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Buletinul AŞM. Ştiinţele vieţii. Nr. 3(318) 2012 Fiziologia şi Biochimia Plantelor 3. La nivel de organism aceasta se manifestă în dereglarea status-ului apei, legăturilor donator-acceptor de livrare a apei, precum şi în dereglarea coordonării funcţiilor organelor. 4. Perturbările în interrelaţiile funcţionale sunt o consecinţă a deosebirilor principiale ale organelor de homeostatare a apei şi gradului diferit de schimbare a activităţii enzimelor de protecţie antioxidativă. 5. Apa, de rând cu alţi factori, contribuie la menţinerea relaţiilor coordinative dintre organe şi îndeplineşte funcţia de integrare la nivel celular, de organ şi organism. Bibliografi e 1. Alloway Brion. Micronutrient defi ciencies around the world: current situation and outlook. // New Ag International, Murch. 2006. P. 26-41. 2. Aroca R., Irigoyen J. J., Sanchez – Diaz M. Drought enhances maize chilling tolerance. II Photosynthetic traits and protective mechanisms against oxidative stress. // Physiol. Plant. 2003, V. 117, P. 540 – 549. 3. Barlow E., Munns R., Brady C. Drought responses of apical meristems. // Turner N. C., Kramer P. J. eds. Adaptation of plants to water and high temperature stress. 1980 . New York: John Wiley and Sons. P. 191 – 203. 4. Brimecombe M.J. , De Leij F.A., Lynch J.M. The Effect of Root Exudates on Rhizosphere Microbial Population . // The Rhizosphere: Biochenystry and Organic Substances at the Soil- Plant-Interface. Ed. By Pinton R., et al., 2001. Chapter 4. P. 95 – 140. 5. Chance B. şi Machly A. Assay of catalases and peroxidases. // Methods in Enzymology, S.P. Colowick and N.O. Kaplan (ed). N.Y.: Acad. Press.1955. V. 2. P. 764-775. 6. Foyer C.H., Lelandais M., Kunert K.J. Photooxidative Stress in Plant. // Physiol. Plant. 1994. 92. P. 696 – 717. 7. Foyer C.H., Lopez-Delgado H., Dat J.F., Scott I.M. Hydrogen peroxide- and glutathione – assciated mechanisms of acclimatorrystress tolerance and signaling. //Physiol. Plant. 1997. 100. P. 241 – 254. 8. Hernandez M., N. Fernandez – Garcia, P. Dias – Vivancos and E. Olmos. A different role for hydrogen peroxide and the antioxidativesystem under short and long salt stress in Brassica oleracea roots //Journal of Experimental Botany. 2010. V. 61. No. 2. P. 521 – 535. 9. Hiraga S., Sasaki K., Ohashi Y., Matsui H. A large family of class III plant peroxidases. // Plant and Cell Physiology. 2001. 42. P. 462 -468. 10. Holbrook N.M., Zwienieski M.A. Integration of Long Distance Transport Systems in Plants: Perspectives and Prospects for Future Research. // Vascular transport in Plants. Elsevier. 2005. P.537-545. 11. Jiang Z., Huang B. Drought and Heat Stress Injury to Two Cool – Season Turfgrasses in Relation to Antioxidant Metabolism and Lipid Peroxidation. // Crop Science. 2001. V. 41. P. 436 – 442. 12. Kawano T. Role of the reactive oxygen species-generating peroxidase reaction in plant defense and growth indiction. // Plant Cell Reports. 2003. 21. P. 829 – 837. 13. Mika A., Marike Johanne Boenisch, David Hopff and Sabine Lüthje. Membrane – bound guaiacol peroxidases from maize (Zea mays L.) roots are regulated by methyl jasmonate, salicylic acid, and pathogen elicitors. // Jornal of Experimental Botany, 2010, Vol. 61, No.3, P. 831-841. 14. Munns R., M.Tester. Mechanisms of Salinity Tolerance. //Annual Review of Plant Biology 2008, Vol. 59. P. 651-681. 15. Nacano Y., Asada K. Hydrogen Peroxide Is Scavenged by Ascorbate Specifi c Peroxidase in Spinach Chloroplasts. // Plant Cell Physiol. 1981.V. 22. P. 867-880. 76
Buletinul AŞM. Ştiinţele vieţii. Nr. 3(318) 2012 Fiziologia şi Biochimia Plantelor 16. Passardi F., Cosio C., Penel C., Dunand C. Peroxidases have more functions than a Swiss army knife. // Plant Cell Reports. 2005. 24. P. 255 – 265. 17. Passioura J. The drought environnment: physical, biological and agricultural perspectives. // Jornal of Experimental Botany. 2007, V. 58, N. 2, P. 113 – 117. 18. Passioura J.B. Environmental plant biology and crop improvement. //Functional Plant Biology. 2002. V. 29. P. 537 – 546. 19. Scandalios J.G. Oxygen stress and superoxide dismutases. // Plant Physiol. 1993. V. 101. P. 7-12. 20. Ştefîrţă A., Aluchi N., Vrabie V. Menţinera integrităţii funcţionale – premiză a rezistenţei plantelor de Zea mays L. la secetă. // Lucrările ştiinţifi ce a Univers. de ştiinţe Agricole şi Medicină Veterinară „Ion Ionescu de la Brad” Iaşi, România, 2002. 2. 159 MB. 21. Ştefîrţă A., Brînză L. Presiunea hidrostatică şi superoxiddismutaza – inductori ai reacţiei nespecifi ce a plantelor la acţiunea secetei.// Buletinul Academiei de Ştiinţe a Moldovei. Ştiinţele vieţii. 2008a N2 (305), P. 41 – 50. 22. Ştefîrţă Anastasia, Lilia Brînză . Corelaţia activităţii unor enzime antioxidative şi status-ului apei frunzelor de zea mays l.in condiţii de secetă. // Buletinul Academiei de Ştiinţe a Moldovei. Ştiinţele vieţii. 2008b. N2 (305), P. 41 – 50. 23. Zhongin Lu., Newmann P. Water stress inhibits Hydraulic Conductance and Leaf Growth in Pice Seedlings but Not the Transport of Water via Mercury Sensitive Water Ghanneles in the Root. // Plant Physiology. 1999. V. 120, N. 1, P. 143-151. 24. Аксенов С.И. Вода и ее роль в регуляции биологических процессов. Ижевск, АНО «ИКИ». 2004. 212 с. 25. Жолкевич В. Н. Транспорт воды в растении и его эндогенная регуляция. М.: Наука, 2001, 80 с. 26. Ковтун И. И., Гойса Н. И., Митрофанов Б. А. Оптимизация условий возделывания озимой пшеницы по интенсивной технологии. Л.: Гидрометеоиздат, 1990. 288с. 27. Кушниренко и др. Методы изучения водного обмена и засухоустойчивость плодовых растений. Кишинев. 1970. 28 с. 28. Полевой В.В. Внутриклеточные и межклеточные системы регуляции у растений. // СОЖ. 1997. №9. c. 6-11. 29. Трач В. В., Стороженко В. А. Супероксиддисмутаза как компонент антиоксидантной системы растений при абиотических стрессовых воздействиях. // Физиология и биохимия культурных растениях. 2007. Т. 39. №4. c. 291 – 302. 30. Чевари С., Чаба И., Секей И. Роль супероксиддисмутазы в окислительных процессах клетки и метод определения её в биологических материалах // Лабораторное дело. 1985. № 11. c. 578-681. 31. Чиркова Т.В. Клеточные мембраны и устойчивость растений к стрессовым воздействиям // Соросовский образовательный журнал 1997. №9. с.12 -17. 32. Шматько И. Г., Жук О. И. Кинетика митозов в апексе побега пшеницы после действия водного стресса // Физиология и биохимия культурных растений, 1992. Т 24. №6. с. 564-568. 33. Шматько И. Г., Григорюк И. Г., Шведова О. Е. Устойчивость растений к водному и температурному стрессам. Киев: Наукова думка, 1989. 222 с. 77
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