Ali tretiranje semena koruze z ozonom vpliva na njegovo kalitev in energijo kalivosti?

Dmitry NORMOV, Evgenii CHESNIUK, Andrey SHEVCHENKO, Tatiana NORMOVA, Raisa GOLDMAN, Denis POZHIDAEV, Tanja BOHINC, Stanislav TRDAN

Povzetek


Prispevek obravnava tretiranje semena koruze pred setvijo z elektroozoniranjem. V njem so predstavljeni rezultati faktorskega poskusa vpliva različnih dejavnikov tehnološkega procesa elektroozoniranja na dejavnike kakovosti semena koruze. V tej zvezi so predstavljeni vplivi koncentracije ozona, časa tretiranja z ozonom in časa pred setvijo (po tretiranju z ozonom) na odstotek kalitve, energijo kalivosti in energijo rasti semena koruze. Ob upoštevanju rezultatov raziskave so izračunane regresijske enačbe, izdelani grafični prikazi in predstavljeni ključni parametri semena koruze, tretiranega z ozonom pred setvijo.


Ključne besede


elektroozoniranje; ozon: čas tretiranja; koncentracija ozona; čas pred setvijo; seme koruze; odstotek kalitve; energija kalivosti; energija rasti

Celotno besedilo:

PDF (English)

Literatura


Booker, F.L. (2009). The ozone component of global change: Potential effects on agricultural and horticultural plant yield, product quality and interactions with invasive species, Journal of Integrative Plant Biology, 51, 337-351.

Chizhevsky, A.L. (2015). Earth and space. Earth echo of cosmic storms. Academic project: 272 p. https://doi.org/10.1111/j.1744-7909.2008.00805.x

Dospehov, B.A. (1985). Methods of field experience: the textbook. Agropromizdat: 351 p.

Gerlach K.A. (1995). Effects of ozone on soybean seed vigor. Sustaing Planet Faith. Charleston: 44.

Mendes F., Maier D.E., Mason L.J. and Woloshuk C.P. (2003). Penetration of ozone into columns of stored grains and effects on chemical composition and processing performance. Journal of Stored Products Research, 39, 1, p. 3344. https://doi.org/10.1016/S0022-474X(02)00015-2

Normov, D.A. (2003). Drying and bactericidal properties of ozone. Physical and technical problems of creating new technologies in the agro-industrial complex: Collection of scientific papers. SSAU, Stavropol: 219-220.

Pat. 2248111 Russian Federation, IPC A01 S1 / 00 Method of presowing treatment of agricultural crops / Normov, D.A., Oskin S.V., Shevchenko A.A., Saprunova E.A./ applicant and patentee of KubSAU. - № 2003123158/13; declare 07/22/03, publ. 03/20/05, Bull. № 23: 3 p.

Rezchikov V.G., Churmasov, A.V., Gavrilova, A.A. (1998). The effect of ozone on the germination of pea and sea-buckthorn seeds. Technics in agriculture. Chelyabinsk: 14-17.

Sun J, Feng Z, Ort DR (2014) Impacts of rising tropospheric ozone on photosynthesis and metabolite levels on field grown soybean. Plant Science, 226, 147–161. https://doi.org/10.1016/j.plantsci.2014.06.012

Tzortzakis, N. G., Taybi, T., Antony, E., Singleton, I., Borland, A., & Barnes, J. (2013). Profiling shifts in protein com-plement in tomato fruit induced by atmospheric ozone-enrichment and/or wound-inoculation with Botrytis ciner-ea. Postharvest Biology and Technology, 78, 67–75. https://doi.org/10.1016/j.postharvbio.2012.12.005

Voznesensky V.A. 1981. Statistical Methods for Experimental Planning in Techno-Economic Research. Finance and Statistics: 259 p.

Yeoh, W. K., Ali, A., & Forney, C. F. (2014). Effects of ozone on major antioxidants and microbial populations of fresh-cut papaya. Postharvest Biology and Technology, 89, 56–58. https://doi.org/10.1016/j.postharvbio.2013.11.006




DOI: http://dx.doi.org/10.14720/aas.2019.114.2.10

Povratne povezave

  • Trenutno ni nobenih povratnih povezav.


Avtorske pravice (c) 2019

##submission.license.cc.by-nc-nd4.footer##

 

Acta agriculturae Slovenica je odprtodostopna revija, ki objavlja pod pogoji licence Creative Commons Priznanje avtorstva (CC BY).

                     


eISSN 1854-1941