Deterioration of UK lowland reservoir water quality through cultural eutrophication is of
concern for both water supply and conservation. This study represents the first attempt to
develop diatom-based palaeolimnological inference models for the assessment of
eutrophication in UK lowland reservoirs. Models are developed from a 46-reservoir
calibration set comprising surface sediment diatom assemblages and contemporary
environmental data measured seasonally between May 1999 and October 2000. Following
removal of outliers the dataset spans a total phosphorus (TP) gradient of 12-242 µgl ˉ¹ (mean
= 63), a chlorophyll-α (Chla) gradient of 1.8-25.5 µgl ˉ¹ (mean = 63) and a conductivity (EC)
gradient of 119-781 µScm ˉ¹ (mean = 424). Reservoir mean annual epilimnetic TP, Chla and
EC are reconstructed using weighted averaging (WA) and weighted average partial least
squares (WAPLS) techniques. Jack-knifed error statistics for the best performing models
(WA inverse deshrinking), are comparable to those reported from similar studies. The
plankton provides the dominant habitat for diatom growth in reservoirs, thus plankton-only
models are also created and perform almost as well as models developed using all taxa.
Examination of seasonal diatom plankton populations indicates that many taxa display
defined seasonal growth preferences. The transition of frustules from live to sedimentary
assemblages reveals that reservoir productivity and hence sedimentation rates affect
subsequent representation of seasonal diatom populations in surface sediment samples.
Fossil diatom assemblages in sediment cores from two contrasting reservoirs are analysed
and the UK lowland reservoirs TP, EC and Chla inference models applied to reconstruct
reservoir nutrient histories, yielding a fuller account of ecological change than either model
alone. Twentieth-century reconstructions from Blackbrook reservoir illustrate an early
history of limited impact mesotrophy, followed by a shift to cultural eutrophication during
recent decades. Daventry reservoir shows a history of nutrient enrichment to hypertrophy,
followed by subsequent re-oligotrophication as a result of pollution-reduction measures.
Available historical data support the broad trends inferred by the diatom-based inference
models. UK lowland reservoirs are considered suitable environments for the development of
diatom-nutrient inference models and their application where intact sediment profiles exist.
Date of Award | 2004 |
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Original language | English |
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Awarding Institution | |
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THE DEVELOPMENT OF DIATOM-NUTRIENT PALAEOLIMNOLOGICAL INFERENCE MODELS FOR UK LOWLAND RESERVOIRS
BURGESS, A. (Author). 2004
Student thesis: PhD