Выходит 12 номеров в год
ISSN Печать: 1064-2315
ISSN Онлайн: 2163-9337
Indexed in
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
Get access
Краткое описание
The possibility of using individual types of woody plants in the collection of the A.V. Fomin Botanical Garden of Taras Schevchcnko National University of Kiev to overcoming the "urban heat island" by the content of photosynthetic pigments and the fluorescence induction parameters of chlorophyll was studied. It has been established that leafy species of families Sapindaceae (Acer rubrum, Acer velutinum) and Magnoliaceae (Magnolia soulangeana. Magnolia kobus) are characterized by a high "index of viability".
-
Hall D., Rao K., Photosynthesis [Russian translation], Mir, Moscow, 1983.
-
Kazantsev T.A., Futorna O.A., Svetlova N.B., Badanina V.A., Taran N.Yu., Prospects for using an unmanned aerial vehicle to assess the climate-forming properties of park tree species using the example of the Academic Botanical Garden, Mezhdunarodnyi nauchno-tekhnicheskiy zhurnal “Problemy upravleniya i informatiki”, 2018.
-
Wellburn A.R., The spectral determination of chlorophylls a and b, as well as total carotenoids, using various solvents with spectrophotometers of different resolution, Journal of Plant Physiology, 1994, 144 (3), 307–313.
-
Braiko Yu.A., Imamutdinova P.G., Floratest chronofluorometer: instructions for use [in Russian], Libra, Kiev, 2007.
-
Brayon O.V., Korneev D.Yu., Snegur O.O., Kitaev O.I., Instrumental study of the photosynthetic apparatus using chlorophyll fluorescence, IPTs “Kiyevskiy universitet”, Kiev, 2000.
-
Korneev D.Yu., Informational possibilities of the method of induction of chlorophyll fluorescence [in Russian], Alterpres, Kiev, 2002.
-
Topchy N.M., Sivash O.O., Fomishin R.M., Effect of light of different intensity and spectral composition on the pigment apparatus and functional characteristics of pea chloroplasts (Pisum), Ukrainskiy botanicheskiy zhurnal, 2004, 61, No. 5, 91–98.
-
Lichthenthaler H.K., Kuhn G., Prenzcl U. ct. all, Adaptation of chloroplasts — ultrastructure and of chlorophyll-protein levels to high-light and low-light growth conditions, Z. Naturforsch, 1982, 37, No. 3, 464–475.
-
Young A.J., Gordon L.L., Carotenoids — antioxidant properties, Antioxidants (Basel), 2018, 7(2): 28, doi: 10.3390/antiox7020028.
-
Kautsky H., Hirsch A., Das fluoreszenzverhalten gruner pflanzen, Biochem Z., 1934, 274, 422–434.
-
Yevtushenko Yu.V., Kovalevskiy S.B., Kitayev O.I., Diagnostics of the functional state of the photosynthetic apparatus of Aesculus carnea Hayne by chlorophyll fluorescence induction method, Lesnoye i sadovo-parkovoye khozyaistvo, 2017, No. 10, 1–13.
-
Bjorkman О., Demming В., Photon yield of O<sub>2</sub> evolution and chlorophyll fluorescence at 77k among vascular plants of diverse origins, Planta, 1987, 170, 489–504.
-
Johnson G.N., Young A.J., Scholes J.D., Horton P., The dissipation of excess excitation energy in British plant species, Plant, Cell and Fnvironmcnt, 1993, 16, 673–679.
-
Kostenko S.M., Kitayev O.I., Kovalevskiy S.B., Chlorophyll fluorescence induction of leaves of representatives of the genus <i>Philadelphus L.</i> under condition of Kiev, Nauchnyi vestnik NLTU Ukrainy, 2014, No. 4, 209–213.