[Adams, W.W., Demmig-Adams, B. & Winter K. (1990). Relative contributions of zeaxanthin-related and zeaxanthin-unrelated types of high-energy-state quenching of chlorophyll fluorescence in spinach leaves exposed to various environmental conditions. Plant Physiol., 92, 302 – 309. DOI: 10.1104/pp.92.2.302.10.1104/pp.92.2.302]Open DOISearch in Google Scholar
[Andrianova, Yu.E. & Tarchevs’kyj I.A. (2000). Chlorophyll and plant productivity (in Ukrainian). Kyiv: Lybid’.]Search in Google Scholar
[Belgard, A.L. (1971). Steppe forestry (in Russian). Moscow: Forest Industry.]Search in Google Scholar
[Bessonova, V.P., Mihajlov, O.F. & Korytova A.I. (1976). Dynamics of pigments and carbohydrates in leaves of false acacia, growing in various forest growth conditions (in Russian). Steppe Forest Science and Nature Conservation, 100–105.]Search in Google Scholar
[Bessonova, V.P. (2006a). Effect of heavy metals on plant photosynthesis (in Russian). Dnipropetrovsk: Svidler A.L. Publ.]Search in Google Scholar
[Bessonova, V.P. (2006b). Workshop on plant physiology (in Ukrainian). Dnipropetrovsk: Publishing House of Dnipropetrovsk State Agrarian University.]Search in Google Scholar
[Bessonova, V.P., Kuchma, V.N. & Nemchenko M.V. (2015). Comparative characteristics of Pinus pallasiana at different levels of the slope of the beam in erosion plantations (in Russian). In Materials of the All-Russian Scientific and Practical Conference ‘Actual problems, current state, innovations in the field of environmental engineering and construction’ (pp. 44−49), November 11, 2015. Blagoveshhensk: Dal’nev. Publ., State Agrarian University.]Search in Google Scholar
[Bessonova, V.P. & Ivanchenko O.Ye. (2016). Indication of the condition of tree plants of parks in Dnipropetrovsk according to morphophysiological indicators (in Ukrainian). Vìsn. Dnìpropetr. Unìv. Ser. Bìol. Ekol., 24(1), 109−118. DOI: 10.15421/011613.10.15421/011613]Search in Google Scholar
[Bessonova, V.P. & Ponomar’ova O.A. (2017). Morphometric indices and content of plastid pigments in Picea pungens depending on distance to the road (in Ukrainian). Biosystems Diversity, 25(2), 96–101. DOI: 10.15421/011714.10.15421/011714]Search in Google Scholar
[Bossmann, B., Grimme, L.H. & Knoetzel J. (1999). Protease-stable integration of Lhcb1 into thylakoid membranes is dependent on chlorophyll b in allelic chlorina-f2 mutants of barley (Hordeum vulgare L.). Planta, 207, 551–558. DOI: 10.1007/s004250050517.10.1007/s004250050517]Open DOISearch in Google Scholar
[Demmig-Adams, B. & Adams W.W. (2000). Photosynthesis: Harvesting sunlight safely. Nature, 403, 371–374. DOI: 10.1038/35000315.10.1038/35000315]Open DOISearch in Google Scholar
[Demmig-Adams, B. (1990). Carotenoids and photoprotection in plants. A role for the xanthophyll zeaxanthin. Biochim. Biophys. Acta, 1020, 1–24. DOI: 10.1016/0005-2728(90)90088-L.10.1016/0005-2728(90)90088-]Open DOISearch in Google Scholar
[Halil, D.A. (2012). Concentration and activity of chlorophyll as an indicator of biophysical environmental monitoring (in Russian). Chisinau: Publishing house of the National Institute of Ecology of the Republic of Moldova.]Search in Google Scholar
[Hryhoriukh, I.A., Tkachov, V.I., Mykhal’s’kyj, M.F. & Serha O.I. (2004). Bioenergy bases of resistance of winter wheat to drought (in Ukrainian). Kyiv: Naukovyj svit Publ.]Search in Google Scholar
[Iusypiva, T. & Vegerich V. (2014). Dynamics of the concentration of carotenoids in leaves of woody plants in conditions of technogenic environment (in Russian). In Proceedings of the IX International Scientific Conference for students and young scholars Science and education – 2014 (pp. 3481−3485), 11 May 2014. Kazakhstan, Astana.]Search in Google Scholar
[Iusypiva, T. & Drotik V. (2015). Carotenoid content dynamics in the leaves of Tilia L. genus representatives under conditions of anthropogenic pressure (in Ukrainian). Bioindication and Ecology, 20(2), 58–70.]Search in Google Scholar
[Ivanova, M.V. & Suvorova G.G. (2015). Dynamics of chlorophyll photosynthetic conifers in vegetation (in Russian). In Proceedings of the All-Russian Scientific Conference Plants in the Context of Global and Local Natural, Climatic and Anthropogenic Impacts (p. 220), September 21−26, 2015. Petrozavodsk: Karelian Scientific Center of the Academy of Sciences.]Search in Google Scholar
[Kisljuk, I.M., Bublo, L.S. & Vas’kovskij M.D. (1997). In the length creas and number of thylakoid membranes in chloroplasts of wheat leaves as a result of heat shock (in Russian). Physiology of Plants, 44(1), 39−44.]Search in Google Scholar
[Korshikov, I.I., Bychkov, S.A., Terlyga, N.S. & Mazur A.E. (1998). Preservation of ovules of Crimean pine in conditions of industrial contaminated ecotypes (in Russian). Introduction and Acclimatization of Plants, 28, 81−87.]Search in Google Scholar
[Korytova, A.I., Mihajlov, O.F. & Bessonova V.P. (1976). The content of pigments depending on the conditions of growth (in Russian). Steppe Forest Science and Nature Conservation, 94− 99.]Search in Google Scholar
[Kushnirenko, M.D. & Medvedeva T.N. (1969). Dependence of water-holding capacity and pigment content in the leaves of fruit plants on the conditions of moistening (in Russian). Water Regime of Agricultural Plants, 322− 332.]Search in Google Scholar
[Ladygin, V.G. & Shirshikova G.N. (2006). Modern concepts of the functional role of carotenoids in eukaryotic chloroplasts (in Russian). Journal of General Biology, 67, 163–189.]Search in Google Scholar
[Loggini, D., Scartazza, A., Brugnoli, E. & Navar-Izzo F. (1999). Antioxidative defence system pigment composition and photosynthetic efficiency in two wheat cultivars subjected to drought. Plant Physiol, 119(3), 1091–1099. DOI: 10.1104/pp.119.3.1091.10.1104/pp.119.3.10913209110069848]Open DOISearch in Google Scholar
[Novikov, V.I. & Vitkovskaja V.V. (1959). Dynamics of yellow and green pigments in the ontogeny of spring wheat (in Russian). Problems of Phytocenosis, 175–178.]Search in Google Scholar
[Ralituho, L., Rech, J. & Jahnus P. (2007). Specific xanthophylls in light. Planta, 227, 423–429.10.1007/s00425-006-0356-3]Search in Google Scholar
[Shadchyna, T.M., Huliaiev, B.I., Kirizij, D.A., Stasyk, O.O., Priadkina, H.O. & Storozhenko V.O. (2006). Regulation of photosynthesis and plant productivity: physiological and environmental aspects (in Ukrainian). Kyiv: Fitosotsiotsentr.]Search in Google Scholar
[Shmat’ko, I.G., Grigorjuh, I.A. & Shvedova O.E. (1989). Stability of plants to water and temperature stresses (in Russian). Kyiv: Naukova dumka.]Search in Google Scholar
[Stroganov, B.P., Kabanov, V.V. & Shevjakov N.I. (1970). Structure and function of cells in salinity (in Russian). Moscow: Nauka Publ.]Search in Google Scholar
[Tanaka, R. & Tanaka A. (2011). Chlorophyll cycle regulates the construction and destruction of the light-harvesting complexes. Biochim. Biophys. Acta, 1807(8), 968–976. DOI: 10.1016/j.bbabio.2011.01.002.10.1016/j.bbabio.2011.01.00221216224]Search in Google Scholar
[Taran, N.Yu. (1999). Carotenoids of photosynthetic membranes under drought conditions (in Ukrainian). Physiology and Biochemistry of Cultivated Plants, 31(6), 414–422.]Search in Google Scholar
[Terlyga, N.S., Korshikov, I.I. & Mazur A.E. (2002). An estimation of a vital condition of the Crimean pine (Pinus pallasiana D. Don) on needle packing of crowns of plants in plantations of Kryvbas (in Russian). Industrial Botany, 2, 15–18.]Search in Google Scholar
[Titova, S. (2010). The content of photosynthetic pigments in needles is Picea abies and Picea koraiensis (in Russian). Bulletin of the Orenburg University, 12, 9–12.]Search in Google Scholar
[Tuba, Z. (1984). Changes of carotenoids in various drought adapted species during subsequent dry and wet periods. Acta Bot. Hung., 30, 217–228.]Search in Google Scholar
[Usypiva, T.I. & Samko O.V. (2009). Industrial SO2 and NO2 gases influence on chlorophyll dynamics in self-sown woody plants leaves (in Ukrainian). Scientific Bulletin Mykolaiv V.O. Sukhomlynskyi National University, Series Biol. Sciences, 4(1), 282–287.]Search in Google Scholar
[Vojcehovskaja, O.K. (2015). New functional aspects of chlorophyll b in flowering plants: photosynthesis, signalling and regulation of ontogenesis (in Russian). In Proceedings of the All-Russian Scientific Conference Plants in the Context of Global and Local Natural, Climatic and Anthropogenic Impacts (p. 107), September 21−26, 2015. Petrozavodsk: Karelian Scientific Center of the Academy of Sciences.]Search in Google Scholar