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С. Мапелли, А. Бертани Рубрика: Лесное хозяйство Скачать статью (pdf, 0.7MB )УДК581.5DOI:АннотацияДеревья грецкого ореха оказались более чувствительными к абиотическим воздействиям, особенно к гипоксии почвы вследствие ее затопления или заболачивания. Целью исследования являлся поиск взаимосвязи между полифенолами и стойкостью
Сведения об авторахС. Мапелли, А. Бертани Национальный исследовательский Совет, Институт сельскохозяйственной биологии
Ключевые словаJuglans regia, Juglans nigra, полифенолы, юглон, фотосинтез, абиотическое воздействие, гипоксия почвы.Литература1. Almeida I.F., Fernandes E., Lima J.L.F.C., Costa P.C. and Bahia M.F. Walnut (Juglans regia) leaf extracts are strong scavengers of pro-oxidant reactive species // Food Chem. 2008. 106, рр. 1014–1020. 2. Belloni V. and Mapelli S. Effects of drought or flooding stresses on photosynthesis xylem flux and stem radial growth // Acta Hortic. 2001.544, рр. 327–333. 3. Hejl A.M., Einhelling F.A. and Rasmussen J.A. Effects of juglone on growth, photosynthesis and respiration // J. Chem. Ecol. 1993. 19, рр. 559–568. 4. Hemery G., Savill P.S. and Thakur A. Height growth and flushing in common walnut (Juglans regia L.): 5-year results from provenance trials in Great Britain // Forestry. 2005. 78, рр. 121–133. 5. Jalili A., Sadeghzade A. and Alipour S. Phenolic profile of walnut (Juglans regia L.) leaves cultivars grown in Iran. Int. Res. // J. Biochem. Bioinform. 2011. 1, рр. 290–296. 6. Jay-Allemand C., Cornu D. and Macheix J.J. Biochemical attributes associated with rejuvenation of walnut tree // Plant Physiol. Biochem. 1988. 26, рр. 13–144. 7. Jay-Allemand C. and Drouet A. Polyphenole und Enzyme als biochemische Verjuüngung bei Walnuß. Erwerbsotsbau. 1989. 31, рр. 63–69. 8. Li H-H., Nishimura H., Hasegawa K. and Mizutani J. Some physiological effects and the possible mechanism of action of juglone in plants // Weed Res. 1993. 38, рр. 214–222. 9. McGranahan G. and Leslie C. Walnuts (Juglans) // Acta Hortic. 1991. 290,
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INVOLVEMENT OF PHENOLIC COMPOUNDS IN WALNUT TREES
© S. Mapelli, A. Bertani National Research Council, Institute of Agricultural Biology and Biotechnology, 15, Edoardo Bassini st., Milan, 20133, Italy; e-mail: mapelli@ibba.cnr.it
Walnut trees have been shown to be very sensitive to abiotic stresses, especially to soil hypoxia consequence of soil flooding or waterlogging. The aim of study was to search for correlation between polyphenols and tolerance to flooding stress. Two-three years old walnut trees, Juglans regia, J. nigra and interspecific hybrids, grown in pots were subjected to soil flooding in summer at full leaves expansion. In high sensitive J. regia trees, when flooded, the net CO2 assimilation rapidly decreased and 3-4 days of flooding were enough to block the recovery when soils was drained. In walnut hybrid (J. nigra x J. regia) and less sensitive J. regia genotypes, a longer resistance was observed; after 13 days of treatment leaves culd still be green and trees can recovered till to the normal photosynthesis when drained. J. nigra when flooded reduced net photosynthetic rate but maintained leaves without damages and with the capacity to recover CO2 assimilation. The data showed resistance of J. nigra and hybrid trees and of some J. regia genotypes to the stress. The HPLC analyses of polyphenols showed a modification of the patterns during the stress. The plants less tolerant to hypoxia have higher content of polyphenols distributed in a lot of compounds. Trees more tolerant, J. nigra, showed a very simple HPLC pattern. All samples contained juglone, more in less tolerant genotypes. Hydroxy juglone glucoside was detectable in all genotypes, but only in low quantity, it increased in trees with high resistance to hypoxia and decreased in J. regia. Less flooded tolerant J. regia genotypes have higher polyphenols and juglone content. The metabolism of hydroxyl juglone glucoside could be involved in a mechanism of juglone detoxification during the hypoxia to give stress tolerance.
Keywords: Juglans regia, Juglans nigra, polyphenols, juglone, photosynthesis, abiotic stress, soil hypoxia. |