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Journal of Automation and Information Sciences

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ISSN Imprimer: 1064-2315

ISSN En ligne: 2163-9337

SJR: 0.173 SNIP: 0.588 CiteScore™:: 2

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Variability of Anatomical Features of Leaf Blade in Species of Genus Magnolia L. on the First Ontomorphogenesis Stages

Volume 52, Numéro 4, 2020, pp. 26-37
DOI: 10.1615/JAutomatInfScien.v52.i4.30
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RÉSUMÉ

The quantitative anatomical features of leaves of three species of Magnolia genus: Magnolia kobus Sarg., Magnolia obovata Thunb., Magnolia denudata Desr. growing on the territory of Academician A.V. Fomin Botanical Garden of Kiev Taras Shevchenko National University have been studied. It was found out that on the first stages of ontomorphogenesis M. kobus is characterized by a less specialized type of mesophyll (homogeneous spongy type) unlike M. obovata and M. denudate which are characterized by the dorsoventral type. The number of mesophyll cell layers in the studied species is 4-6. The least variable anatomical feature of the leaf of the studies species is their thickness (CV = 2%). Other anatomical features are characterized by average values of the variation coefficients (15-31%). Based on correlation matrix by the method of "maximum correlation path" this paper has constructed the correlation pleiads of leaf blade anatomical features of the studied plants. Using the results of correlation analysis we have determined groups of features that exhibit the interconnected manifestation in ontogenesis by genetic, physiological and biochemical reasoning. Of the three studied species of Magnolia genus only in M. obovata the vast majority of the studied anatomical features are characterized by high correlation coefficients on the first stages of ontomorphogenesis. The plants M. cobus and M. denudate have stronger consistency between the features of epidermal tissue. We assume that the studied species suffer from a lock of moisture and high temperatures on the first stages of ontomorphogenesis.

RÉFÉRENCES
  1. Baydiuk O.V., Shchurik R.S., Materialy mizhnarodnoi naukovo-praktychnoi konferentsii prysvyachenoi 20-richchyu pryrodnogo zapovidnyka "Medobory" (smt Grymailiv, 2010), Grymailiv, 2010, 220-221.

  2. Petukhova I.P., Magnolias in conditions of the south of the Russian Far East [in Russian], Dalnauka, Vladivostok, 2003.

  3. Korshuk T.P., Magnolias [in Ukrainian], Kvity Ukrainy, Kiev, 1999.

  4. Korshuk T.P., Palagecha R.M., Magnolias (Magnolia L.) [in Ukrainian], Vydavnycho-poligrafichnyi tsentr "Kyivskyi universytet", Kiev, 2007.

  5. Minchenko N.F., Magnolia species. Trees and shrubs of decorative urban plantings of Polesie and Forest-steppe of the Ukrainian SSR [in Russian], Naukova dumka, Kiev, 1980.

  6. Minchenko N.F., Korshuk T.P., Magnolias in Ukraine [in Russian], Naukova dumka, Kiev, 1987.

  7. Palahecha R.M., Introduction, reproduction, acclimatization of magnolias in landscaping, Byulleten Nikitskogo botanicheskogo sada, 2011, No. 102, 80-86.

  8. Palahecha R.M., Introduktsiya pivnichno-amerykanskykh vydiv lystopadnykh mahnoliy u Botanichnomu sadu Kyyivskoho universytetu ta vykorystannya yikh u landshaftnomu mystetstvi [in Ukrainian], VisnykKNUimeni Tarasa Shevchenka, 2012, 30, 34-37.

  9. Kazantsev Taras, Futorna Oksana, Badanina Vladislava A., Svietlova Nataliya B., Taran N.Yu., Prospects of using unmanned aerial vehicle for assessing climate-making properties of park tree species using Kiev A.V. Fomin Botanical Garden as an example, Journal of Automation and Information Sciences, 2018, 50, No. 4, 64-74, DOI: 10.1615/JAutomatInfScien.v50.i4.60.

  10. Svietlova Nataliya B., Storozhenko Vladimir A., Futorna Oksana, Badanina Vladislava A., Tischenko Oxana V., Olshanskyi Igor G., Taran N.Yu., Estimation of the prospects of using model species of wood plants for the overcoming the "City Heat Island" by parameters of the functional state of photosynthetic apparatus, Journal of Automation and Information Sciences, 2018, 50, No. 12, 51-61, DOI: 10.1615/JAutomatInfScien.v50.i12.40.

  11. Demchenko M.K., Badanina V.A., Futorna O.A., Palahecha R., Taran N.Yu., Decorative properties of representatives of Magnoliaceae Juss family introduced into A.V. Fomin Botanical Garden, Visnyk KNU im. Tarasa Shevchenko. Seriya: Biologiya, 2019, No. 1 (77), 6-10.

  12. Butnik A.A., Morphological indicators of plant adaptation to arid conditions, Tsitologiya, 1991, 33, No. 5, 91-92.

  13. Butnik A.A., On adaptive features of marevakh leaves, Biologicheskie i strukturnyye osobennosti poleznykh rasteniy Uzbekistana, Tashkent, Fan., 1977, 4-16.

  14. Illinska A.P., Futorna O.A., Dyachenko I.I., Fedoronchuk N.S., Preparation of vegetative drugs on a microtome cryostat, Ukrainskyi botanichnyi zhurnal, 2001, 58, No. 2, 256-260.

  15. Vasiliev B.R., Leaf structure of woody plants of various climatic zones [in Russian], LGU, Leningrad, 1988.

  16. Zakharevich S.F., To the methodology for describing the leaf epidermis, Vestnik Leningradskogo universiteta, 1954, 4, 65-75.

  17. Krokhmal I.I., Ecology and noospherology, 2015, 26, No. 1-2, 54-65, DOI: 10.15421/031506.

  18. Osunkoya O.O., Bayliss D., Panetta F.D. et al., Leaf trait co-ordination in relation to construction cost, carbon gain and resource use efficiency in exotic invasive and native woody vine species, Annals of Botany, 2010, 106, 371-380.

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