Acquiring high quality in situ analytical data with good temporal resolution is required for
developing models of phosphorus transport and biogeochemical behaviour. Chapter One
describes the behaviour of phosphorus in the aquatic environment, its sources, its role in
the eutrophication process and legislation to control its release into aquatic systems. It also
summarises analytical techniques for the determination of phosphorus in natural waters.
An examination of the hypothesis that the export coefficient modelling approach can be
used to predict phosphorus loading in the River Frome catchment, Dorset on an armual and
seasonal (monthly) basis is presented in Chapter Two. The model predicted an annual
(1998) phosphorus load of 25,605 kg yr'\ compared with an observed (measured) value of
23,400 kg yr'V Monthly loads agreed well with monthly observed values except during
months of variable discharge.
Chapter Three describes a study on the comparison of sample storage protocols for the
determination of total oxidised nitrogen (TON) and filterable reactive phosphorus (FRP) in
the River Frome and Tamar Estuary. The results showed that optimum storage conditions
were highly matrix dependent, with significant differences in measured FRP concentration
over time between the River Frome and Tamar Estuary (due to different calcium
concentrations) and between samples of different salinities (due to different bacterial
populations).
Chapter Four describes the development and deployment of a portable flow injection (FI)
monitor for phosphorus determination in the River Frome. The automated monitor,
incorporating solenoid micropumps and switching valves, a miniature CCD spectrometer, a
graphical programming environment and a tangential flow filtration unit, achieved a
detection limit of 0.67 pM and was able to monitor at high temporal resolution (every 30
min). Chapter Five examines historical water quality indicators and data fi-om recent shortterm,
high temporal monitoring campaigns using the FI monitor in order to identify the key
factors affecting phosphorus concentrations in the River Frome. Results showed the
importance of catchment geology (chalk-based) and hydrological conditions in relation to
other physico-chemical parameters in controlling phosphorus behaviour.
Date of Award | 2001 |
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Original language | English |
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Awarding Institution | |
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CATCHMENT SCALE MONITORING AND MODELLING OF PHOSPHORUS USING FLOW INJECTION ANALYSIS AND AN EXPORT COEFFICIENT MODEL
HANRAHAN, G. S. (Author). 2001
Student thesis: PhD