Componente Endo-Adaptativo de Taraxacum Officinale L. como determinante del síndrome de adaptación de los organismos vegetales en el fondo de la estabilidad del ecosistema
Palabras clave:
Reordenamientos estructurales y funcionales, xeromorfización, Taraxacum Officinale L., Sur de Ucrania
Resumen
El propósito del estudio es investigar la especificidad del componente endoadaptativo (agárico de miel) como determinante del síndrome de adaptación de los organismos vegetales en el contexto de la estabilidad del ecosistema. La base teórica y metodológica del trabajo fue el uso sinérgico de principios científicos y un enfoque sistemático, lo que determinó un enfoque transparente para la elección de métodos de investigación: estadística general científica, biológica general y matemática. Se ha demostrado que, en las condiciones modernas, las plantas se adaptan a los cambios en el ambiente externo debido a varios mecanismos de adaptación (características xeromórficas, etc.), que se formaron en el proceso de desarrollo filogenético y determinan la existencia de plantas resistentes a la sequía. Se muestra que las reacciones-respuestas de las plantas ayudan a identificar los componentes principales del xeromorfismo, para investigar los cambios correspondientes en la formación del síndrome adaptativo general del organismo vegetal.
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Baczek K., Kosakowska O., Przybyl J. L. et al. (2015). Intraspecific variability of yarrow (Achillea millefolium L. s.l) in respect of developmental and chemical traits. Herba Polonica. 61(3). 37-52.
Box E. O. (2006). Plant functional types and climate at the Global Scale. Veg. Sci. 7. 309-20. Carolin R. C., Jacobs S. V. and Vesk M. (2008). Kranz cells and mesophvll in the Chenopodiales. J. Bot. 26(5). 683-98.
Crawley М. (2000). Plant Ecology. Berlin: Blacwell Science. 717 p.
Didukh Ya. P., Plyuta P. G. (2004). Phytoindication of ecological factors. Kyiv: Naukova dumka. 280 p.
Didukh Ya. P., Shelyag-Sosonko Y. R. (2001). Classification of ecosystems is an imperative of the national eco-network (ECONET) of Ukraine. Ukr bot Journal. 57 (4). 393-403.
Didukh Ya. P., Shelyag-Sosonko Y. R. (2003). Geobotanical zoning of Ukraine and adjacent territories. Ukr bot Journal. 60 (1). P. 6-17.
Golubets M. A. (2017). From the biosphere to the sociosphere. Lviv: Polly. 256 p.
Grozdynskyi D. M. (2013). Reliability of plant systems. Kyiv: Naukova dumka. 365 p. Grytsyk A. R., Neiko O. V., Melnyk M. V. (2016). Morphological-anatomical study of Achillea L. species in western region of Ukraine. The Pharma Innovation Journal. 2 (4). 71-3.
Gulac O., Marchenko O., Kapitanenko N., Kuris Y., & Oleksenko R. (2022). State environmental policy on the issue of legal regulation of fire safety in the forests of Ukraine. Cuestiones Políticas, 40 (74).
Gulac O., Oleksenko R., Kaluha V., Kravchenko O. & Yukhymenko N. (2022). Overcoming the environmental crisis in the forestry sector of Ukraine in the context of the ecocentric paradigm. Revista de la Universidad del Zulia. 13(38), 59-71.
Hajibagheri M. A. N. (2003). Electron Microscopy Methods and Protocols Methods in molecular biology: Totowa: Humana Press. 117. 276 p.
Jones H. G. (2012). Plants and microclimate: a quantitative approach to environmental plant physiology. 2th Cambridge Univ. Press. 296 p.
Kazakov E. O. (2000). Methodological bases of staging an experiment in plant physiology. Kyiv: Phytosocial center. 272 p.
Khrystova T. E. and Pyurko O. E. (2007). Ukrainian scientists' advances in plants' water regime research: the historical and functional aspects. Visnyk of Dnipropetrovsk University. Biology. Ecology. 15(1). 199-209. DOI: https://doi.org/10.15421/010736
Khrystova T. E. and Pyurko O. E. (2009). Historical aspect of photosynthesis biochemical diversity of and it’s role at plant ecology and phytoindication. Visnyk of Dnipropetrovsk University. Biology. Ecology. 17(3). 92-100. DOI: 10.15421/010974
Kramer P. J. and Bayer J. S. (2005). Water relations of plants and soils. Orlando: Acad. Press. 307 р.
Larcher W. (2005). Physiological Plant Ecology. Berlin: Springer. 505 p.
Malawska M., Wilkomirski B. (2001). An analysis of soil and plant (Taraxacum officinale) contamination with heavy metals polycyclic aromatic hydrocarbons (PAHs) in the area of the railway junction Ilawa Glowna, Poland. Water, Air and Soil Pollut. 127. 1(4). 339-49.
Musienko M. M. (2005). Plant physiology. Kyiv: Lybid. 807 р.
Nomani H., Schuize E. D. and Ziegler H. (2010). Mechanism of stomatal movement in response to air humidity, irradiance and xylem water potential. Planta. 183(1). 57-64.
Preservation and monitoring of biological and landscape diversity in Ukraine (2000). Kyiv: National environmental center of Ukraine. 244 p.
Pyankov V. I., Ivanovov L. A. and Lambers H. (2008). Quantitative anatomy of photosynthetic tissues of plants species of different functional types in a boreal vegetation. Inherent variation in plant growth. Physiological mechanisms and ecological consequences. Leiden: Backhuys Publ. 71-87.
Pyurko O. E., Musienko M. M. and Kazakov E. O. (2002). Methodological aspects of physiological study of Azov plants. Issues of bioindication and ecology. 2/3. 141-52.
Pyurko O. E., Velcheva L. G., Arabadzhi-Tipenko L. I. (2022). Endo-adaptive mechanisms of mesophytic plants’ functioning as a component of ecosystem resistance. IOP Conference Series: Earth and Environmental Science. 1049(1). 012071
Smirnoff N. (2008). Plant resistance to environmental stress. Curr. Op. Bio. 9. 214-9.
Spence R. D. (2017). The problem of variability in stomatal responses. Particiilail/aperture variance, to environmental and experimental conditions. New Phytol. 107(2). 303-15.
Sterk A. A., Hommels C. H., Jenniskens M. J. P. J., Neuteboom J. H., den Nijs J. C. M., Oosterveld P., Segal S. (2007). Paardebloemen, planten zonder vader. Variatie, evolutieen toepassingen van het geslacht paardebloem (Taraxacum) Utrecht. 348 p.
Tyerman S. D., Bohnert H. J., Maurel C. et al. (2009). Plant aquaporins: their molecular biology, biophysics and significance for plant water relations. J. Exp. Bot. 50. 1055-71.
Vasylevska, V. K. (2014). Leaf formation of drought-resistant plants. Ashgabat: Education 184 p.
Weaver, J. Е. and Clements F. E. (2008). Plant ecology. Praha. 241-7.
Wilson, P. (2002). On inferring hybridity from morphological intermediacy. Taxon. 41(1). 11- 23.
Wright, I. J. and Westoby M. (2001). Understanding seedling growth relationship through specific leaf area and leaf nitrogen concentration: generalization across growth forms and growth irradiance. Ecology. 127. 21-9.
Zlobin Yu. A. (2004). Course of plant physiology and biochemistry. Sumy: University book. 464 p.
Box E. O. (2006). Plant functional types and climate at the Global Scale. Veg. Sci. 7. 309-20. Carolin R. C., Jacobs S. V. and Vesk M. (2008). Kranz cells and mesophvll in the Chenopodiales. J. Bot. 26(5). 683-98.
Crawley М. (2000). Plant Ecology. Berlin: Blacwell Science. 717 p.
Didukh Ya. P., Plyuta P. G. (2004). Phytoindication of ecological factors. Kyiv: Naukova dumka. 280 p.
Didukh Ya. P., Shelyag-Sosonko Y. R. (2001). Classification of ecosystems is an imperative of the national eco-network (ECONET) of Ukraine. Ukr bot Journal. 57 (4). 393-403.
Didukh Ya. P., Shelyag-Sosonko Y. R. (2003). Geobotanical zoning of Ukraine and adjacent territories. Ukr bot Journal. 60 (1). P. 6-17.
Golubets M. A. (2017). From the biosphere to the sociosphere. Lviv: Polly. 256 p.
Grozdynskyi D. M. (2013). Reliability of plant systems. Kyiv: Naukova dumka. 365 p. Grytsyk A. R., Neiko O. V., Melnyk M. V. (2016). Morphological-anatomical study of Achillea L. species in western region of Ukraine. The Pharma Innovation Journal. 2 (4). 71-3.
Gulac O., Marchenko O., Kapitanenko N., Kuris Y., & Oleksenko R. (2022). State environmental policy on the issue of legal regulation of fire safety in the forests of Ukraine. Cuestiones Políticas, 40 (74).
Gulac O., Oleksenko R., Kaluha V., Kravchenko O. & Yukhymenko N. (2022). Overcoming the environmental crisis in the forestry sector of Ukraine in the context of the ecocentric paradigm. Revista de la Universidad del Zulia. 13(38), 59-71.
Hajibagheri M. A. N. (2003). Electron Microscopy Methods and Protocols Methods in molecular biology: Totowa: Humana Press. 117. 276 p.
Jones H. G. (2012). Plants and microclimate: a quantitative approach to environmental plant physiology. 2th Cambridge Univ. Press. 296 p.
Kazakov E. O. (2000). Methodological bases of staging an experiment in plant physiology. Kyiv: Phytosocial center. 272 p.
Khrystova T. E. and Pyurko O. E. (2007). Ukrainian scientists' advances in plants' water regime research: the historical and functional aspects. Visnyk of Dnipropetrovsk University. Biology. Ecology. 15(1). 199-209. DOI: https://doi.org/10.15421/010736
Khrystova T. E. and Pyurko O. E. (2009). Historical aspect of photosynthesis biochemical diversity of and it’s role at plant ecology and phytoindication. Visnyk of Dnipropetrovsk University. Biology. Ecology. 17(3). 92-100. DOI: 10.15421/010974
Kramer P. J. and Bayer J. S. (2005). Water relations of plants and soils. Orlando: Acad. Press. 307 р.
Larcher W. (2005). Physiological Plant Ecology. Berlin: Springer. 505 p.
Malawska M., Wilkomirski B. (2001). An analysis of soil and plant (Taraxacum officinale) contamination with heavy metals polycyclic aromatic hydrocarbons (PAHs) in the area of the railway junction Ilawa Glowna, Poland. Water, Air and Soil Pollut. 127. 1(4). 339-49.
Musienko M. M. (2005). Plant physiology. Kyiv: Lybid. 807 р.
Nomani H., Schuize E. D. and Ziegler H. (2010). Mechanism of stomatal movement in response to air humidity, irradiance and xylem water potential. Planta. 183(1). 57-64.
Preservation and monitoring of biological and landscape diversity in Ukraine (2000). Kyiv: National environmental center of Ukraine. 244 p.
Pyankov V. I., Ivanovov L. A. and Lambers H. (2008). Quantitative anatomy of photosynthetic tissues of plants species of different functional types in a boreal vegetation. Inherent variation in plant growth. Physiological mechanisms and ecological consequences. Leiden: Backhuys Publ. 71-87.
Pyurko O. E., Musienko M. M. and Kazakov E. O. (2002). Methodological aspects of physiological study of Azov plants. Issues of bioindication and ecology. 2/3. 141-52.
Pyurko O. E., Velcheva L. G., Arabadzhi-Tipenko L. I. (2022). Endo-adaptive mechanisms of mesophytic plants’ functioning as a component of ecosystem resistance. IOP Conference Series: Earth and Environmental Science. 1049(1). 012071
Smirnoff N. (2008). Plant resistance to environmental stress. Curr. Op. Bio. 9. 214-9.
Spence R. D. (2017). The problem of variability in stomatal responses. Particiilail/aperture variance, to environmental and experimental conditions. New Phytol. 107(2). 303-15.
Sterk A. A., Hommels C. H., Jenniskens M. J. P. J., Neuteboom J. H., den Nijs J. C. M., Oosterveld P., Segal S. (2007). Paardebloemen, planten zonder vader. Variatie, evolutieen toepassingen van het geslacht paardebloem (Taraxacum) Utrecht. 348 p.
Tyerman S. D., Bohnert H. J., Maurel C. et al. (2009). Plant aquaporins: their molecular biology, biophysics and significance for plant water relations. J. Exp. Bot. 50. 1055-71.
Vasylevska, V. K. (2014). Leaf formation of drought-resistant plants. Ashgabat: Education 184 p.
Weaver, J. Е. and Clements F. E. (2008). Plant ecology. Praha. 241-7.
Wilson, P. (2002). On inferring hybridity from morphological intermediacy. Taxon. 41(1). 11- 23.
Wright, I. J. and Westoby M. (2001). Understanding seedling growth relationship through specific leaf area and leaf nitrogen concentration: generalization across growth forms and growth irradiance. Ecology. 127. 21-9.
Zlobin Yu. A. (2004). Course of plant physiology and biochemistry. Sumy: University book. 464 p.
Publicado
2023-12-21
Cómo citar
Pyurko, O., Khrystova, T., Pyurko, V., & Arabadzhy-Tipenko, L. (2023). Componente Endo-Adaptativo de Taraxacum Officinale L. como determinante del síndrome de adaptación de los organismos vegetales en el fondo de la estabilidad del ecosistema. Revista De La Universidad Del Zulia, 15(42), 491-503. https://doi.org/10.46925//rdluz.42.27
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