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High-Light-Intensity Damage to the Foliose Lichen Lobaria Pulmonaria within Natural Forest: The Applicability of Chlorophyll Fluorescence Methods

Published online by Cambridge University Press:  28 March 2007

Yngvar Gauslaa
Affiliation:
Department of Biology and Nature Conservation, The Agricultural University of Norway, P.O. Box 5014, N-1432 Ås, Norway. E-mail: [email protected]
Knut Asbjørn Solhaug
Affiliation:
Department of Biology and Nature Conservation, The Agricultural University of Norway, P.O. Box 5014, N-1432 Ås, Norway. E-mail: [email protected]

Abstract

The annual course of irradiance was recorded at two vertical and even-aged neighbouring Quercus stems, one rich in L. pulmonaria, one without. Irradiance never exceeded 610 μmol photons m−2 s−1 at the L. pulmonaria site, whereas the L. pulmonaria-deficient site could experience 2 h daily 2000 μmol photons m−2 s−1, and 6 h above 1000 μmol photons m−2 s−1 during a clear day in early spring. Thalli of L. pulmonaria were transplanted to these two stems. During the first 40 days (April–May), transplants at the L. pulmonaria-deficient site developed severe chlorophyll degradation, and a substantial reduction in maximal PS II efficiency (Fv/Fm) even when measured after a 48-h recovery period at low light intensity. Extensive bleaching was formed along light-exposed sides of the tiny ridges on the upper side. Subsequent to this damage, FV/FM gradually rose to nearly normal levels during the following year. This apparent recovery was probably mainly due to irreversible loss of damaged chlorophyll, but also to some level of acclimation. No damage was observed in control transplants on the L. pulmonariarich tree, which were the only transplants gaining sufficient growth for new attachment to the new substratum during the 397-day transplantation period. Nevertheless, a fine-scale, but highly significant seasonal variation in FV/FM of control transplants reflected variations of even low irradiance levels. FV/FM, as measured after a 48-h recovery period at low light intensity, is an efficient meth for recording permanent high light damages at and shortly after damage is formed. However, FV/FM is not a useful estimator of chronic long-term damage.

Type
Research Article
Copyright
Copyright © British Lichen Society 2000

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Footnotes

Abbreviations: Fo=minimum fluorescence in the dark-adapted state; FM=maximum yield of fluorescence; Fv=variable yield of fluorescence (i.e. FM−F0); Fv/FM=optimal quantum yield of PS II; PS II=photosystem II.

References

Abbreviations: Fo=minimum fluorescence in the dark-adapted state; FM=maximum yield of fluorescence; Fv=variable yield of fluorescence (i.e. FM−F0); Fv/FM=optimal quantum yield of PS II; PS II=photosystem II.