SodininkyStÄ ir darÅ½ininkyStÄ 28(2)

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14. Kirnak H., Kaya C., Tas I., Higgs D. 2001. The influence of water deficit on vegetativegrowth, physiology, fruit yield and quality in eggplants. Plant Physiol.,27: 34–46.15. Koti S., Reddy K. R., Kakani V. G., Zhao D., Gao W. 2007. Effects of carbondioxide, temperature and ultraviolet-B radiation and their interaction on soybean(Glycine max L.) growth and development. Environmental and ExperimentalBotany, 60: 1—10.16. Koti S., Reddy K. R., Reddy V. R., Kakani V. G., Zhao D. 2005. Interactiveeffects of carbon dioxide, temperature, and ultraviolet-B radiation on soybean(Glycine max L.) flower and pollen morphology, pollen production, germination,and tube lengths. Journal of Experimental Botany, 56(412): 725–736.17. Long S. P., Ainsworth E. A., Rogers A., Ort D. R. 2004. Rising atmosphericcarbon dioxide: plants FACE the future. Annual Review of Plant Biology, 55:591–628.18. Nakayama N., Saneoka H., Moghaieb R. E. A., Gnasiri S., Fujita P. K. 2007.Response of growth, photosynthetic gas exchange, translocation of 13C- labelledphotosynhate and N accumulation in two Soybean (Glycine max L. Merrill)cultivars to drought stress. International Journal of Agriculture and Biology,09-5: 669–674.19. Poorter H., van Berkel Y., Baxter B., Bel M., Den Hertog J., Dijkstra P.,Gifford R. M., Griffin K. L., Roumet C., Wong S. C. 1997. The effect of elevatedCO 2on the chemical composition and construction costs of leaves of 27 C 3species. Plant, Cell and Environment, 20: 472–482.20. Rozema J., Lenssen G. M., Staaij J. W. M., Tosserams M., Visser A. J.,Broekman R. A. 1997. Effect of UV-B radiation on terrestrial plants and ecosystems:interaction with CO 2enrichment. Plant Ecology, 128: 182–191.21. Smith J. L., Burritt D. J., Bannister P. 2000. Shoot dry weight, chlorophyll andUV-B-absorbing compounds as indicators of a plant’s sensitivity to UV-B radiation.Annals of Botany, 86: 1 057–1 063.22. Tegelberg R., Julkunen-Tiitto R., Vartiainen M., Paunonen R., Rousi M.,Kellomäki S. 2008. Exposures to elevated CO 2, elevated temperature and enhancedUV-B radiation modify activities of polyphenol oxidase and guaiacol peroxidaseand concentrations of chlorophyll, polyamines and soluble proteins in theleaves of Betula pendula seedlings. Environmental and Experimental Botany,62: 308–315.23. Zhao D., Reddy K. R., Kakani V. G., Mohammed A. R., Read J. J., Gao W.2004. Leaf and canopy photosynthetic characteristics of cotton (Gossypium hirsutum)under elevated CO 2concentration and UV-B radiation. Journal of PlantPhysiology, 161: 581–590.24. Zhu J., Goldstein G., Bartolomew D. P. 1999. Gas exchange and carbon isotopecomposition of Ananas comosus in response to elevated CO 2and temperature.Plant, Cell and Environment, 22: 999–1 007.144
SODININKYSTĖ IR DARŽININKYSTĖ. SCIENTIFIC ARTICLES. 2009. 28(2).The integrated impact of environmental factors on photosyntheticpigments in pea plant (Pisum sativum L.)S. Sakalauskienė, A. Brazaitytė, J. Sakalauskaitė, S. Lazauskas,A. Urbonavičiūtė, G. Samuolienė, G. Šabajevienė, P. DuchovskisSummaryThe objective of this study was to investigate integrated impact of environmental factorson photosynthetic pigments in pea plants (Pisum sativum L.). The vegetative experiments werecarried out in growth chambers of controlled environment at Laboratory of Plant Physiology,Lithuanian Institute of Horticulturae, in 2008. Pea (Pisum sativum L.) cv. ‘Gloriosa’ was chosenas the object of this study. Pea plant response to UV-B radiation and moisture regime underdifferent carbon dioxide and temperature was investigated. Photosynthetic pigments content inplant leaves depended on all the investigated environmental factors. Chlorophylls and carotenoidscontent in pea leaves varied according to the changing environment conditions. Droughtand intensifying UV-B radiation had adverse impact on chlorophyll a and carotenoids contentin pea leaves. Elevated temperature and intensifying UV-B radiation, independent of carbondioxide concentration, induced the accumulation of chlorophyll b in pea plants, which weregrown in substratum of normal (40–45 %) and moderate (20–25 %) moisture. Chlorophyll aand carotenoid content in pea plants, grown in substratum of normal (40–45 %) and moderate(20–25 %) moisture under elevated temperature and carbon dioxide concentration, varied inconsiderable,but intensifying UV-B radiation induced a greater accumulation of chlorophyll b.Key words: environmental factors, pea plant (Pisum sativum L.), photosynthetic pigments.145
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Lietuvos sodininkystĖs ir darŽini
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SCIENTIFIC WORKS OF THE LITHUANIAN
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Table 1. Dates of blooming periods
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Average yield of apple cultivars ra
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Table 4. Harvest date, end of stora
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10. Sasnauskas A., Gelvonauskienė
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(Curran ir kt.,1995; Filella ir kt.
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yra mažesnis. Vis dėlto chlorofil
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Literatūra1. Asada T., Ogasawara M
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LIETUVOS SODININKYSTĖS IR DARŽINI
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1 pav. Laikotarpio nuo seno sodo i
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4 pav. Laikotarpio nuo seno sodo i
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9. Leinfelder M. M., Merwin I. A. 2
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availability of nutrients and incre
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Table 2. Amount of microelements (m
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of P was determined in the apple-tr
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References1. Adriano D. C. 1986. Tr
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SOD-1 izoformos aktyvumas yra dides
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Palyginę 2007 ir 2008 metų duomen
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action of berries of these cultivar
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1999; Litwińczuk, 2002). Duomenų
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2 pav. Kanamicino įtaka vienam eks
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eksplantus - mikroūglius ir hipoko
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12. Tang H., Ren Z., Reustle G., Kr
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Ribes, Prunus, Sambucus genčių au
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koncentracijos skatino svogūno mer
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5. Glinska S., Bartczak M., Oleksia
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Lentelė. Dirvožemio agrocheminiai
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karto daugiau negu daugiamečiai ro
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Natūrali masės netektis abiem atv
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6. Cox F. R., Kamprath E. J. 1972.
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3. F + humistaras, 50 l ha -1 prie
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2 pav. Humistaro ir papildomo trę
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Nuo tirtų trąšų huminių rūgš
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2. Eitminavičius L. 1998. Dirvože
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(A-L, Gost 26208-84), mineralinis a
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Pasėlio tankis turėjo silpnai nei
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Lentelės tęsinysTable continuedHR
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3. Didžiausias svogūnų suminis (
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Page 98 and 99: Lentelė. Meteorologinės sąlygos
Page 100 and 101: išeigą (65,8 %). Prekinis derlius
Page 102 and 103: Aptarimas. Rusijos mokslininkai Kon
Page 104 and 105: 16. Shynkarenka A. 2005. Augalų ap
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Page 108 and 109: Fig. 3. Marketable onion yield3 pav
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Page 113 and 114: Object, methods and conditions. P l
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Page 117 and 118: nitrate decline (see Fig. 1).The te
Page 119 and 120: 20. Matsuda R., Ohashi-Kaneko K., F
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Page 123 and 124: Daigams augant matuota tris kartus.
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Page 129 and 130: 12 pav. Fotosintezės pigmentų kie
Page 131 and 132: 14 pav. Daržovių derlius: agurkų
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Page 138 and 139: eikvojimas ir fotokvėpavimas, tod
Page 140 and 141: (1, 2 pav). UV-B spinduliuotė lėm
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Page 149 and 150: Lentelė. Chrizantemų regenerantų
Page 151 and 152: Literatūra1. Adams S. R., Langton
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Page 155 and 156: Table. The light emitting diode com
Page 157 and 158: Fig. 2. The contents of phenolic co
Page 159 and 160: Nevertheless, our pilot results imp
Page 161: veikiamų ‘Luokė’ veislės že
Page 164 and 165: selekcijos procesą. Vienas pagrind
Page 166 and 167: Tyrimais nustatyta, kad organogenez
Page 168 and 169: Žalios spalvos augalai regeneranta
Page 170 and 171: 9. Mashayekhi M., Shakib A. M., Ahm
Page 173 and 174: ATMINTINĖ AUTORIAMS, RAŠANTIEMSĮ
Page 175 and 176: Bandymų veiksnių gradacijos lente
Page 177 and 178: GUIDELINES FOR THE PREPARATION AND
Page 179 and 180: they should be understandable. The
Page 181 and 182: Turinys - ContentsA. Sasnauskas, D.
Page 183 and 184: S. Sakalauskienė, A. Brazaitytė,
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