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Age and epiphytic lichen diversity of the dwarf shrub Helianthemumoelandicum on the island of Öland, Sweden

Published online by Cambridge University Press:  06 August 2009

L. FRÖBERG
Affiliation:
Botanical Museum, Östra Vallgatan 18, SE-223-61 Lund, Sweden. Email: [email protected]
M. NIKLASSON
Affiliation:
Institution of Southern Swedish Forest research Centre, P. O. Box 49, SE-230 53, Alnarp, Sweden.
H. PALTTO
Affiliation:
Systems Biology Research Centre Skövde University, P. O. Box 408, SE-541 28 Skövde, Sweden. Department of Ecology, Swedish Agricultural University, Box 7044, SE-750 07 Uppsala, Sweden.
T. KNUTSSON
Affiliation:
Nedre Västerstad 111, SE-380 62 Mörbylånga, Sweden.
T. JOHANSSON
Affiliation:
County Administrator of Kalmar, SE-391 86 Kalmar, Sweden.

Abstract

Lichen cover and diversity were analysed on the dwarf shrub Helianthemum oelandicum (L.) Dum.Cours. at one site in the calcareous grassland of the area known as the ‘Great Alvar’ on the Island of Öland, Sweden. The age of 22 phorophytes was determined by ring counting and varied from 8 to 41 years and was accurately predicted by the root diameter. A total of 18 lichen species was found, with a range between 0 and 13 species per phorophyte. The number of lichen species on living H. oelandicum were correlated with the phorophyte age. The number of lichen species and their coverage were greater on dead compared with living phorophytes. The species number was also higher on thin branches compared with thick branches and roots and some of the species showed preferences for dead phorophytes, and for thin branches. This study of lichen colonization and growth on dwarf shrubs in relation to phorophyte age is a new application of herbchronology.

Type
Research Article
Copyright
Copyright © British Lichen Society 2009

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References

Arup, U. (1997) Lavar i olika miljöer. In Skyddsvärda lavar i sydvästra Sverige (Arup, U., Ekman, S., Kärnefelt, I. & Mattsson, J.-E., eds): 6291. Lund: SBF-förlaget.Google Scholar
Degelius, G. (1964) Biological studies of the epiphytic vegetation on twigs of Fraxinus excelsior. Acta Horti Gotoburgensis 27 (3): 1155.Google Scholar
Degelius, G. (1978) Further studies on the epiphytic vegetation on twigs. Botanica Gothoburgensia 7: 158.Google Scholar
Dietz, H. & Ullman, I. (1997) Age-determination of dicotyledonous herbaceous perennials by means of annual rings: exception or rule? Annals of Botany 80: 377379.CrossRefGoogle Scholar
Erschbamer, B. & Retter, V. (2004) How long can glacier foreland species live? Flora 199: 500504.CrossRefGoogle Scholar
Faraway, J. (2006) Extending the Linear Model with R – Generalized Linear, Mixed Effects and Non-parametric Regression Models. London: Chapman & Hall/CRC.Google Scholar
Gärdenfors, U. (2005) The 2005 Red List of Swedish Species. Uppsala: ArtDatabanken, SLU.Google Scholar
Johansson, P. (2006) Effects of habitat conditions and disturbance on lichen diversity Ph.D. thesis, Swedish University of Agricultural Sciences, Uppsala.Google Scholar
McCullagh, P. & Nelder, J.A. (1989) Generalized Linear Models. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Lokös, L. (1988) Lichens on Fumana. 1. An investigation on herbarial sheets. Studia Botanica Hungarica 20: 101108.Google Scholar
Niklasson, M. (2002) A comparison of three age determination methods for suppressed Norway spruce: implication for age structure analysis. Forest Ecology and Management 161 (1–3): 279288.CrossRefGoogle Scholar
Rosén, E. (1982) Vegetation development and sheep grazing in limestone grasslands of south Öland, Sweden. Acta Phytogeographica Suecica 72: 1108.Google Scholar
Santesson, R., Moberg, R., Nordin, A., Tønsberg, T. & Vitikainen, O. (2004) Lichen-forming and Lichenicolous Fungi of Fennoscandia. Uppsala: Uppsala University.Google Scholar
Schweingruber, F. H. (1990) European Wood Anatomy. Bern: Paul Haupt.Google Scholar
Schweingruber, F.H. & Poschlod, P. (2005) Growth rings in herbs and shrubs: life span, age determination and stem anatomy. Forest Snow and Landscape Research 79: 195415.Google Scholar
Søchting, U. & Fröberg, L. (2003) Caloplaca asserigena, the correct name for a small lichen with a unique chemistry. Bibliotheca Lichenologica 86: 4751.Google Scholar
Sterner, R. (1936) Ekologiska iakttagelser över Helianthemum oelandicum (L.) Willd. Acta Horti Gotoburgurgensis 11: 183208.Google Scholar
Sterner, R. (1986) Ölands Kärlväxtflora, ed. 2 (Lundqvist, Å. ed). Lund: SBF-förlaget.Google Scholar