A Fast Sequential Injection Analysis System for the Simultaneous Determination of Ammonia and Phosphate

Abstract.A flow system is described that is based on sequential injection analysis (SIA) and is suitable for the fast determination of ammonia and phosphate in river and marine waters. It is applicable to nutrient mapping in inhomogeneous coastal areas like the Wadden Sea, and was optimised on several cruises on the North Sea. The high sample throughput of 120 samples per analyte per hour and the low reagent consumption (ammonia: 62.5 µL; phosphate: 60 µL) were achieved using a home made programme written in the python programming language. The determination of free reactive phosphate is based on the reaction of phosphate with acidic molybdate to phosphomolybdate which forms nonfluorescent ion pairs with rhodamine 6G. The remaining rhodamine fluorescence is detected at 550 nm with an excitation at 470 nm. Ammonia is determined with the help of o-phthaldialdehyde and sodium sulfite. At 85 °C and a reaction time of at least one minute a fluorescent species (exc. 365 nm, em. 425 nm) is formed. The detection limits are (3σ) 0.3 µmol L−1 for phosphate and 1 µmol L−1 for ammonia.

[1]  B. Reis,et al.  Flow system exploiting multicommutation to increase sample residence time for improved sensitivity. Simultaneous determination of ammonium and ortho-phosphate in natural water. , 2002, Talanta.

[2]  F. A. Richards,et al.  The influence of organisms on the composition of sea-water , 1963 .

[3]  Roger Kerouel,et al.  Fluorometric determination of ammonia in sea and estuarine waters by direct segmented flow analysis , 1997 .

[4]  Jaromir Růžička,et al.  Flow injection analysis , 1981 .

[5]  B. Bolin,et al.  The Global Carbon Cycle. , 1980 .

[6]  FerryBox systems for monitoring coastal waters , 2003 .

[7]  Friedhelm Schroeder,et al.  Using sequential injection analysis for fast determination of phosphate in coastal waters. , 2006, Talanta.

[8]  J. Burkholder,et al.  Harmful algal blooms and eutrophication: Nutrient sources, composition, and consequences , 2002 .

[9]  J. Baretta,et al.  Shallowness may be a major factor generating nutrient gradients in the Wadden Sea , 2004 .

[10]  Elo Harald Hansen,et al.  Flow injection analysis, 2nd edn. : Wiley, Chichester, 1988 ISBN (0-471-81355-9) xx+498 pp. Price £65.00 , 1989 .

[11]  Min Liu,et al.  Adsorption of phosphate on tidal flat surface sediments from the Yangtze Estuary , 2002 .

[12]  R. Cattrall,et al.  Time-division multiplex technique for producing concentration profiles in flow analysis , 1998 .

[13]  T. Villareal,et al.  Effects of light level and N:P supply ratio on the competition between Phaeocystis cf. pouchetii (Hariot) Lagerheim (prymnesiophyceae) and five diatom species , 1998 .

[14]  E. Svendsen,et al.  Effects of changing nutrient loads to the North Sea , 2004 .

[15]  Manfred Ehrhardt,et al.  Methods of seawater analysis , 1999 .

[16]  P. Worsfold,et al.  Comparison of sample storage protocols for the determination of nutrients in natural waters. , 2001, Water research.

[17]  Roger Kerouel,et al.  Assessment of heat treatment for nutrient preservation in seawater samples , 1997 .

[18]  B. Karlberg,et al.  Flow Injection Analysis: A Practical Guide , 1989 .

[19]  Wei Fu-Sheng,et al.  The determination of trace amounts of phosphate in natural water by flow injection fluorimetry , 1989 .