Фітомеліоративні властивості рослин <i>Cannabis sativa</i> L.  залежно від сортових особливостей культури

В. М. Кабанець; Л. М. Михальська; В. В. Швартау; В. М. Матус

doi:10.21498/2518-1017.13.4.2017.117752

Authors

В. М. Кабанець Institute of Agriculture of the Northern East, NAAS of Ukraine, Ukraine https://orcid.org/0000-0002-5981-7184
Л. М. Михальська Institute of Plant Physiology and Genetics, NAS of Ukraine, Ukraine https://orcid.org/0000-0002-0677-5574
В. В. Швартау Institute of Plant Physiology and Genetics, NAS of Ukraine, Ukraine https://orcid.org/0000-0001-7402-5559
В. М. Матус Ukrainian Institute for Plant Variety Examination, Ukraine https://orcid.org/0000-0002-2267-4757

DOI:

https://doi.org/10.21498/2518-1017.13.4.2017.117752

Keywords:

hemp, accumulation, varieties, row spacing, seeds, stalk, inorganic elements

Abstract

Purpose. To investigate the varietal characteristics of the hemp plants for improving the quality indices of the soil they grow in, determine the amount of inorganic elements in the soil, level of their accumulation in plant stalkі and seeds.

Methods. Field and spectrometric methods were basic. The results were processed using conventional methods in agriculture, crop growing and statistics. Variants of the experiment were as follows: varieties ‘Hliana’, ‘Hlesiia’: 1) soils; 2) stalks; 3) seeds. Schemes of experiments included: a) technical maturity of plants, row spacing 45 cm; b) technical maturity of plants, row spacing 15 cm; c) biological maturity of plants, row spacing 45 cm; d) biological maturity of plants, row spacing 15 cm.

Results. The amount of the accumulation of alkaline earth metals and their compounds by seeds and stalks of hemp plants depending on their content in vegetation soils was determined. It was found that stalks of the ‘Hlesiia’ plant accumulated strontium (Sr) and its compounds far less than that of ‘Hliana’, whereas in the seeds of the ‘Hlesiia’ variety the content of this chemical element was higher comparing with the previous variety by 70 and 78%, respectively. The difference in the accumulation of barium (Ba) compounds in seeds of hemp plants was not significant, while the tissues of the plant stalks of the ‘Hliana’ variety accumulated its compounds significantly more as compared to the ‘Hlesiia’ variety. The degree of influence of the variety, feeding area and the maturity stage on the processes of magnesium compounds (Mg) accumulation by plants was not revealed. Plants of the ‘Hlesiia’ variety accumulated far less calcium (Ca) and its compounds in the stalk tissues as compared to the plants of the ‘Hliana’ variety: in variants of the technical maturity stage of plants with row spacing 45 cm (a) and d – plants of narrow-row sowing (15 cm) in the biological maturity stage 30,94 and 15,95 mg/kg more in the presence in soil and in variants of the technical maturity stage of plants of narrow-row sowing (15 cm) and in the biological maturity stage with broad-sowing (45 cm) 34.54 and 24.19 mg/kg less in the presence in soil.

Conclusions. The indices of accumulation of alkaline earth metals by hemp plants were significantly affected by the concentration of compounds of a certain chemical element in the arable layer, the level of energy (light) obtained by plants during vegetation, the varietal features of hemp, the stages of organogenesis of hemp plants and the specificity of their aboveground parts – stalks to accumulate these chemical elements as well as cumulate them by seeds. The varietal dependence as for accumulation of heavy metals by hemp plants tissues and seeds was established. In order to obtain environmentally friendly products, it is necessary to take into account the varietal features of plants concerning the ability to absorb and accumulate the relevant chemical elements and their compounds in the process of hemp cultivation.

Downloads

Download data is not yet available.

Author Biographies

В. М. Кабанець, Institute of Agriculture of the Northern East, NAAS of Ukraine

Kabanets, V. M.

Л. М. Михальська, Institute of Plant Physiology and Genetics, NAS of Ukraine

Mykhalska, L. M.

В. В. Швартау, Institute of Plant Physiology and Genetics, NAS of Ukraine

Shvartau, V. V.

В. М. Матус, Ukrainian Institute for Plant Variety Examination

Matus, V. M.

References

Kabanets, V. M. (2009). Branches of flax and hemp growing in Ukraine: current state and prospects. Zbirnyk naukovykh prats Instytutu lubianykh kultur UAAN [Collection of scientific works of the Institute of Bast Crops of UAAS], 5, 3–7. [in Ukrainian]

Fomenko, V. S. (2004). Emissionnye svoystva materialov [Emission properties of materials]. (4th ed., rev.). Kyiv: Naukova dumka. [in Russian]

Yakovliev, Ye. O., Melnik, I. V., & Dubytskyi, A. I. (1998). Ekoloho-heokhimichna otsinka zabrudnennia gruntiv, donnykh vidkladiv, gruntovykh vod [Ecological and geochemical assessment of soil, sediment, groundwater pollution]. Kyiv: Heoinform. [in Ukrainian]

Likarski zasoby. Nalezhna praktyka kultyvuvannia ta zbyrannia vykhidnoi syrovyny roslynnoho pokhodzhennia. ST-N MOZU 42-4.5:2012 [Medicines. Good practice of cultivation and gathering vegetable-based raw materials. ST-N Ministry of Health of Ukraine 42-4.5: 2012]. (2012). Kyiv: MOZ Ukrainy. [in Ukrainian]

Ermantraut, E. R. (2003). Statistical analisis of multifactor experiments. In Polevye eksperimenty dlya ustoychivogo razvitiya sel’skoy mestnosti [Field experiments for sustainable rural development] (pp. 70–73). St. Petersburg; Pushkin: N.p. [in Russian]

Afifi, A. A., & Azen, S. P. (1979). Statistical Analysis: A Computer Oriented Approach. (2nd ed.). New York: Academic Press.

Verkhovskyi, V. V., & Sulyma, V. S. (2005). Features of the metabolism of strontium-90 in the bone tissue of the experimental animal. Archive of Clinical Medicine, 1, 31–33. [in Ukrainian]

Rudnyk-Ivashchenko, О. I., Mykhalska, L. M., & Sсhwartau, V. V. (2016). Peculiarities of the Heavy Metal Accumulation in the Medicinal Plantsunder the Lisosteppe Conditions. J. Nat. Sci. Sust. Tech., 10(2), 171–184.

Konrad, H., & Krampits, R. (1990). Elektrotekhnologiya [Electrotechnology]. Sofia: Technica. [in Ukrainian]

Kabata-Pendias, A., & Pendias, H. (2001). Trace elements in soils and plants. (3rd ed.). Boca Raton, FL: CRC Press.

Bednarek, W., Tkaczyk, P., & Dresler, S. (2007). Contents of heavy metals as a criterion for apple quality assessment and soil properties. Polish J. Soil Sci., 45(1), 47−56.