You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
6. Yang H., Zhao Z., Qiang W., An L., Xu S., Wang X. Effects of enhanced UV-B<br />
radiation on the hormonal content of vegetative and reproductive tissues of two tomato<br />
cultivars and the<strong>ir</strong> relationships with reproductive characteristics // Plant Growth Regulation.<br />
2004. Vol. 42. P. <strong>25</strong>1–<strong>25</strong>8.<br />
7. Jansen M. A. K., Gaba V., Grreeberg B.M. Higher plants and UV-B radiation:<br />
balancing damage, repa<strong>ir</strong> and acclimation // Trends in plant science. 1998. Vol. 3.<br />
P. 131–135.<br />
8. Julkunen-Tiitto R., Haggman H., Aphalo P. J., Lavola A., Tegelberg R., Veteli T.<br />
Growth and defense in deciduous tress and shrubs under UV-B // Env<strong>ir</strong>onmental Pollution.<br />
2005. Vol. 137. P. 404–414.<br />
9. Jonavièienë R. Ultravioletinës Saulës spinduliuotës matavimai Lietuvos hidrometeorologijos<br />
tarnyboje // Meteorologija <strong>ir</strong> hidrologija Lietuvoje: raida <strong>ir</strong> perspektyvos //<br />
Respublikinë mokslinë konferencija. 2005 03 23. P. 48–49.<br />
10. Krizek T. D. Influence of PAR and UV-A in determining plant sensitivity and<br />
photomorphogenic responses to UV-B radiation // Photochemistry and Photobiology.<br />
2004. Vol. 79. P. 307–315.<br />
11. Liu L., Gitz D. C., McClure J. W. Effects of UV-B on flavonoids, ferulic acid,<br />
growth and photosynthesis in barely primary leaves // Physologia Plantarum. 1995.<br />
Vol. 93. P. 7<strong>25</strong>–733.<br />
12. Mazza C. A., Battista D., Zima A. M., Szwarcberg-Bracchitta M., Giordano C. V.,<br />
Acevedo A., Scopel A. L., Scopel A. L., Ballare C. L. The effects of solar ultraviolet-B<br />
radiation on the growth and yield of barley are accompanied by increased DNA damage<br />
and antioxidant responses // Plant, Cell and Env<strong>ir</strong>onment. 1999. Vol. 22. P. 61–70.<br />
13. Ranèelienë V., Vyðniauskienë R., Janèys Z., Ðlekytë K. Action of UV-B on Crepis<br />
capillaries (L.) Wallr. Plants in controlled env<strong>ir</strong>onmental conditions // Biologija. 2005. Nr. 3.<br />
P. 74–80.<br />
14. Rozema J., Jos van de Staaij, Bjorn L. O., Caldwell M. UV-B as an env<strong>ir</strong>onmental<br />
factor in plant life: stress and regulation // Tree. 1997. Vol. 12. P. 22–28.<br />
15. Schmitz-Hoerner R., Weissenbock G. Contribution of phenolic compounds to the<br />
UV-B screening capacity of developing barley primary leaves in relation to DNA damage<br />
and repa<strong>ir</strong> under elevated UV-B levels // Phytochemistry. 2003. Vol. 64. P. 243–<strong>25</strong>5.<br />
16. Stephen J., Woodfin R., Corlett J. E., Paul N. D., Jones H. G. Response of barley<br />
and pea crops to supplementary UV-B radiation // Journal of Agricultural Science, Cambridge,<br />
1999. Vol. 132. P. <strong>25</strong>3–261.<br />
17. Valkama E., Kivimaenpaa M., Hartikainen H., Wulff A. The combined effects of<br />
enhanced UV-B radiation and selenium on growth, chlorophyll fluorescence and ultrastructure<br />
in strawberry (Fragaria X ananassa) and barley (Hordeum vulgare) treated in the<br />
field // Agricultural and Forest Meteorology. 2003. Vol. 120. P. 267–278.<br />
18. Wei G., Zheng Y., Slusser J. R., Heisler G. M. Impact of enhanced ultraviolet-B<br />
<strong>ir</strong>radiance on cotton growth, development, yield, and qualities under field conditions //<br />
Agricultural and Forest Meteorology. 2003. Vol. 120. P. 241–248.<br />
228
Change language