Colloidal material (0.001 - 1 um) in soil leachate and agricultural drainage waters is an
important route for the transport of contaminants such as phosphorus from land to
catchments. Excessive phosphorus concentrations can result in eutrophication of natural
waters. To be able to characterise the colloidal material, in terms of size distribution, a
mild and relatively new separation technique field-flow fractionation (FFF) can be used to
fractionate complex colloidal samples. By combining FFF and flow injection analysis
(FIA) more detailed physico-chemical information on phosphorus species in soil leachates
and agricultural runoff waters can be obtained.
Chapter 1 describes the methods used to determine phosphorus and also to characterise
colloidal material, especially using FFF, and particularly focusing on the Flow FFF
(FIFFF) sub-technique. Chapter 2 concentrates on the experimental considerations for
FIFFF with recommended procedures for the setup and calibration of the system. In
Chapter 3, SdFFF is used to compare the use of centrifugation and filtration for the
fractionation of an Australian soil suspension, and demonstrates the uncertainties
surrounding the use of conventional membrane filtration. FIFFF is used in Chapter 4 to
optimise a sampling, treatment and preparation protocol for two contrasting soil types
sampled in the UK. Centrifugation and filtration methods are also compared in a similar
approach used in Chapter 3.
In Chapter 5 a portable Fl monitor is optimised for the detection of reactive phosphorus.
The linear range for the Fl monitor is determined as 0.8 - 8.0 uM PO4-P with a limit of
detection o f 0.6 uM PO4-P. A digestion method is also optimised for the determination of
total phosphorus using an acidic peroxydisulphate autoclaving method. In Chapter 6,
FIFFF and FIA are combined in an experiment describing the fractionation of a soil
suspension and the subsequent determination of phosphorus associated with different size
fractions. The results from this combination show great potential and will help improve our
understanding of the role of colloids in phosphorus transport from agricultural land to
catchments.
Date of Award | 2005 |
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Original language | English |
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Awarding Institution | |
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PHOSPHORUS SPECIATION IN SOIL LEACHATE USING FIELD-FLOW FRACTIONATION AND FLOW INJECTION ANALYSIS
GIMBERT, L. J. (Author). 2005
Student thesis: PhD