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Influence of Improved (Nano) Systems on Cultivated Corn Growth, Development and Yield

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Using physiologically active, complex, polyfunctional, multicomponent (nano) systems – (nano) chips in the pre-sowing soya treatment (nano) technology allows precise seeding; enhancing field seed germination; reducing plant morbidity rate considerably or even deleting disease incidents; increasing plant adaptability to unfavorable environmental conditions; expanding crop yield; improving products quality by not using toxic chemical means of plant protection; intensifying competitive ability of agricultural products as well as assuring environmental safety in crop cultivation regions.


International Letters of Chemistry, Physics and Astronomy (Volume 28)
N. Voropaeva et al., "Influence of Improved (Nano) Systems on Cultivated Corn Growth, Development and Yield", International Letters of Chemistry, Physics and Astronomy, Vol. 28, pp. 1-7, 2014
Online since:
February 2014

Nizhegorodov U.A. Vermiculite and Vermiculite Technology. - Irkutsk:, Russia Business-Story, 2008, 500.

Cit. the national centre for marketing and price study" RU.

Conditions TU «Agro vermiculite» 2189-001-32441125-01.

Cit. the http/ vermiculite. kiev. ua/vermiculite. htm.

Cit. the http/hydroponica. org/razvitie_promyshlennoi_gidroponiki_vermikulitovaya_kultura. htm.

Ruban I. N., Voropaeva N. L, Figovsky O. L. et. al., Patent USА 2459518. (2012).

N. Voropaeva, V. Karpachev, V. Varlamov, O. Figovsky, International Letters of Chemistry, Physics and Astronomy 7 (2014) 62-68. ( Received 30 January 2014; accepted 05 February 2014 ).

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