Temporal and geographical variation in lake trophic status in the English Lake District: evidence from (sub)fossil diatoms and aquatic macrophytes

1. A sediment core (representing 250–300 years) was taken from each of three lakes of conservation interest and contrasting trophic status in the English Lake District: Wastwater, Bassenthwaite Lake and Esthwaite Water. Lithostratigraphic analyses, radiometric dating and analysis of fossil diatoms w...

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Bibliographic Details
Published in:Freshwater biology 2000-12, Vol.45 (4), p.394-412
Main Authors: Bennion, Helen, Monteith, Donald, Appleby, Peter
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
British Isles
diatoms
eutrophication
Fresh water ecosystems
Freshwater
Fundamental and applied biological sciences. Psychology
macrophytes
palaeolimnology
Synecology
temporal variations
transfer functions
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Summary:1. A sediment core (representing 250–300 years) was taken from each of three lakes of conservation interest and contrasting trophic status in the English Lake District: Wastwater, Bassenthwaite Lake and Esthwaite Water. Lithostratigraphic analyses, radiometric dating and analysis of fossil diatoms were carried out. 
2. Transfer functions, based on the diatoms, were used to reconstruct total phosphorus (TP) and, thus, eutrophication at the study lakes. In Wastwater, changes in lake pH were also reconstructed. 
3. The lakes were also classified according to their present macrophyte flora, the latter being compared with previous records. 
4. The fossil diatoms of Wastwater were continuously dominated by taxa typical of oligotrophic, circumneutral waters, indicating that the lake has not been enriched or acidified in the last 250 years. The aquatic macrophyte flora has probably remained unchanged since before the Industrial Revolution. 
5. The diatom assemblages of both Bassenthwaite Lake and Esthwaite Water began to change in the mid‐1800s. Further change occurred from the 1960s, at the onset of a recent period of eutrophication. These two lakes have experienced continued nutrient enrichment throughout the 1970s, 80s and 90s, largely associated with increasing phosphorus inputs from sewage effluent. There is no evidence of any recovery in response to recent reductions in external nutrient loads. 
6. Only in Esthwaite Water has the change in aquatic macrophytes been pronounced. 
7. Palaeolimnological reconstruction is useful in determining background conditions and natural variation in lake ecosystems.
ISSN:0046-5070
1365-2427
DOI:10.1046/j.1365-2427.2000.00626.x