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Ecological Aspects of Allelopathic Interactions of Energy Crops

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The allelopathic potential of classical energy crops (Panicum virgatum L., Sorghum saccharatum (L.) Moench, hybrids 'Zubr' and 'Medovyi') was studied by the energy of germination of biotesters' seeds and their biometric parameters, as well as the selection of sensitive biotesters and test traits. Secale cereale L. and Raphanus sativus L. var. radicula Pers. were used as biotesters. The selectivity of secretions action has been proven – the aqueous extracts from the same energy plant caused different reactions in acceptor plants. The obtained results indirectly indicate the allelopathic potential of energy crops P. virgatum and S. saccharatum. A decrease in the germination energy of the biotester R. sativus var. radicula seeds as well as reduction of underground and aboveground parts of both R. sativus var. radicula and S. cereale were observed under the effect of aqueous extracts of studied energy crops. In order to confirm an allelopathic potential of energy crops, using multiple test signs of different biotesters is suggested.
Rocznik
Strony
185--191
Opis fizyczny
Bibiliogr. 25 poz., rys., tab.
Twórcy
  • Department of Ecology and Biomonitoring, Yuriy Fedkovych Chernivtsi National University, Kotsubynsky st. 2, 58012, Chernivtsi, Ukraine
  • Department of Ecology and Biomonitoring, Yuriy Fedkovych Chernivtsi National University, Kotsubynsky st. 2, 58012, Chernivtsi, Ukraine
autor
  • Department of Ecology and Biomonitoring, Yuriy Fedkovych Chernivtsi National University, Kotsubynsky st. 2, 58012, Chernivtsi, Ukraine
autor
  • Department of Ecology and Biomonitoring, Yuriy Fedkovych Chernivtsi National University, Kotsubynsky st. 2, 58012, Chernivtsi, Ukraine
  • Department of Ecology and Biomonitoring, Yuriy Fedkovych Chernivtsi National University, Kotsubynsky st. 2, 58012, Chernivtsi, Ukraine
Bibliografia
  • 1. Baleev D.N. & Buharov A.F. 2011. Comparison of allelopathic activity of extracts from different organs of parsley root. Bulletin of Altai State Agrarian University, 5(79), 54–56. (in Russian)
  • 2. 2019. Renewable energy in Europe: key for climate objectives, but air pollution needs attention. EEA Briefing, 13. DOI: 10.2800/172133
  • 3. Gorelov O.M., Ellanska N.E., Yunosheva O.P., Gorelov O.O., Viriovka V.M. 2017. Soil biological activity of energy crops. Scientific reports of NULES of Ukraine, 1(65). DOI: 10.31548/dopovidi2017.01.018 (in Ukrainian)
  • 4. Gospodarenko G.M. & Lysyanskyi O.L. 2015. Allelopathic effect of sidereal crops on winter wheat. Bulletin of ZNAU. Crop production, selection and fodder production, 2(50), 190–198. (in Ukrainian)
  • 5. DSTU 4138–2002. Seeds of agricultural crops. Methods for determining quality URL: https://www.agrodialog.com.ua/wp-content/uploads/2018/04/dstu-4138_2002.pdf (in Ukrainian)
  • 6. Hrodzynskyi A.M. 1973. Fundamentals of chemical interaction between plants. Nauk. Dumka, Kyiv. (in Ukrainian)
  • 7. Kondratiev M.N., Larikova Y.S., Davydova A.N. 2017. Secondary compounds of medicinal plants as a potential basis for the creation of bioherbicides. Biological, medical and pharmaceutical chemistry issues, 20(5), 36–40. (in Russian)
  • 8. Korolyova O.V. & Lychko A.A. 2017. Allelopathic activity of Grindelia squarrosa (Pursh) Dunal in the conditions of the Nikolaev area. Proc. Biological Research – 2017, Zhytomyr, 29–31. (in Ukrainian)
  • 9. Koval S.P. & Yeshchenko V.O. 2011. Allelopathic effect of aqueous extracts from aboveground plant remains of different precursors on the germination, initial growth and height of oilseed flax plants. Bulletin of scientific publications of Uman SAU. P. 1. Agronomy, 69, 101–106. (in Ukrainian)
  • 10. Kulyk M.I. 2014. Botanical and biological characteristics, features of cultivation and use of energy crops. Part one: switchgrass (vine millet): reference book. Poltava. (in Ukrainian)
  • 11. Lysenko N.N., Dogadina M.A., Pleshkova N.K. 2010. The influence of plants on living organisms and humans in their environment: monograph. Orel. (in Russian)
  • 12. Majeed А., Munammad Z., Hussain M., Ahmad Н. 2017. In vitro allelopathic effect of aqueous extracts of sugarcane on germination parameters of wheat. Acta Agriculturae Slovenica, 109(2), 349–356. DOI: 10.14720/aas.2017.109.2.18
  • 13. Malovanyy M., Moroz O., Hnatush S., Maslovska O., Zhuk V., Petrushka I., Sereda A. 2019. Perspective technologies of the treatment of the wastewaters with high content of organic pollutants and ammoniacal nitrogen. Journal of Ecological Engineering, 20(2), 8–15. DOI: 10.12911/22998993/94917
  • 14. Muhl R.M., Roelke D.L., Zohary T., Moustaka-Gouni M., Sommer U., Borics G., Bhattacharyya J. 2018. Resisting annihilation: relationships between functional trait dissimilarity, assemblage competitive power and allelopathy. Ecology Letters, 21(9), 1390–1400. DOI: 10.1111/ele.13109
  • 15. Pidlisnyuk V.V. & Kolisnyk Y.M. 2013. Environmental risks in the cultivation of biofuels. Bulletin of Kremenchuk Mykhailo Ostrohradsky National University, 2, 120–124. (in Ukrainian)
  • 16. Polyak U.M. & Suharevych V.I. 2019. Allelopathic relationships between plants and micro-organisms in soil ecosystems. Advances in modern biology, 139(2), 147–160. DOI: 10.1134/S0042132419020066 (in Russian)
  • 17. Scavo A., Restuccia A., Mauromicale G. 2018. Allelopathy: principles and basic aspects for agroecosystem control. In Sustainable Agriculture Reviews 28. Springer, Cham. DOI: 10.1007/978–3-319–90309–5_2
  • 18. Shevchuk O.M. & Agurova I.V. 2011. Allelopathic activity and soil aftereffect of Silybum marianum (L.) Gaertn. Industrial botany, 11, 70–75. (in Ukrainian)
  • 19. Siyar S., Majeed А., Muhammad Z., Ali H. 2018. Allelopathic effect of aqueous extracts of three weed species on the growth and leaf chlorophyll content of bread wheat. Acta Ecologica Sinica, 39, 63–68. DOI: 10.1016/j.chnaes.2018.05.007
  • 20. Symagina N.O. & Lysyakova N.U. 2011. The dynamics of allelopathic activity of Bupleurum fruticosum L. during the growing season and ontogenesis. Scientific notes of the Tavrida National V.I. Vernadsky University, 24(63), 273–281. (in Ukrainian)
  • 21. Tymchuk I., Shkvirko O., Sakalova H., Malovanyy M., Dabizhuk T., Shevchuk O., Matviichuk O., Vasylinych T. 2020. Wastewater a Source of Nutrients for Crops Growth and Development. Journal of Ecological Engineering, 21(5), 88–96. DOI: 10.12911/22998993/122188
  • 22. Trezzi M.M., Vidal R.A., Balbinot Junior A.A., von Hertwig Bittencourt H., da Silva Souza Filho A. P. 2016. Allelopathy: driving mechanisms governing its activity in agriculture. Journal of Plant Interactions, 11(1), 53–60. DOI:10.1080/17429145.2016. 1159342
  • 23. Williams M.A. & Feest A. 2019. The Effect of Miscanthus Cultivation on the Biodiversity of Ground Beetles (Coleoptera: Carabidae), Spiders and Harvestmen (Arachnida: Araneae and Opiliones). Agricultural Sciences, 10, 903–917. DOI: 10.4236/as.2019.107069
  • 24. Yashchuk V.A. 2017. Influence of aqueous extracts from hornbeam and cereal grass plants on seed germination. Feed and feed production, 83, 126–132. (in Ukrainian)
  • 25. Yunosheva O.P. 2017. Allelopathic features of plants of species of the genus Lavandula L. in the Forest-Steppe of Ukraine. Institute of Agroecology and Nature Management of the National Academy of Agrarian Sciences of Ukraine. Kyiv. (in Ukrainian)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-98b8726f-86c1-4cb9-ad84-2e414f6fd0d4
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