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Gilyazov, M., Faskhutdinov, F., & Minikaev, R. (2019). Influence of Increasing Doses of Herbal Cellulose Bleaching Lye on Crop Yields. KnE Life Sciences, 4(14), 328–337. https://doi.org/10.18502/kls.v4i14.5619

https://doi.org/10.18502/kls.v4i14.5619

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authors

  • Minnegali Gilyazov

    Minnegali Gilyazov

    Kazan State Agricultural University, Kazan, Russia
  • Fannur Faskhutdinov

    Fannur Faskhutdinov

    Kazan State Agricultural University, Kazan, Russia
  • Rogat Minikaev

    Rogat Minikaev

    Kazan State Agricultural University, Kazan, Russia

Published Date

  • Nov 25, 2019

Influence of Increasing Doses of Herbal Cellulose Bleaching Lye on Crop Yields

KnE Life Sciences / International Scientific and Practical Conference “AgroSMART – Smart Solutions for Agriculture” / Pages 328–337

Abstract

The team of Russian scientists has developed a new technology of pulp production from herbaceous vegetation, which can significantly reduce the negative impact of pulp and paper industry on the environment and become a very significant support for the development of agriculture. Laboratory-model and field experiments were carried out under conditions of grey forest soil. 2–12 l/m2 single application of boring liquor increased the productivity of tested crops within two years, while higher doses (16–48 l/m2) showed a reliable decrease in the yield of both crops, however, in the second year the negative impact of increased doses significantly decreased.

References
[1] Gladysheva, E.K. (2015). Study of biosynthesis of bacterial cellulose culture MedusomycesgiseviiJ. Lindau in environments with open glucose concentration. Fundamental research, no. 2-1, pp. 13–17.

[2] Nugmanov, O., Lebedev, N. (2009). Cellulose. The beginning of our era. Tatarstan brings to the Russian and world market the leading technology of pulp production. The Chemical Journal, pp. 30–33.

[3] Nugmanov, O., Lebedev, N., Yarullin, R. (2012). Herbal pulp in Russian regions. The Chemical Journal, pp. 30–32.

[4] Nugmanov, O.K., Grigorieva, N.P., Lebedev, N.A., Khlebnikov, V.N., Yarullin, R.N. (2009). Method of pulp production. Patent no. 2343241 (RF), BI. no. 1, p. 6.

[5] Nugmanov, O.K., Grigorieva, N.P., Gainullin, N.I., Lebedev, N.A. (2010). Method of pulp production. Patent no. 2378432 (RF), BI. no. 1, p. 6.

[6] Nugmanov, O.K., Grigorieva, N.P., Nusinovich, D.S., Lebedev, N.A. (2011). Cellulose production method. Patent no.n2413808 (RF). / BI. no. 7, p. 6.

[7] Shumnyi, V.K., Kolchanov, N.A., Sakovich, G.V. et al. (2010). Search of the renewable cellulose sources for the multipurpose use. Vavilovsky Journal of Genetics and Selection, no. 3, pp. 569–578.

[8] Yakusheva, A.A. (2014). Cellulose nitrates from a new source of cellulose -- oat fruit shells. Fundamental research, no. 8, part 2, pp. 360–364.

[9] Brunori, G. (2013). Biomass, Biovalue and Sustainability: Some Thoughts on the Definition of the Bioeconomy. EuroChoices, vol. 12, no. 1, pp. 48–52.

[10] Gilyazov, M.Yu., Fashutdinov, F.Sh., Minikaev, R.V. On Fitotoxicity and Possibility to Utilize Boiling Lye During Grass Cellulose Producion by Innovative Methods. International Conference on Smart Solutions for Agriculture (Agro-SMART 2018). Advances in Engineering Research, vol. 151, pp. 211–215.

[11] Kircher, M. (2012). The transition to a bio-economy: national perspectives. Biofuels, Bioproducts and Biorefining, vol. 6, no. 3, pp. 240–245.