bark with organic solvents allows making a fertilizer with higher stability against nitrogen removal with water in comparison with the fertilizer based on the support prepared by treating pine bark with 1 % NaOH solution. Vegetation experiments on germination of Megion oat seeds revealed the same growth-promoting effect of biocomposite fertilizers based on supports obtained using different methods: the length of sprouts and roots increased by a factor of 1.5 in comparison with the reference experiment (water). The studies demonstrated the high potential of the developed fertilizers as an alternative to traditional water-soluble fertilizers and provided evidence of the possibility to obtain them using either original pine bark or wastes from its extraction processing.
DOI: 10.15372/CSD2022376
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