[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5322/JES.2006.15.12.1093

Effects of Ultraviolet-B Radiation on Growth and Photosynthesis in Cucumber Primary Leaves

Kim, Hyo-Jin (Department of Biology Pusan National University)
Kim, Tae-Yun (Department of Biology Pusan National University)
Hong, Jung-Hee (Department of Biology Pusan National University)

Publication Information

Journal of Environmental Science International / v.15, no.12, 2006 , pp. 1093-1101 More about this Journal

Abstract

In the present study we studied the growth, photosynthetic traits and protective mechanisms against oxidative stress in the primary loaves of cucumber (Cucumis sativus L.) seedlings with or without UV-B treatment. Cucumber seedings were irradiated with UV-B for 10 days in environment-controlled growth chambers. The primary leaves irradiated with UV-B showed reduction in leaf length and decreased biomass production. The reduced biomass production seemed to be due to a negative effect of UV-B radiation on the photosynthetic process. Changes in chemical properties of leaf, such as chi a/b ratio affected photosynthesis. UV-B significantly affected chl b content compared with chi a in the light harvesting complex resulting reduced photosynthetic activity Fv/Fm decreased with an UV-B stress, suggesting that the photosynthetic apparatus, and particularly, PS II was damaged under UV-B stress. Malondialdehyde(MDA) concentration which represents the state of membrane lipid peroxidation Increased significantly under UV-B stress confirming an oxidative stress. UV-B exposure with SA solution(0.1-1.0 mM) can partially ameliorated some of the detrimental effects of UV-B stress. Leaf injuries including loss of chlorophyll and decreased ratio of Fv/Fm were reduced with combined application of UV-B and SA. ABA and JA showed similar mode of action in physiological effects on photosynthetic activities though the levels were lower than those from SA treated plants. Chloroplast ultrastructure was also affected by UV-B exposure. The thickness of leaf tissue components decreased and the number of grana and thylakoids was reduced in chloroplast applied UV-B or SA alone. At combined stress granal and stromal thylakoids were less affected. The leaves under combined stress acquired a significant tolerance to oxidative stress. From these results, it can be suggested that SA may have involved a protective role against UV-B induced oxidative damage.

Keywords

Biomass production; Chlorophyll fluorescence; Primary leaf; Cucumber(Cucumis sativus L.); Malondialdehyde; Salicylic acid; UV-B;

Citations & Related Records

Reference

1	Inskeep, W. P. and P. R. Bloom, 1985, Extinction coefficients of chlorophyll a and b in N, N-dimethylformamide and 80 % acetone, Plant Physiol., 77, 483-485 DOI ScienceOn
2	Zhao, S. J., C. C. Xu, Q. Zhou and Q. W. Meng, 1994, Improvements of method for measurement of malondialdehyde in plant tissues, Plant Physiol. Comm., 30, 207-210
3	Bornman, J. F., C. Sundby-Emanuelsson, Y. P. Cen and C. Alenius, 1994, UV-B radiation and the photosynthetic process, In Biggs R. H. and M. E. B. Joyner (eds.) Stratospheric ozone delpletion / UV-B radiation in the biosphere, Berlin, Germany, Springer-Verlag, 67-76
4	Britt, A. B., 1996, DNA damage and repair in plants, Ann. Rev. Plant Physiol. Plant Mol. Biol., 47, 75-100 DOI
5	Reynolds, E. S., 1963, The use of lead citrate and high pH as electron opaque stain on electron microscopy, J. Cell Biol., 17, 208-212 DOI ScienceOn
6	Olsson, L. C., L. Fraysee and J. F. Bornmann, 2000, Influence of high light and UV-B irradiation on photosynthesis and D1 turnover in atrazine-tolerant and -sensitive cultivars of Brassica napus, J. Exp. Bot., 51, 265-274 DOI ScienceOn
7	Kristian, R. A., T. N. Mikkelsen and H. R. Poulsen, 2005, Effects of ambient versus reduced UV-B radiation on higy arctic Salix arctica assessed by measurements and calculations of chlorophyll a fluorescence parameters from fluorescence transients, Physiol. Plant., 124, 208-226 DOI ScienceOn
8	Dekov, I., T. Tsonev and I. Yordanov, 2000, Effects of water stress and high-temperature stress on the structure and activity of photosynthetic apparatus of Zea mays and Helianthus annuus, Photosynthetica, 38, 361-366 DOI ScienceOn
9	Koda, Y., 1997, Possible involvement of jasmonates in various morphogenetic event, Physiol. Plant., 100, 639-646 DOI ScienceOn
10	Schreiber, U., U. Schliwa and W. Bilger, 1986, Continuous recording of photochemical and nonphotochemical chlorophyll fluoroscence quenching with a new type of modulation fluorometer, Photosynth. Res., 10, 51-62 DOI ScienceOn
11	Mark, U. and M. Tevini, 1997, Effects of solar ultraviolet-B radiation, temperature and $CO_{2}$ on growth and physiololgy of sunflower and maize seedlings, Plant Ecology, 128, 225-234 DOI
12	Barsig, M. and R. Malz, 2000, Fine structure, carbohydrates and photosynthetic pigments of sugar maize leaves under UV-B radiation, Environ. Exp. Bot., 43, 121-130 DOI ScienceOn
13	Jayakumar, M., P. Amudha and G. Kulandaivelu, 2003, Changes in growth and yield of Phaseolus mungo L. induced by UV-A and UV-B enhanced radiation, J. Plant Bio., 46, 59-61 DOI ScienceOn
14	Hideg, E., J. Mano, C. Ohno and K. Asada, 1997, Increased level of monodehydro- ascorbate radical in UV-B irradiated broad bean leaves, Plant Cell Physiol., 38, 684-690 DOI ScienceOn
15	Uzunova, A. N. and L. P. Popova, 2000, Effect of salicylic acid on leaf anatomy and chloroplast ultrastructure of barley plants, Photosynthetica, 38, 243-250 DOI
16	Boddi, B., A. R. Oravecz and E. Lehoczki, 1995, Effect of cadimium on organization and photoreduction of photochlorophyllide in dark-grown leaves and etioplast inner membrane preparations of wheat, Photosynthetica, 31, 411-420
17	Karpinski, S., G. Wingsle, B. Karpinska and J. E. Hallgren, 2001, Redox sensing of photooxidative stress and acclimatory mechanisms in plants, In Aro, E. M. and B. Andersson (eds.) Regulation of Photosynthesis (Advances in Photosynthesis and Regulation, Vol. II), Kluwer Acadmic Publishers, Dordrecht, The Netherlands, pp.469-486
18	van Grondelle, R., J. P. Dekker, T. Gillbro and V. Sundstrom, 1994, Energy transfer and trapping in photosynthesis, Biochim. Biophys. Acta., 1187, 1-65 DOI ScienceOn
19	Madronich, S., R. L. Mckencie, L. O. Bjorn and M. M. Caldwell, 1998, Changes in biologically ultraviolet radiation reaching in Earth's surface, J. Photochem. Photobiol. B. Biol., 46, 5-19 DOI ScienceOn
20	Jayakumar, M., P. Amudha and G. Kulandaivelu, 2004, Effect of low doses of UV-A and UV-B radiation on photosynthetic activities in Phaseolus mungo L., J. Plant Biol., 47, 105-110 DOI ScienceOn
21	Olsson, L. C., M. Veit and J. F. Bornman, 1999, Epidermal transmittance and phenolic composition leaves of atrazine-tolerant and sensitive cultivars of Brassica napus grown under enhanced UV-B radiation, Physiol. Plant., 107, 259-266 DOI ScienceOn
22	Day, T. A., B. W. Howells and W. J. Rice, 1994, Ultraviolet absorption and epidermal-transmittance spectra in foliage, Physiol. Plant., 92, 207-218 DOI ScienceOn
23	Gong, M., Y. J. Li and S. Z. Chen, 1998, Abscisic acid induced thermotolerance in maize seedlings is mediated by $Ca^{2+}$ and associated with antioxidant systems, J. Plant Physiol., 153, 488-496 DOI ScienceOn
24	Cockell, C. S. and J. Knowland, 1999, Ultraviolet radiation screening compounds, Biological Reviews of the Cambridge Philosophical Society, 74, 311-345 DOI ScienceOn
25	Adamse, P., H. E. Reed, D. T. Krizk, S. J. Britz and R. M. Mirecki, 1997, An inexpensive set up for assessing the impact of ambient solar ultraviolet radiation on seedlings, J. Nat. Res. Life Sci. Edu., 26, 139-144
26	Saile-Mark, M. and M. Tevini, 1997, Effect of solar UV-B radiation on growth, flowering and yield of central and southern European bush bean cultivars (Phaseolus vulgaris L.), Plant Ecol., 128, 115-125 DOI
27	Larkindale, J. and M. R. Knight, 2002, Protection against heat stress-induced oxidative damage in Arabidopsis involves calcium, abscisic acid, ethylene and salicylic acid, Plant Physiol., 128, 682-695 DOI ScienceOn