Pre-sowing seed treatment nanotechnology with environment-friendly nanotube-based nanochips

Karpachev, V.V.; Spiridonov, J.J.; Voropaeva, N.L.; Tkachev, A.G.; Shachnev, N.V.; Figovsky, O.L.

doi:10.18052/www.scipress.com/ILNS.58.29

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Artykuł - szczegóły

Czasopismo

International Letters of Natural Sciences

2016 | 58 |

Tytuł artykułu

Pre-sowing seed treatment nanotechnology with environment-friendly nanotube-based nanochips

Autorzy

Karpachev V.V. , Spiridonov J.J. , Voropaeva N.L. , Tkachev A.G. , Shachnev N.V. , Figovsky O.L.

Treść / Zawartość

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Warianty tytułu

Języki publikacji

Abstrakty

This particular study deals with the impact of pre-sowing nanotube-based seed treatment technology on rapeseed (Brassica napus) growth and yield. During field tests we identified a significant yield increase as a result of applying the pre-sowing nanotube-based seed treatment technology. The main treatment agents were physiologically active nanochips consisting of carrier matrix nanotubes with eliciting activity ("Taunit", "Taunit-M", "Taunit-MD", and graphene). Enriching nanochips with insecticide-fungicide Kruizer-rape for guaranteed seed protection from crucifer flea allowed to raise the yield up to 8.08 t / ha - 12.28 t / ha.

Słowa kluczowe

pre-sowing treatment seed treatment nanotechnology nanotube yield field test fungicidal activity insecticide environment-friendly method

Wydawca

Czasopismo

International Letters of Natural Sciences

Rocznik

2016

Tom

Opis fizyczny

p.29-34,fig.,ref.

Twórcy

autor

Karpachev V.V.

Federal State-Financed Scientific Institute "All-Russian Rapeseed Research Institute", Boyevoy Proezd 26, Lipetsk, 398037, Russia

autor

Spiridonov J.J.

Federal State-Financed Scientific Institute "All-Russian Scientific and Research Institute of Phitopathology", Russia

autor

Voropaeva N.L.

Federal State-Financed Scientific Institute "All-Russian Rapeseed Research Institute", Boyevoy Proezd 26, Lipetsk, 398037, Russia

autor

Tkachev A.G.

Tambov State Technical University, Tambov, Russia

autor

Shachnev N.V.

Federal State-Financed Scientific Institute "All-Russian Rapeseed Research Institute", Boyevoy Proezd 26, Lipetsk, 398037, Russia

autor

Figovsky O.L.

Polymate Ltd.-INRC, Migdal Ha Emek, Israel

Bibliografia

[1] A.Y. Godymchuk, P.N. Savelev, F.P. Zykova, Ecology of nanomaterials, Moscow, Russia, 2012.
[2] V.A. Zakharenko, Nanofitosanitation - scientific field that combines nanotechnology and advanced protection of plants. Part 3. Biosecurity (nano) materials and nanotechnology in nanofitosanitarii, Agrochemistry. 5 (2011) 3-8.
[3] E.A. Smirnova et al., Carbon nanotubes penetrate the tissues and cells, and have a stimulating effect on the sainfoinseedlings Onobrychisarenaria (Kit.), Acta Naturae. 3(1) (2011) 106-113.
[4] Е.A. Smirnova et al., Uptake and accumulation of multiwalled carbon nanotubes change the morphometric and biochemical characteristics of Onobrychisarenaria seedlings, Frontiers of Chemical Science and Engineering. 6(2) (2012) 132-138.
[5] S. Tripathi, S.K. Sonkar, S. Sarkar, Growth stimulation of gram (Cicer arietinum) plant by water soluble carbon nanotubes, Nanoscale. 3(3) (2011) 1176-1181.
[6] Information on http://www.agroxxi.ru/arhiv-novostei/nanotehnologi-perspektiva-i-dljaselskogo-hozjaistva.html.
[7] Information on www.abercade.ru/research/industrynews/2678.html.
[8] А.А. Gusev et al., Morphometric Parameters and Biochemical Status of Oilseed Rape Exposed to Fine-Dispersed Metallurgical Sludge, PHMB-Stabilized Silver Nanoparticles and Multi-Wall Carbon Nanotubes, Advanced Materials Research. 880 (2014) 212-218.
[9] E. Pshenichnikova et al., Environmentally friendly (nano) chips based on nanotubes for agriculture, in: Proceedings of the International scientific-practical conference "Methods and techniques in plant breeding and plant growing", School of young scientists on ecological and genetic bases of the northern crop in the International scientific-practical conference, Kirov, Russia, 2015, pp. 184-186.
[10] I.N. Ruban et.al. Biologically active multifunctional nanochips and method application thereof for production of high-quality seed. USA Patent, 12459518 (2012).
[11] V.V. Karpachev, Cruiser-rape, Lipetsk, Russia, 2010.
[12] V.V. Karpachev, Rapeseed - the crops of the 21st century, Lipetsk, Russia, 2010.
[13] V. Karpachev et al., The long-term resource-spring rapeseed production technology: guidelines, Moscow, Russia, 2008.
[14] Yin Heng, Zhao Xiaoming, Du Yuguang, Oligochitosan: a plant diseases vaccine - a review, Carbohydrate Polymers. 82(1) (2010) 1-8.
[15] E.I. Mohamed Badawy, I.Entsar Rabea, A biopolymer chitosan and its derivatives as promising antimicrobial agents against plant pathogens and their applications in crop protection, International Journal of Carbohydrate Chemistry. (2011) 29-64.
[16] N. Voropaeva et al., Innovative application technology for challenging inducers of disease resistance in spring rape in (nano) chips, International Letters of Chemistry, Physics and Astronomy. 42 (2015) 36-44.
[17] GOST 12038-84, Seeds of agricultural crops. Germination determination approaches, 2011.
[18] Yu.I. Golovin, R.A. Stolyarov, A.G. Tkachev, The process for obtaining bulk nanostructured material, RF Patent 2475445, (2013).

Typ dokumentu

Bibliografia

Identyfikatory

DOI

10.18052/www.scipress.com/ILNS.58.29

Identyfikator YADDA

bwmeta1.element.agro-c81e01d9-d048-4f3c-9350-6601f3c02b3b