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2003 | 50 | 3 |

Tytuł artykułu

Promieniowanie UV-B a wzrost i rozwoj roslin zielnych

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Języki publikacji

PL

Abstrakty

EN
Paper presents a review of the recent literature dealing with the UV-B radiation, its effect on physiological processes of plant growth and development, cellular changes, concentration of chemical compounds and changes in morphological plant traits. The reasons of increasing UV-B radiation level are rapidly developing civilization and decreasing of ozone layer. It was stated that the plant reaction to UV-B irradiation depends on plant species and environment conditions. Destructive effects of UV-B radiation to plants may be - to some extent-neutralized by defence mechanisms, a form of specific plant adaptation to stress, however, under conditions of strong UV-B irradiation such mechanisms are not sufficient.

Wydawca

-

Rocznik

Tom

50

Numer

3

Opis fizyczny

s.3-12,rys.,bibliogr.

Twórcy

  • Uniwersytet Warminsko-Mazurski, ul. Oczapowskiego 8, 10-718 Olsztyn

Bibliografia

  • [1] Babik J.1995. Promieniowanie UV w ogrodnictwie. Owoce 1: 10-11.
  • [2] Barnes P.W., Jordan P.W., Flint W.G., Caldwell M.M. 1988. Competition, morphology and canopy structure in wheat (Triticum aestivum L.) and wild oat (Avena fatua L.) exposed to enhanced ultraviolet-B radiation. Funct. Ecol. 2: 391-330.
  • [3] Bielecki K. 1993. Wpływ promieniowania UV na procesy metaboliczne roślin. Ochr. Rośl. 11: 11-12.
  • [4] Bornman J., Teramura A.H. 1993. Effects of ultraviolet-B radiation on terrestrial plants. W: Environmental UV photobiology, red. A.R. Young et al., Plenum Press, New York, 14: 427-477.
  • [5] Cen Y., Bornman J.P. 1990. Theresponse of bean plants to UV-B radiation under different irradiances of background visible light. J. Exp. Bot. 41(232): 1489-1495.
  • [6] Cline M.C., Salisbury F.B. 1966. Effects of ultraviolet radiation on the leaves of higher plants. Radiat. Bot. 6: 151-166.
  • [7] Dai Q., Peng S., Chavez A.Q., Vergara B.S. 1995. Effects of UVB radiation on stomatal density and opening in rice (Oryza sativa L.). Ann. Bot. 76(1): 65-70.
  • [8] Deckmyn G., Impens I. 1997. The ratio UV-B photosynthetically active radiation (PAR) determines the sensitivity of rye to increased UV-B radiation. Environ. Exp. Bot. 37(1): 3-12.
  • [9] Deckmyn G., Impens I., Rozema J. 1997. Combined effects of enhanced UV-B radiation and nitro gen deficiency on the growth, composition and photosynthesis of rye (Secale cereale) UV-B. Plant. Ecol. 128(1-2): 235-240.
  • [10] Degórska D., Rajewska-Więch B. 1992. Dziura ozonowa - zagrożenie czy przestroga? Przyr. Pol. 6: 12-13.
  • [11] DeLong J.M., Steffen K.L. 1997. Photosynthetic function, lipid peroxidation, and α-tocopherol content in spinach leaves during exposure to UV-b radiation. Can. J. Plant Sci. 77(3): 435-459.
  • [12] Fumess N., Upadhyaya M.K., Ormrod D.P. 1999. Seedling growth and leaf surface morphological responses of three rangeland weeds to ultraviolet-B radiation. Weed Science 47(4): 427-434..
  • [13] Głowiak K., Wierzchowska-Renke K., Kozyra M., Zobel A.M. 1996. Wpływ promieniowania UV na zawartość i lokalizację furanokumaryn w zielu Ruta graveolens L. Herba Pol. 42(4): 303-308.
  • [14] Grant R.H. 1999. Ultraviolet-B and photosynthetically active radiation environment of inclined leaf surface in a maize canopy and implications for modelling. Agricult. Forest. Meteorolog. 95(3): 187-201.
  • [15] Greenberg B.M., Wilson M.I. , Huang X-D,. Duxbury C.L,. Gerhaddt K.E,. Gensemer R. W. 1997. The effects of ultraviolet-B radiation on higher plants. W: Plants for Environmental Studies. Wang W., Goursuch J., Hughes J.S., red. Lewis Publishers (CRC Press), Boca Raton, FL: 1-35.
  • [16] Gumiński S. 1990. O wpływie światła niebieskiego i nadfioletowego na zjawiska morfogeniczne i niektóre metaboliczne u roślin. Wiad. Bot. 34(3): 5-13.
  • [17] Hoffman S. 1999. Die Wirkung von UV-Strahlung auf Blatt-und Blutenfarbe von Zierpflanzen. Gartenbauwissenschaft 64(2): 88-90.
  • [18] Hopkins L., Bond M.A., Tobin A.K. 2002. Ultraviolet-B radiation reduces the rates of cell division and elongation in the primary leaf of wheat (Triticum aestivum L. cv. Maris Huntsman). Plant Cell Environ. 25(5): 617-624.
  • [19] Landry L.G., Stapleton A.E., Lim J., Hoffman P., Hays J.B., Walbot V., Last R.L 1997. An Arabidopsis photolyase mutant is hypersensitive to ultraviolet-B radiation. Proc. Natl. Acad. Sci. USA 94: 328-332.
  • [20] Lityńska Z. 1992. Problem zaniku warstwy ozonowej. Gaz. Obs. 15: 5.
  • [21] Lynch J.M., Wierzchowska-Renke K., Zobel A.M. 1996. Short-term and long-term influence of UV-A radiation on Brassica oleracea L. Herba Pol. 42( 4): 248-251.
  • [22] Jansen M. 2002. Ultraviolct-B radiation effects of plants: induction of morphogenic responses. Physiol. Plant. 116(3): 423-442.
  • [23] Jordan B. 1996. The effects of ultraviolet-B radiation on plants. A molecular perspective. Adv. in Bot. Res. 22: 98-162.
  • [24] Jordan B. 2002. Molecular responses of plant cells to UV-B radiation. Source www.niwa.cri.nz/rc/atoms/uvconference/Jordan.html.
  • [25] Krizek D.T., Britz S.J, Mirecki R.M. 1998. Inhibitory effects of ambient levels ofsolar UV-A and UV-B radiation on growth of cv. New Red Fire lettuce. Physiol. Plant. 103: 1-7.
  • [26] Krupa S.V., Kickert R.N. 1989. The greenhouse effect: Impacts of ultraviolet-B (UV-B) radiation, carbon dioxide (O₃) on vegetation. Environ. Pollut. 61: 263-393.
  • [27] Mackernes S.A.H., Surpulus S.L., Jordan B.R., Thomas B. 1998. Effects of supplementary ultraviolet-B radiation on photosynthetic transcripts at different stages of leaf development and light levels in pea (Pisum satium L.): role of active oxygen species and antixidant enzymes. Photochem. and Photobiol. 68(1): 88-96.
  • [28] Malanga G.A., Garrison W.J., Puntarulo S. 1999. N-Acetylcysteine-dependent protection against UV-B damage in two photosynthetic organisms. Plant Sci. 141: 129-137.
  • [29] Matthew C., Hoffmann A., Rapson G.L., McKenzie R.L., Kemp P.D., Osborne M.A. 1996. Growth of ryegrass and white clover under canopies with contrasting transmission of ultraviolet-B radiation. Proc. Ann. Conf. Agron. Soc. New Zeal. 26: 23-30.
  • [30] Murphy T.M.1983. Membranes as targets of ultraviolet radiation. Physiol. Plant. 58: 381-388.
  • [31] Rao M.V., Ormrod D.P. 1995. Ozone exposure decreases UV-B sensitivity in a UV-B sensitive flavonoid mutant of Arabidopsis. Photochem. and Photobiol. 61: 71-78.
  • [32] Robakowski P. 1999. Impact of ultraviolet-B radiation on two species of forest dwarf shrubs: bilbery (Vaccinium myrtillus L.) i cowberry (Vaccinium vitis-idaea L.). Pol. J. Ecol. 47(1): 3-13.
  • [33] Rogiers S. 2002. UV-B effects on grapevines. Source www.csu.edu.au/nwgic/pages/research/grape_winequality.htm.
  • [34] Singh A. 1996. Growth, physiological and biochemical responses of three tropical legumes to enhanced UV-B radiation. Can. J. Bot. 74: 135-139.
  • [35] Skórska E. 1996. Reakcja rzepaku na promieniowanie ultrafioletowe UV-B. Rośl. Oleiste.17: 287-282.
  • [36] Skórska E. 1996. Changes inducted by short-term ultraviolet (UV-B) radiation on photosynthetic activities in pea and rape leaves. Folia Histochem. Cytobiol. 34(2): 44.
  • [37] Skórska E., Murkowski A. 1997. Wpływ napromieniowania UV-B na fotosyntezę liści rzepaku. Rośl. Oleiste 18: 112-118.
  • [38] Skórska E. 2000. The effect of ultraviolet-B radiation on triticale plants. Folia Univ. Agricult. Agricult. Stetin. 206(82): 249-254.
  • [39] Starck Z., Chołuj D., Niemyska B. 1995. Fizjologiczne reakcje roślin na niekorzystne czynniki środowiska. Wydaw. SGGW Warszawa: 116 ss.
  • [40] Steel C., Keller M. 2000. Influence of UV-B irradiation on the carotenoid content of vitis vinifera tissues. Biochem. Soc. 28(6): 883-885.
  • [41] Strid A., Chow W.S., Anderson J.M. 1994. UV-B damage and protection at the molecular level in plants. Photosynth. Res. 39: 463-473.
  • [42] Takeuchi Y., Kubo H., Kasahara H., Sakaki T. 1996. Adaptive alterations in the activities of scavengers of active oxygen in cucumber cotyledons irradiated with UV-B. J. Plant Physiol. 147: 589-592.
  • [43] TeramuraA.H., Sullivan J.H. 1994. Effects of UV-B radiation on photosynthesis and growth of terrestial plants. Photosnth. Res. 39: 463-473.
  • [44] Weih M., Johanson U., Gwynn-Jones D. 1998. Growth and nirtogen utilization in seedlings of mountain brich (Betula pubescens ssp. tortuosa) as affected by ultraviolet radiation (UV-A and UV-B) under laboratory and outdoor conditions. Trees: Struct. Funct. 12( 4): 201-204.
  • [45] Żuk-Gołaszewska K., Upadhyaya M.K., Gołaszewski J. 2003. The effect of UV-B radiation on plant growth and development. Plant Soil Environ. 49(3): 135-140.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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