Age and diversity of Mediterranean dwarf shrublands: a dendrochronological approach along an altitudinal gradient on Crete
Version of Record online: 12 MAR 2013
© 2013 International Association for Vegetation Science
Journal of Vegetation Science
Volume 25, Issue 1, pages 122–134, January 2014
How to Cite
Zimowski, M., Leuschner, H. H., Gärtner, H., Bergmeier, E. (2014), Age and diversity of Mediterranean dwarf shrublands: a dendrochronological approach along an altitudinal gradient on Crete. Journal of Vegetation Science, 25: 122–134. doi: 10.1111/jvs.12067
- Issue online: 16 DEC 2013
- Version of Record online: 12 MAR 2013
- Manuscript Accepted: 29 JAN 2013
- Manuscript Received: 1 NOV 2011
- Age structure;
- Altitudinal gradient;
- Euphorbia acanthothamnos ;
- Growth rings;
- Sarcopoterium spinosum
To what extent do Mediterranean dwarf shrub species of phrygana and mountain habitats form distinct annual growth rings and are therefore suitable for further studies on the dynamics of phrygana? How are growth ring numbers and species turnover of dwarf shrub communities distributed along an altitudinal gradient of ca. 1800 m? Is the age distribution of dwarf shrub populations in high-mountain areas different from that in the lowlands? Which environmental factors control the beta-diversity of East Mediterranean dwarf shrub species and communities?
Lefka Ori (western Crete, Greece).
Plots of 100 m2 at different altitudes were sampled for (1) composition of dwarf shrub species and environmental variables, and (2) wood samples of the root collar of all 24 phryganic dwarf shrub species occurring in the plots. Thin discs were cut, and in order to visualize cells and ring structure, surfaces were handled with razor blades. Additional cross-sectional micro-sections were cut with a sledge microtome. Growth rings were counted and box-plotted in correlation with the altitudinal gradient. Beta-diversity and environmental variables were analysed using gradient analyses.
Most dwarf shrubs showed species-specific distinct growth rings, and are accordingly suitable for age-structure analyses and further research on the functional dynamics of phrygana. The oldest dwarf shrubs were found at high altitudes. Factors controlling beta-diversity and species composition of dwarf shrublands were altitudinal and edaphic.
Growth ring analysis proved useful for age determination of Mediterranean dwarf shrubs. Our results show that dwarf shrub communities at higher elevations are older than those at low elevations, perhaps a general principle in plant ecology that is confirmed here for the East Mediterranean phrygana.