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Назва: Introduction Success of Less Common Species from the Genus Berberis L.
Автори: Савосько, Василь Миколайович
Ключові слова: non-traditional fruit crops
barberries
water deficiency
ranspiration
seed productivity
promising species
Дата публікації: 2019
Бібліографічний опис: Lykholat Y. V., Khromykh N. O., Lykholat T. Y., Bobrova O. M., Didur O. O., Lykholat O. A., Sudak V. M., Legostaeva T. V., Gtytzaj Z. V., Kabar A. M., Savosko V. M., Kovalenko I. M., Davydov V. R., Suvorova K. M., Dudkina K. A., Kolinko O. M., Grygoryuk I. P. (2019). Introduction Success of Less Common Species from the Genus Berberis L. Ukrainian Journal of Ecology, 9(4), 634-640.
Короткий огляд (реферат): The study dealt with the patterns of adaptation of the genus Berberis L. low-abundant alien plants to the climatic conditions of the steppe zone of Ukraine. The success of the introduction, which was conducted on the territory of the Botanical Garden of Oles Honchar Dnipro National University (city of Dnipro) near 60 years ago, was evaluated by a set of indicators. According to the study of phenological rhythms, introduced plants can be characterized as plants with a relatively short growing season, a relatively long shoot growth, a short flowering period and a long maturing period. This indicates the lability of the phenological rhythms of the introduced plants, which respond to changes in environmental conditions in terms of the beginning and end of the phenological phases. The aquatic regime of introduced plants reflects the level of their adaptation to the environment due to the ability of plant organism to withstand water consumption. The study of water exchange features of Berberis L. plants revealed a moderate decrease in the intensity of transpiration and a moderate water deficit in the plant leaves, which indicates the adaptation of the species to the difficult climatic conditions of the steppe zone. The response of introduced plants to the level of moisture in the steppe region confirmed the universal mechanism of plant adaptation to arid conditions. Comparative analysis of the reproductive ability of introduced plants of the genus Berberis L. in the conditions of the Botanical Garden revealed a significant variability of quantitative indicators. The weight of 100 fruits ranged from 12.5 g (B. vulgaris) to 16.3 g (B. declinata). Seed length varied from 4.5 mm (B. canadensis) to 5.2 mm (B. declinata, B. amurensis), seed width varied from 1.8 mm (B. amurensis, B. vulgaris) to 2.1 mm (B. koreana). The highest mass of 1000 seeds was observed in the species B. koreana. To compare sample averages, the criterion for the significant difference of Tukey's group averages was used. The investigated plants of the genus Berberis L. can be recommended for the introduction into large-scale and individual gardening in order to expand the range of fruit products and obtain biologically valuable raw materials for the industrial production of functional products.
Опис: Andola, H. C., Gaira, K. S., Rawal, R. S., Rawat, M. S., & Bhatt, I. D. (2010). Habitat-dependent variations in berberine content of Berberis asiatica Roxb. ex. DC. in Kumaon, Western Himalaya. Chemistry & Biodiversity, 7(2), 415–420. dоі: 10.1002/cbdv.200900041 Andrusevich, K. V., Nazarenko, M. M., Lykholat, T. Yu., & Grigoryuk, I. P. (2018). Effect of traditional agriculture technology on communities of soil invertebrates. Ukrainian journal of Ecology, 8(1), 33–40. doi: 10.15421/2017_184 Baranovski, B., Khromykh, N., Karmyzova, L., Ivanko, & Lykholat, Y. (2016). Analysis of the alien flora of Dnipropetrovsk Province. Biological Bulletin of Bogdan Chmelnitskiy Melitopol State Pedagogical University, 6 (3), 419–429. doi: http://dx.doi.org/10.15421/2016113/ Brygadyrenko, V. V. (2015). Community structure of litter invertebrates of forest belt ecosystems in the Ukrainian Steppe Zone. International Journal of Environmental Research, 9 (4), 1183–1192. doi: 10.22059/IJER.2015.1008 Chytry, M., Horsák, M., Syrovátka, V., Danihelka, J., Ermakov, N., German, D., Hájek, M., Hájek, O., Hájková, P., Horsáková, V., Kocí, M., Kubesová, S., Lustyk, P., Nekola, J., Preislerová, Z., Reslh, P., & Valachovic, M. (2017). Refugial ecosystems in central Asia as indicators of biodiversity change during the Pleistocene–Holocene transition. Ecological Indicators, 76, 357–367. Di, D. L., Liu, Y. W., Ma, Z. G., & Jiang, S. X. (2003). Determination of four alkaloids in Berberis plants by HPLC. Zhongguo Zhong Yao Za Zhi, 28 (12), 1132–1134. Didur, O., Kulbachko, Y., Maltsev, Y. (2018). Impact of tropho-metabolic activity of earthworms (Lumbricidae) on distribution of soil algae within Acer platanoides L. plantation in recultivated territories of Western Donbass (Ukraine). Ukrainian Journal of Ecology, 8 (2), 18–23. doi: http://dx.doi.org/10.15421/2018_304/ Grigoryuk, I. А., Tkachev, V. I., Savinskiy, S. V., & Musienko, N. N. (2003). Sovremennye metody issledovaniya i otsenki zasukho- i zharoustoychivosti rasteniy [Modern methods of investigation and assessment of drought and heat resistance of plants]. Naukovyy svіt, Кyiv. (In Ukrainian). Hoshyar, R., Mahboob, Z., & Zarban, A. (2016). The antioxidant and chemical properties of Berberis vulgaris and its cytotoxic effect on human breast carcinoma cells. Cytotechnology, 68, 1207–1213. https://doi.org/10.1007/s10616-015-9880-y/ Hryhoriuk, I. P., Yavorovskyi, P. P., & Lykholat, Yu. V. (2014) Tekhnolohii vyroshchuvannia i biorehuliatsiia stiikosti hazonnykh roslyn u miskomu urbanizovanomu seredovyshchi [Technology of cultivation and bioregulation of the stable of lawn plants in city urbanized environment]. Kyiv. Показаны National University of Life and Environmental Science Institue of Ukraine (in Ukrainian). Huang, W. Y., Cai, Y. Z., & Zhang, Y. (2010). Natural phenolic compounds-from medicinal herbs and dietary plants: potential use for cancer prevention. Nutrition and Cancer, 62 (1), 1–20. dоі: 10.1080/01635580903191585 Klymenko, A., Kovalenko, І., Lykholat, Yu., Khromykh, N., Didur, O., & Alekseeva, A. (2017). Intehralna otsinka stanu populiatsii ridkisnykh vydiv roslyn [The integral assessment of the rare plant populations]. Ukrainian Journal of Ecology, 7(2), 201–209. doi: http://dx.doi.org/10.15421/2017_37 Khromykh, N. O., Lykholat, Y. V., Kovalenko, I. M., Kabar, A. M., Didur, O. O., & Nedzvetska M. I. (2018a). Variability of the antioxidant properties of Berberis fruits depending on the plant species and conditions of habitat. Regulatory Mechanisms in Biosystems, 9 (1), 56–61. doi: 10.15421/021807. Khromykh, N., Lykholat, Y., Shupranova, L., Kabar, A., Didur, O., Lykholat, T., & Kulbachko, Y. (2018b). Interspecific differences of antioxidant ability of introduced Chaenomeles species with respect to adaptation to the steppe zone conditions. Biosystems Diversity, 26 (2), 132–138. https://doi.org/10.15421/011821 Klymenko, S., Brinza, J., & Grigorieva, O. (2013). Non-traditional fruits and berry plants in the Register of sorts of plants of Ukraine. Czlovek – Natura – Kultura: Materials of Conference by Professor J. Piorecki 80 year. Rzeszow, 69–74. Kohno, N. A., & Kurdyuk, A. M. (2010). Teoreticheskie osnovyi i opyit introduktsii drevesnyih rasteniy v Ukraine. [Theoretical bases and experience of introduction of arboreal plants are in Ukraine]. Ichnya, PP Format. (in Ukrainian). Kotsariev, O. S., Antoniuk, S. V., & Lykholat, O. A. (2001). Strukturno-funktisonal'ni osoblyvosti aerohematychnoho bar'iera lehen' za umov inhaliatsiinoï diï nyz'kykh kontsentratsii soli svyntsiu. [Structural-functional characteristics of the air-blood barrier of lungs upon inhalation of low concentrations of lead salt]. Fiziolohichnyi zhurnal (Kiev, Ukraine), 47 (4), 36–41. Lykholat, O. A., Grigoryuk I. P., & Lykholat T. Y. (2016a). Metabolic effects of alimentary estrogen in different age animals. Annals of Agrarian Science, 14 (4), 335–339. https://doi.org/10.1016/j.aasci.2016.09.012 Lykholat, T. Y., Marenkov, O. M., Yashchenko, K. V., Shaldyna, E. S., & Lykholat, O. A. (2018a). Vplyv syntetychnykh estrogenіv u produktakh kharchuvannya na sistemu detoksykatsіi tvaryn rіznogo vіku [Influence of synthetic ethrogenes in food products on the detoxication system of animal animals of different age]. Scientific Reports of NULES of Ukraine, 2 (72). (in Ukrainian). http://journals.nubip.edu.ua/index.php/Dopovidi/article/view/10635 Lykholat, T. Yu., Lykholat, O. A., Marenkov, O. M., Kulbachko, Yu. L., Kovalenko, I. M., & Didur, O. O. (2019). Xeneostrogenes influence on cholinergic regulation in female rats of different age. Ukrainian Journal of Ecology, 9(1), 240–243. Lykholat, T., Lykholat, O., & Antonyuk, S. (2016b). Immunohistochemical and biochemical analysis of mammary gland tumours of different age patients. Cytology and Genetics, 50(1), 32–41. https://doi.org/10.3103/S0095452716010072/ Lykholat, Y. V., Dolgova, L. G., & Ilkun, G. M. (1987). Izmenenie vodnogo obmena rasteniy pri zagryaznenii atmosfernogo vozduha organicheskimi zagryaznitelyami [Changes in water exchange of plants under atmospheric air-pollution with organic-solvents]. Fiziologiya I Biokhimiya Kulturnykh Rastenii, 19 (1), 77–81. (in Russian). Lykholat, Y., Khromykh, N., Didur, O., Alexeyeva, A., Lykholat, T., & Davydov, V. (2018b). Modeling the invasiveness of Ulmus pumila in urban ecosystems under climate change. Regulatory Mechanisms in Biosystems, 9(2), 161–166. doi: 10.15421/021824 Lykholat, Yu. V. (1999). Bioindykatsiia dovkillia za dopomohoiu hazonnykh trav [Bioindication of the environment with lawn grasses]. Materials of the 2nd International. conf.: Science & Education'99. Kyiv–Dnipropetrovsk, vol. 3, 25–26. (in Ukrainian). Lykholat, Yu. V., Khromykh, N. O., Pirko, Ya. V., Alexeyeva, A. A., Pastukhova, N. L., & Blume, Ya. B. (2018c). Epicuticular wax composition of leaves of Tilia L. trees as a marker of adaptation to the climatic conditions of the steppe Dnieper. Cytology and Genetics, 52 (5), 323–330. DOI: 10.3103/S0095452718050067 Marenkov, O., Lykholat, T., Lykholat, O., & Petrovsky, O. (2019). Level of Edcs in Procambarus virginalis organism at developing stages as potential hazard for water biota and aquatic culture consumers. Third International Conference "Smart Bio" (02–04 May 2019). Kaunas, Lithuania. Mytsyk, L. P., & Lykholat, Yu. V. (2000). Rіven’ akumulyatsіi vajkyh metalіv u roslynah Poa angustifolia L. u shtuchnyh bіogeotsenozah [A level of accumulation of heavy metals is in the plants of Poa of angustifolia L. in artificial geobiocenosiss]. Issues of steppe forestry and forest reclamation of soils, 4, 25–28. (in Ukrainian). Nazarenko, M. M., & Lykholat, Y. V. (2018a). Influence of relief conditions on plant growth and development. Bulletin of the University of Dnepropetrovsk. Geology, geography, 26 (1), 143–149. doi: 10.15421/111815 Nazarenko, M., Lykholat, Y., Grigoryuk, I., & Khromykh, N. (2018b). Optimal doses and concentrations of mutagens for winter wheat breeding purposes. Part I. Grain productivity. Journal of Central European Agriculture, 19 (1), 194–205. DOI: 10.5513/JCEA01/19.1.2037 Pertseva, T. A., Lykholat, E. A., & Gurzhiy, E. V. (2007). Ocenka sostoyaniya mukociliarnogo klirensa u pacientov s hronicheskim obstruktivnym zabolevaniem lyogkih [The evaluation of mucociliary clearance in patients with chronic obstructive pulmonary disease]. Ukrainian Pulmonology Journal, 3, 16–18. (in Ukrainian). Pertseva, T. A., Lykholat, E. A., & Gurzhiy, E. V. (2008). Vliyanie tiotropiya bromida na sostoyanie mukociliarnogo klirensa u bol'nyh hronicheskim obstruktivnym zabolevaniem legkih. [The influence of tiotropium bromide on mucociliary clearance's condition in patients with chronic obstructive pulmonary disease]. Ukrainian Pulmonology Journal, 1, 13–15. (in Ukrainian). Pertseva, T., Lykholat, O., & Gurzhiy, O. (2012). Influence of tiotropium bromide (TB) and carbocysteine (C) on mucociliary clearance (MCC) in patients with COPD. European Respiratory Journal, 40 (56), 3466. Pokhylenko, A., Lykholat, O., Didur, O., Kulbachko, Y., & Lykholat, T. (2019). Morphological variability of Rossiulus kessleri (Diplopoda, Julida) from different biotopes within Steppe Zone of Ukraine. Ukrainian Journal of Ecology, 9 (1), 176–182. Ros, . M., Laencina, ., ell n, P., ord n, M. ., Vila, R., Rumpunen, K. (2004). haracterization of juice in fruits of different Chaenomeles species. LWT-Food Science and Technology, 37 (3), 301–307. dоі: 10.1016/j.lwt.2003.09.005 Sahan, Y., Cansev, A., Celik, A., & Cinar, A. (2012). Determination of various chemical properties, total phenolic content, antioxidant capacity and organic acids in Laurocerasus officinalis fruits. Acta Horticulturae, 939, 359–366. Savosko, V. M. (2011). Melioraciya ta fitorekultyvaciya zemel [Land melioration and phyreclamation]. Dionis, Kryvyj Rih. (in Ukrainian). Savosko, V., Lykholat, Yu., Domshyna, K., & Lykholat, T. (2018). Ekolohichna ta heolohichna zumovlenist poshyrennia derev i chaharnykiv na devastovanykh zemliakh Kryvorizhzhia [Ecological and geological determination of trees and shrubs’ dispersal on the devastated lands at Kryvorizhya]. Journal of Geology, Geography and Geoecology, 27(1), 116–130. (in Ukrainian). doi: 10.15421/111837 Shcherbyna, R. O., Danilchenko, D. M., Parchenko, V. V., Panasenko, O. I., Knysh, E. H., Khromykh, N. O., & Lykholat, Y. V. (2017). Studying Of 2-((5-R-4-R1-4H-1,2,4-Triazole-3-Yl)Thio)Acetic Acid Salts Influence On Growth And Progress Of Blackberries (KIOWA Variety) Propagules. Research Journal of Pharmaceutical, Biological and Chemical Science, 8, 975–979. Shupranova, L. V., Lykholat, Y. V., Khromikh, N. O., Grytzaj, Z. V., Alexeyeva, A. A., & Bilchuk, V. S. (2017). Reaction of photosynthetic apparatus of a representative of extrazonal steppe plants Quercus robur to air pollution by motor vehicle emissions. Biosystems Diversity, 25 (4), 268–273. doi: https://doi.org/10.15421/011741 Vinnychenko, O. M., Bil'chuk, V. S., Lykholat, Yu. V., Rossyhina-Galycha, H. S., & Shupranova, L. V. (2014). Speczpraktykum z fiziologiyi ta biohimiyi roslyn [Special practice on physiology and biochemistry of plants]. FOP Serednyak T. K., Dnipropetrovsk. (in Ukrainian). Yermishev, O., Lykholat, O., & Lykholat, O. (2017). Effect of alimentary synthetic estrogen on cell compensatory mechanisms in rats of different ages. Biologija, 63 (2), 152–159. Zaitseva, I. O., & Dolhova, L. H. (2010). Fizioloho-biokhimichni osnovy introduktsii derevnykh roslyn u stepovomu Prydniprovi [Physiological and biochemical foundations of the introduction of woody plants in the Steppe Dnieper]., Dnipropetrovsk. Dnipropetrovsk National Univerity Press (in Ukrainian).
URI (Уніфікований ідентифікатор ресурсу): http://elibrary.kdpu.edu.ua/xmlui/handle/123456789/3641
https://doi.org/10.31812/123456789/3641
Розташовується у зібраннях:Кафедра ботаніки та екології

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