Dynamic of adaptability united latent quality indicator of Deschampsia antarctica population from Galindez island (Argentine lslands, maritime Antarctic) during three seasons
- Deschampsia antarctica,
- dynamic of united latent quality indicator of adaptability dynamics,
- Argentine Islands,
- maritime Antarctic
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Abstract
Complex adaptability dynamics in the six populations of Deschampsia antarctica Desv. (Galindez lsland, Argentine Islands, maritime Antarctic) has been investigated during three south astral seasons. The adaptability united latent quality indicator has bееn shown to bе depended as from growing microcondition as from yearly weathering condition. The nature of adaptability united latent quality indicator dynamic trend allowed to group investigated populations bу form of trend to three groups: monotonic growth, or monotonic recession, or passage through maximum. Next row addition of united latent quality indicator of adaptability dynamics would allow to compare it with corresponding climatic indicator dynamics.
References
- Aivazian, S.A., Buchstaber, V.M., Ieniukov, I.S., & Meshalkin, L.D. (1989). Prikladnaia statistika. Klassifikaciia i snizheniie razmernosti [Applied statistics. Classification and lowering the dimensionality]. Moscow, Finansy i statistika. (In Russian)
- Miryuta, N.Yu., & Kunah, V.A. (2012). Dynamika klitynnyh sistem in vitro. 3. Hipoteza samokeruvannia processamy dyferenciacii klityn ta ii fenomenolohichna realizaciia na prykladi kultury tkanyn rauvolfii zmiinoi [Dynamics of cell systems in vitro. 3. The hypothesis of self-governing of the cell differentiation processes and its phenomenological realization on the example of the tissue culture of Rauwolfia serpentina]. Biotechnologia Acta, 5(3), 40-52. (in Russian)
- Miryuta, N., Parnikoza, I., Myryuta, A., Shvydun, P., Smykla, J., Kozeretska, I., Kunakh, V. (2014). The united latent quality indiсator of Deschampsia antarctica Desv. adaptibility as reflex of current microconditions in the region of Admiral Bay (King George Island, Maritime Antarctic). Ukrainian Antarctic Journal, 13, 159-174. (in Ukrainian)
- Musienko, M.M., Serebriakov, V.V., & Braion, O.V. (2004). Ekologia: Tlumachnyi slovnyk [Ecology. A comparative dictionary]. Kyiv, Lybid. (in Ukrainian)
- Osterman, L.A. (1981). Metody issledovaniia belkov i nukleinovyh kislot. Elektroforez i ultracentriugirovaniie (prakticheskoie posobiie) [Methods of researching proteins and nucleic acids. Electrophoresis and ultracentrifugation (a practical guide)]. Moscow, Nauka. (in Russian)
- Parnikoza, I., Ozheredova, I., Miryuta, N., Kozeretska, I., Smykla, Dzh., Kunah, V. (2013). Porivnialnyi analiz pokaznykiv populiaciinoi uspishnosti Deschampsia antarctica Desv. v raioni Admiralskoi buhty (o. Korolia Georga. Pryberezhna Antarktyka) [Comparative analysis of the parameters of population success of Deschampsia antarctica Desv. in the area of the Admiral Bay (King George Island, Maritime Antarctica]. Ukrainian Antarctic Journal, 12, 186-198. (in Ukrainian)
- Pobezhymova, T.P., Kolesnichenko, A.V., & Grabitelnyh, O.I. (2004). Metody izuchenia mitohondrii rastenii. Poliarografia i elektroforez [Methods of studying mitochondria of plants. Polarography and electrophoresis]. Moscow, Nauka. (in Russian)
- Pollard, J.H.P. (1982). Spravochnik po vychislitelnym metodam statistiki [A handbook of numerical and statistical techniques]. Moscow, Finansy i statistika.
- Sozinov, A. A. (1985). Polimorfizm belkov i ego znachenie v genetike i selekcii [Protein polymorphism and its meaning in gentics and selection]. Moscow.
- Tchuraev, R.N.: Epigenetics: gene and epigenetic networks in onto- and phylogeny, Genetics, 42 (9), 1276-1296.
- Shalogo, N.V., Domanskaya, I.N., Radyuk, M.S., Shcherbakov, R.A., & Dremuk, I.A. (2012). Accumulation of hydrogen peroxide and functioning of defense system in overwatered barley seedlings. Russian Journal of Plant Physiology, 59(6), 748-756.
- Bölter, M., Kappen, L., & Meyer, M. (1989). The influence of microclimatic conditions on potential photosynthesis of Usnea sphacelata: A model. Ecological research, 3, 297-307.
- Causton, V. R., & Venus, J. C. (1981). The Biometry of Plant Growth. Edward Arnold, London.
- Conrad, M. (1983). Adaptability, the Significance of Variability from Molecule to Ecosystem. Plenum Press, New York.
- Convey, P. (1996a). Reproduction of Antarctic plants. Antarctic Science, 8(2), 127-134.
- Convey, P. (1996b). The influence of environmental characteristics on life history attributes of Antarctic terrestrial biota. Biological Reviews, 71, 191-225.
- Convey, P. (2003). Maritime Antarctic climate change: Signals from terrestrial biology. Antarctic research series, 79, 145-158.
- Day, A.T., Ruhland, C.T., & Xiong, F.S. (2008). Warming increases aboveground plant biomass and C stock in vascular-plant-dominated Antarctic tundra. Global Change Biology, 14, 1827-1843.
- Dietz, H., & Steinlein, T. (1996). Determination of plant species cover by means of image analysis. Journal of vegetation science, 7, 131-136.
- Fowbert, J.A., & Smith, R. L. (1994). Rapid population increases in native vascular plants in the Argentine Islands Antarctic Peninsula. Arctic and Antarctic Research, 26, 290-296.
- Kozeretska, I.A., Parnikoza, I.Yu., Mustafa, O., Tyschenko, O.V., Korsun, S.G., & Convey, P. (2010). Development of Antarctic herb tundra vegetation near Arctowski station, King George Island. Polar Science, 3, 254-261.
- Parnikoza, I., Miryuta, N., Ozheredova, I., Kozeretska, I., Smykla, J., Kunakh, V., & Convey, P. (2015). Comparative analysis of Deschampsia antarctica Desv. population adaptability in the natural environment of the Admiralty Bay region (King George Island, maritime Antarctic). Polar Biology, 38(9), 1401-1411.
- Royles, J., Amesbury, M.J., Convey, P., Griffiths, H., Hodgson, D.A., Leng, M.J., & Charman, D.J. (2013). Plants and soil microbes respond to recent warming on the Antarctic Peninsula. Current Biology, 23, 1702-1706.
- Smith, R.L. (1994). Vascular plants as indicators of regional warming in Antarctica. Oecologia, 99, 322-328.
- Tchuraev, R.N. (2006b). General principles of organization and laws of functioning in governing gene networks, in: N. Kolchanov, R. Hofestädt, Milanesi, L. (Eds.) Bioinformatics of Genome Regulation and Structure, Springer, Science Media Inc., New York, 367-377.
- Turner, R.N., Colwell, S.R., Marshall, G.J., Lachlan-Cope, T.A., Carleton, A.M., Jones, P.D., Lagun, V., Reid, P.A., & Iagovkina, S. (2005). Antarctic climate change during the last 50 years. International Journal of Climatology, 25, 279-294.
- Turner, J., Barrand, N.E., Bracegirdle, T.J., Convey, P., Hodgson, D.A., Jarvis, M., Jenkins, M., Marshall, G., Meredith, M.P., Roscoe, H., Shanklin, J., French, J., Goosse, H., Guglielmin, M., Gutt, J., Jacobs, S., Kennicutt, M.C., Masson-Delmotte, V., Mayewski, P., Navarro, F., Robinson, S., Scambos, T., Sparrow, M., Summerhayes, C.P., Speer, K., & Klepikov, A. (2013). Antarctic climate change and the environment: an update. Polar Record, 3, 237-259.
- Van Loon, L.C. (2009). Plant Innate Immunity. Advances in Botanical Research, 51.