Emergent wetland vegetation data recording: Does an optimal period exist?

Aims Certain parts of the growing season have been proposed as optimal for recording relevant relevés of forests and dry grasslands and so the monitoring of these vegetation types has become more time‐ and cost‐effective. We investigated whether it is possible to propose an optimal period during the...

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Bibliographic Details
Published in:Applied vegetation science 2019-04, Vol.22 (2), p.200-212
Main Authors: Jenačković, Dragana D., Lakušić, Dmitar, Zlatković, Ivana, Jušković, Marina, Ranđelović, N. Vladimir, Hölzel, Norbert
Format: Article
Language:English
Subjects:
Annual variations
Autumn
Biodiversity
central Balkan Peninsula
Classification
Clusters
Communities
Composition
Data recording
Diagnostic systems
emergent wetland vegetation
Grasslands
Hydrology
Marshes
Marshlands
optimal sampling time
Parameter modification
plant life forms
Qualitative analysis
Recording
relevant relevés
seasonal variability
Seasonal variations
species composition
species cover
Species diversity
Species richness
Spring (season)
Statistical analysis
Summer
Vegetation
water regime
Wetlands
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Summary:Aims Certain parts of the growing season have been proposed as optimal for recording relevant relevés of forests and dry grasslands and so the monitoring of these vegetation types has become more time‐ and cost‐effective. We investigated whether it is possible to propose an optimal period during the year for making relevant relevés of emergent wetland vegetation. Location Marshlands of the central Balkan Peninsula. Methods One hundred and eighty‐five permanent vegetation plots were investigated in three distinct time periods: spring, summer and autumn. In order to identify the communities, cluster analyses were carried out, and diagnostic species for each cluster were determined. The potential for temporal change of the communities regarding the species and life form composition was assessed using PERMANOVA and NMDS analyses. The Friedman test was used to assess the significance of seasonal change in the communities regarding their species richness, recordability and Shannon diversity. Results The level of floristic similarity among the 11 phytocoenoses analyzed significantly varied over the growing season while the composition in terms of their diagnostic species remained unchanged. The majority of the communities showed statistically significant seasonal changes in the qualitative and quantitative characteristics of the vegetation, life form composition and cover. Although different communities expressed significant modifications in these parameters between different pairs of seasons, all of them showed changes in the mentioned parameters between spring and autumn. The degree of intra‐annual variation in the species richness, species recordability and Shannon diversity was low in almost all phytocoenoses. Conclusions Summer is the optimal period for recording most of the species from the total list of the communities developed on hydrologically stable habitats, while spring is more appropriate for making relevés on periodically inundated habitats. The sampling time has negligible impact on the classification of associations but it could have important implications for the classification of higher‐ranked syntaxonomic units of the class Phragmito‐Magnocaricetea.
ISSN:1402-2001
1654-109X
DOI:10.1111/avsc.12419