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Title (Primary) Growth ring analysis of multiple dicotyledonous herb species—A novel community-wide approach
Author Roeder, A.; Schweingruber, F.H.; Fischer, M.; Roscher, C.;
Journal Basic and Applied Ecology
Year 2017
Department iDiv; PHYDIV;
Volume 21
Language englisch;
POF III (all) T11;
Supplements https://ars.els-cdn.com/content/image/1-s2.0-S1439179116302031-mmc1.docx
Keywords Anatomical features; Functional groups; Growth rings; Herbaceous species; Longevity; Plant anatomy
UFZ wide themes RU1
Abstract

Longevity is a key demographic characteristic of herbaceous plants, but often unknown. While root or rhizome growth ring analysis may allow assessment plant longevity directly and conveniently, so far it has only been used in a few case studies of herbaceous dicotyledonous species. To evaluate whether growth ring analysis is applicable to a large spectrum of herbaceous dicotyledonous plant species, we used plant communities of varying species richness in a 12-year-old grassland biodiversity experiment (Jena Experiment). Cross-sections of the oldest available part of the plants were analysed for all available dicotyledonous perennial herb species (S = 37), which represented three functional groups: legumes, small herbs and tall herbs. We studied 1664 individuals representing the genet in clearly distinguishable plant individuals, and the ramet in clonally growing plant species.

Roots of eleven species with permanent primary root were harvested. They showed clearly visible growth rings. Longevity was extended with a mean age of 4.0 years (SE = 0.3). Seven species, which also had a permanent primary root, showed less distinct growth rings. They were shorter-lived (mean age 3.0 years (SE = 0.3)). In six species with obligate clonal growth mostly rhizomes were sampled, but individuals were still identifiable due to their growth habit. For these species growth rings were clearly visible. Longevity of rhizomes was extended (mean age 3.3 years (SE = 0.5)). In 13 species with obligate clonal growth also rhizomes were sampled, but plant individuals were not identifiable. For these species longevity was low (mean age 2.1 years (SE = 0.2)). Community mean age was significantly lower when small herbs were present and higher when tall herbs were present, while legumes had no effect on community mean age. In summary, anatomical analysis of roots and rhizomes is a suitable tool to study the population age structure of a large spectrum of perennial dicotyledonous herbaceous species and therefore opens new perspectives for demographic studies at the community level.

ID 19143
Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=19143
Roeder, A., Schweingruber, F.H., Fischer, M., Roscher, C. (2017):
Growth ring analysis of multiple dicotyledonous herb species—A novel community-wide approach
Basic Appl. Ecol. 21 , 23 - 33