Ecophysiological responses of subarctic Scots pine to ultraviolet (UV) radiation

Abstract: The focus of our fi eld studies in the subarctic of Finnish Lapland from 1997 onwards has been to investigate the effect of solar UV radiation on the ecophysiology of Scots pine. Our studies have indicated that solar UV-BBE exclusion during 1997−2002 caused transient effects on the growth...

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Bibliographic Details
Main Authors: Minna Turunen, Marja-liisa Sutinen, Kirsti Derome, Marek Krywult, Jerzy Smykla, Steven King, Kaisa Lakkala
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
Published: 2005
Subjects:
Key words
Ultraviolet radiation
Scots pine
Pinus sylvestris
subarctic
ecophysiology
defence mechanisms
nitrate reductase
Subarctic
Lapland
Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.548.1007
http://arcticcentre.ulapland.fi/docs/MinnaTurunen_publication2005_2.pdf
Description
Summary:Abstract: The focus of our fi eld studies in the subarctic of Finnish Lapland from 1997 onwards has been to investigate the effect of solar UV radiation on the ecophysiology of Scots pine. Our studies have indicated that solar UV-BBE exclusion during 1997−2002 caused transient effects on the growth of both Scots pine seedlings and saplings, which may not be related to changes in Photosystem II effi ciency, however. Studies of the phylloplane fungi of Scots pine needles showed that Aureobasidium pullulans (de Bary) Arnaud and Cladosporium sp. populations were found to decrease, and Phoma sp. to increase, with UV exposure, but there was no UV effect found for total populations. It was also shown that both UV-B radiation and increasing temperature enhance the nitrate reductase (NR) activity of Scots pine needles. On the other hand, our earlier studies have shown that the defence mechanisms (increase in the concentration of soluble phenolics, thickening of the epi- and hypodermal cell layers) of the Scots pine were functioning against ambient solar UV radiation. The daily UV dose rates during 1997−2002 were not very high and in our experiments, the exposure periods of three growing seasons were probably not long enough to cause greater effects that may be cumulative in nature and occur only after longer experimental periods.

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