14. Scientific approaches to deriving liquid organomineral fertilizers

https://doi.org/10.31073/agrovisnyk201801-14
Artem’ieva K. S.
Pages: 83-86.

Full article: 
Abstract
The purpose. To develop a method of deriving of liquid organomineral fertilizer with the use of local sources of raw materials. Methods. Laboratory-analytical, modelling. Results. Technological approaches to processing local raw materials into organomineral fertilizers with specific content of nutrients are offered. Conclusions. The offered method of deriving liquid organomineral fertilizer is founded on application of accessible organic and mineral raw materials which during transformation get the water-soluble form balanced by the content of humic matters and nitrogen.

Key words: organomineral fertilizers, carbamide-ammonium nitrate, humic acids, humate, extraction, water-soluble complexes.

References
  1. Vakal S.V., Skryilnik E.V. (2007). Receiving mineral fertilizers with a sodium humate. Radostim. K. 2007. C. 105–106.
  2. Cavani L., Ciavatta C., Gessa C. (2003). Identification of organic matter from peat, leonardite and lignite fertilizers using humification parameters and electrofocusing. Bioresource Technology 86. P.45-52.
  3. Francioso O., Ciavatta C., Montecchio D.  (2003). Quantitative estimation of peat, brown coal and lignite humic acides using chemical parameters, 1H-NMR and DTA analyses. Bio-resource Technology 88. 2003. P.189-195.
  4. Francioso O., Sanchez-Cortes S., Tugnoli V. (2001). Spectroscopic study (DRIFT, SERS, 1H-NMR) of peat, leonardite and lignite humic substances. Journal of Molecular Structure 565-566. 2001. P.481-485.
  5. Skrilnik E.V., Batsula O.O., Karpach K.S. (2000). Improvement of methods of extraction of humus substances from organic fertilizers. VIsnik HDAU0. № 1. C. 48–53.
  6. Nebbioso A., Piccolo A. (2011). Basis of a Humeomics Science: chemical frac-tionation and molecular characterization of humic biosup restructures. Biomacromolecules. №12.-P. 1187–1199.
  7. Skrilnik E.V. (2008). Methodological and technological aspects of creating biostimulants of organic origin: collection. mater conf. "Achievements and prospects of the use of humic substances in agriculture". D. 2008. C. 110–112.
  8. Muter O., Limane B. , Strikauska S.  (2015). Effect of humic-rich peat extract on plant growth and microbial activity in contaminated soil. Science and Applied Chemistry. №32. P. 68—74.
  9. Yakimenko O.S. (2010). Chemical structure and properties of industrial humates of various origin: Sb.mater.conf. "Humic substances and phytohormones in agriculture". D. P. 48-50.
  10. Korniyenko Ya.M. Protses vyluchennya huminovmisnykh rechovyn z torfu: monohr./Ya.M. Korniyenko, A.R. Stepanyuk. — K., 2015. — S. 146.