Fen-meadow succession in relation to spatial and temporal differences in hydrological and soil conditions

Question: In fen meadows with Junco-Molinion plant communities, falling groundwater levels may not lead to a boosted above-ground biomass production if limitation of nutrients persists. Instead, depending on drainage intensity and microtopography, acidification may trigger a shift into drier and mor...

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Bibliographic Details
Published in:Applied vegetation science 2006-11, Vol.9 (2), p.185-194
Main Authors: van der Hoek, D, Sýkora, K. V
Format: Article
Language:English
Subjects:
Aboveground biomass
Acidification
botanical composition
Cirsio-Molinietum
Drainage
dry matter accumulation
ecological succession
Fens
grasslands
Groundwater
Groundwater level
hydrology
Junco-Molinion
management
Meadows
microrelief
netherlands
nitrogen
Nutrient
nutrient limitation
Phosphorus
Plant communities
Plants
potassium
Restoration
soil acidification
soil fertility
soil hydraulic properties
Soil water
spatial variation
temporal variation
Vegetation
water table
wet
wetland
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Summary:Question: In fen meadows with Junco-Molinion plant communities, falling groundwater levels may not lead to a boosted above-ground biomass production if limitation of nutrients persists. Instead, depending on drainage intensity and microtopography, acidification may trigger a shift into drier and more nutrient-poor plant communities. Location: Nature reserve, central Netherlands, 5 m a.s.l. Methods: Long-term study (1988–1997) in a fen meadow along a gradient in drainage intensity at different scales. Results: Above-ground biomass increased only slightly over ten years, despite a lower summer groundwater table. The accountable factors were probably a limited availability of nutrients (K in the higher well-drained plots, P in the intermediate plots and N in the lower hardly drained plots), plus removal of hay. Junco-Molinion species increased in dry sites and Parvocaricetea species increased in wet sites, presumably primarily because of soil acidification occurring when rainwater becomes more influential than base-rich groundwater. The extent of the shift in species composition depends primarily on the drainage intensity and secondarily on microtopography. Local hydrological measures have largely failed to restore wetter and more basic-rich conditions. Conclusions: Acidification and nutrient removal, leaching and immobilization resulted in the succession towards Junco-Molinion at the cost of Calthion palustris elements. Lower in the gradient this change was reduced by the presence of buffered groundwater in slightly drained sites. To conserve the typical plant communities of the Junco-Molinion to Calthion gradient in the long term, further acidification must be prevented, for example by inundation with base-rich surface water. Nomenclature: van der Meijden (1990) for phanerogams and Schaminée et al. (1996) for syntaxa.
ISSN:1402-2001
1654-109X
DOI:10.1658/1402-2001(2006)9[185:FSIRTS]2.0.CO;2