Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/22435
Appears in Collections:Biological and Environmental Sciences Journal Articles
Peer Review Status: Refereed
Title: Using aquatic macrophyte community indices to define the ecological status of European lakes
Author(s): Penning, W Ellis
Dudley, Bernard
Mjelde, Marit
Hellsten, Seppo
Hanganu, Jenica
Kolada, Agnieszka
van den Berg, Marcel
Poikane, Sandra
Phillips, Geoff
Willby, Nigel
Ecke, Frauke
Contact Email: n.j.willby@stir.ac.uk
Keywords: Aquatic vegetation
Ecological quality
EU Water Framework Directive
Intercalibration
REBECCA
Status assessment
Issue Date: Jun-2008
Date Deposited: 4-Nov-2015
Citation: Penning WE, Dudley B, Mjelde M, Hellsten S, Hanganu J, Kolada A, van den Berg M, Poikane S, Phillips G, Willby N & Ecke F (2008) Using aquatic macrophyte community indices to define the ecological status of European lakes. Aquatic Ecology, 42 (2), pp. 253-264. https://doi.org/10.1007/s10452-008-9183-x
Abstract: Defining the overall ecological status of lakes according to the Water Framework Directive (WFD) is to be partially based on the species composition of the aquatic macrophyte community. We tested three assessment methods to define the ecological status of the macrophyte community in response to a eutrophication pressure as reflected by total phosphorus concentrations in lake water. An absolute species richness, a trophic index (TI) and a lake trophic ranking (LTR) method were tested at Europe-wide, regional and national scales as well as by alkalinity category, using data from 1,147 lakes from 12 European states. Total phosphorus data were used to represent the trophic status of individual samples and were plotted against the calculated TI and LTR values. Additionally, the LTR method was tested in some individual lakes with a relatively long time series of monitoring data. The TI correlated well with total P in the Northern European lake types, whereas the relationship in the Central European lake types was less clear. The relationship between total P and light extinction is often very good in the Northern European lake types compared to the Central European lake types. This can be one of the reasons for a better agreement between the indices and eutrophication pressure in the Northern European lake types. The response of individual lakes to changes in the abiotic environment was sometimes represented incorrectly by the indices used, which is a cause of concern for the use of single indices in status assessments in practice.
DOI Link: 10.1007/s10452-008-9183-x
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