Regulacja pozbiorczej trwalosci gatunkow uprawianych na zielen cieta

• Autorzy: Skutnik E , Lukaszewska A.
• Języki publikacji: PL

Abstrakty

EN

Plant species grown for florists' green are gaining importance as the foliage component becomes an increasingly important part of cut flower arrangements. Not only new plants are being tested but also the researchers are seeking treatments to improve their keeping qualities. Senescence of cut leaves is distinct from the senescence of cut flowers and commercial preservatives used to prolong the vase life of cut flowers may not always be suitable for cut foliage. Senescence is strongly modulated by plant hormones and we have shown the considerable benefits of applying them to cut leaves and shoots in increasing their postharvest life. Our results prove that in order to elaborate a method aiming at increasing the postharvest quality of cut leaves, it is necessery to test their response to different growth regulators, their concentrations and application methods. For example, in case of Hosta sp. a pulse treatment or a brief postharvest dip in a solution of the synthetic cytokinin BA can increase the vase life of leaves 5-10 times as compared to the water controls, while Ga₃ considerably extends the display life of cut leaves of Zantedeschia aethiopica.

Słowa kluczowe

PL

trwalosc; zielen cieta; bukieciarstwo; przedluzanie trwalosci; trwalosc pozbiorcza

• Wydawca: -
• Czasopismo: Postępy Nauk Rolniczych
• Rocznik: 2001
• Tom: 48
• Numer: 5
• Opis fizyczny: s.111-124,tab.,bibliogr.

Twórcy

autor

Skutnik E

• Szkola Glowna Gospodarstwa Wiejskiego, ul.Nowoursynowska 166, 02-787 Warszawa

autor

Lukaszewska A.

Bibliografia

• [1] Accati Garibaldi E., Abbattista I., Mayak S. 1981. The role of bacteria metabolism in affecting water uptake by carnation flowers. Acta Hortic. 113: 137-142.
• [2] Boss A., Van Staden J. 1989. Cytokinins in cut carnation flowers. Effect of cytokinin type, concentration and mode of aplication of flower longevity. J. Plant Physiol. 135: 155-159.
• [3] Broschat T.K., Donselman H. 1987. Potential of 57 species of tropical ornamental plants for cut foliage use. Hort Science 22: 911-913.
• [4] De Stigter H.C.M. 1981. Water-balance aspects of cut and intact 'Sonia' rose petals and effects of glucose, 8HQS and aluminium sulfate. Acta Hortic. 113: 97-107.
• [5] Faquhar G.D., Sharkey T.D. 1982. Stomatal conductance and photosynthesis. Ann. Rev. Plant Physiol. 33: 317-345.
• [6] Fujino D.W., Reid M.S. 1983. Factor affecting the vase life of fronds of maidenhair fern. Scientia Hortic. 21: 181-188.
• [7] Gilman K.F., Steponkus P.L. 1972. Vascular blockage in cut roses. J. Amer. Soc. Hort. Sci. 97: 662-667.
• [8] Goszczyńska D., Nowak J. 1980. The effect of sucrose, silver salts and 8-hydroxyqunol-ine sulphate on the quality and vase-life of dry stored carnations. Prace Instytutu Sadownictwa i Kwiaciarstwa w Skierniewicach, Seria B - Rośliny Ozdobne 5: 65-71.
• [9] Halevy A.H., Mayak S. 1975. Interrelationship of several phytohormones in the regulahon of rose petal senescence. Acta Hort. 41: 103-116.
• [10] Halevy A.H., Mayak S. 1981. Senescence and postharvest physiology of cut flowers. Cz. I, Hort Rev. 1: 204-239; cz.II. Hort. Rev. 3: 51-143.
• [11] Halevy A.H., Mayak S. 1981. Senescence and postharvest physiology of cut flowers. Hort. Rev. 3: 39-143.
• [12] Healy W., Lang D. 1989. Postharvest handling of Alstroemeria. Hort Science 24(4): 641-643.
• [13] Hickleton P.R. 1991. GA₃ and benzyloaminopurine delay leaf yellowing in cut Alstroemeria stems. Hort Science 26: 1198-1199.
• [14] Kappers I.F., Jordi W., Tsesmetzis N., Mass F.M., Plas L.H.W. van der. 1998. GA₄ does not require conversion into GA₁ to delay senescence of Alstromeria hybrida leaves. Journal of Plant Growth Regulation 17(2): 89-93.
• [15] Kopcewicz J., Lewak S. 1998. Podstawy fizjologii roślin. PWN.
• [16] Kusnetsov V., Hermann R.G., Kulaeva O.N., Oelmuller R. 1998. Cytokinin stimulates and abscisic acid inhibits greening of etiolated Lupinus luteus cotyledons by affecting the expression of the light-sensitive protochlorophyllide oxidoreductase. Molecular and General Genetics 259(1): 21-28.
• [17] Łukaszewska A.J. 1987. Trwałość materiału kwiaciarskiego. Fizjologiczne aspekty trwałości materiału kwiaciarskiego w trakcie jego przechowywania i transportu. Wyd. SGGW-AR.
• [18] Łukaszewska A., Wróbel A. 1998. Próby regulacji trwałości ciętych kwiatów lwiej paszczy. Najnowsze metody przedłużania trwałości ciętych kwiatów. Konferencja naukowa 24 X 1998 r.: 31-32.
• [19] Marousky F.J. 1971. Inhibition of vascular blockage and increased moisture retention in cut roses induced by pH, 8-hydroxyquinoline citrate and sucrose. J. Amer. Soc. Hort Sci. 96(1): 38-41.
• [20] Mathur D.D., Stamps R.H., Conover C.A. 1983. Response of Rumohra adiantiformis to water application level and nitrogen form. Hort Science 18(5): 759-760.
• [21] Mayak S., Halevy A.H. 1974. The action of kinetin in improving the water balance and delaying senescence processes of cut rose flowers. Physiol. Plant. 32: 330-336.
• [22] Nell T.A., Barrett J.E., Stamps R.H. 1983. Water relation and frond curl of cut leatherleaf fern. J. Amer. Hort. Science 108: 516-519.
• [23] Nooh A.E., El-Kiey T., Khattab M. 1986. Studies on the keeping quality of cut green Ruscus hypoglossum and Nephrolepsis exaltata. Acta Hort. 181: 223-229.
• [24] Nordin A. 1976. Effects of water stress and abscisic acid on transpiration regulation in wheat. Physiol. Plant. 38: 233-239.
• [25] Nowak J. 1985. Evaluation of different chemical treatments for vase-life prolongation and cold storage of Asparagus sprengerii. Prace Instytutu Sadownictwa i Kwiaciarstwa w Skierniewicach ser. B 10: 127-131.
• [26] Nowak J., Mynett K. 1985. The effect of growth regulators on post-harvest characteristics of cutlilium 'Prima' inflorescens. Acta Hort. 167: 109-116.
• [27] Nowak J., Rudnicki R.M. 1988. Przedłużenie trwałości kwiatów ciętych. PWRiL.
• [28] Pier G.B., Sidberry H.F., Zolomyi S., Sadoff J.C. 1978. Isolation and characterisation of high-molecular weight polysaccharide from slime of Pseudomonas aeruginosa. Infect. Immun. 22: 908-918.
• [29] Rashke K. 1975. Stomatal action. Ann. Rev. Plant Physiol. 26: 309-340.
• [30] Reid M.S. 1985. Ethylene and abscission. Hort Science 20: 45-50.
• [31] Rudnicki R. M., Nowak J. 1 977. Metody przedłużania żywotności i przechowywania kwiatów ciętych. Post. Nauk Rol. 1: 53-68.
• [32] Rudnicki R.M., Nowak J. 1992. Jak przedłużyć trwałość kwiatów ciętych i roślin doniczkowych. PHU Mutual Benefit Skierniewice.
• [33] Sacalis J.N., Nichols R. 1980. Effects of 2,4-D uptake on petal senescence in cut crnmation flowers. Hort Science 15: 499-500.
• [34] Sacalis J.N. 1986. Research on isolated carnation petals. Acta Hort. 181: 113-127.
• [35] Skutnik E. 1998. Regulacja po zbiorczej trwałości wybranych gatunków uprawianych na zieleń ciętą. Praca doktorska SGGW, Warszawa.
• [36] Stevens R.A., Martin E.S. 1977. New structure associated with stomatal complex of the Polypodium vulgare. Nature 265(5592): 331-334.
• [37] Sutherland J.W. 1977. Bacterial exopolysaccharides - their nature and production. Surface carohydrates of the Prokaryotic cell. Academic Press, NY: 27-96.
• [38] Szwejkowska A. 1997. Fizjologia roślin. Wydawnictwo Naukowe UAM.
• [39] Thimann K.V. 1977. Hormone action in the whole life of plants. The University of Massachusetts Press: 249-251, 357-377.
• [40] Thimann K.V., Satler S.O. 1979. Relation between leaf senescence in light. Botany 76(5): 2295-2298.
• [41] Thimann K.V., Satler S.O., Trippi V. 1982. Further extension of the syndrome of leaf senescence. W: ,,Plant Growth Substances 1982" (P.F. Wareing red.), Academic Press, London: 539-548.
• [42] Thimann K.V. 1987. Plant Senescence: A proposed integration of the constituent processes. Proceedings of the X' Annual Symposium in Plant Physiology, 8-10.01.1987,
• University of California: 1-20.
• [43] Van Alfen N.K., McMillan B.D., Turner V., Hess W.M. 1983. Role of pit membranes in macromolecule-induced wilt of plants. Plant Physiol.: 1020-1023.
• [44] Van Doorn W.G., Clerkx A., Boekestein A. 1991. Bacteria as a cause of vascular occlusion in cut fronds of Adiantum raddianum: scanning electron microscope study. Scientia Hort. 48: 299-309.
• [45] Van Doorn W.G., De Stigter H.C.M., De Witte Y., Boekestein A. 1991. Microorganisms at the cut surface and in xylem vessels of rose stems: a scanning microscope study. Appl. Bacteriol. 70: 34-39.
• [46] Van Staden J., Davey J.E. 1976. Cytokonin translocation in xylem sap of herbaceous plants. Z. Phlancenphysiol. 99: 19-26.
• [47] Wilkinson S.G. 1977. Composition and structure of bacterial lipopolisaccharides. Surface Carbohydrates of the Prokaryotic Cell. Academic Press, NY: 97-174.
• [48] Wingler A., Schaewen A. Von, Leegood R.C., Lea P.J., Quick W.P. 1998. Regulation of leaf senescence by cytokinin, sugars and light. Effect on NADH-dependent hydroxypyruvate reductase. Plant Physiology 116(1): 329-335.
• [49] Zagory D., Reid M. 1986. Evaluation of the role of vase microorganisms in the postharvest life of cut flowers. Acta Hortic. 181: 207-217.