ORCID
- Worsfold, Paul: 0000-0002-2262-7723
Abstract
The marine biogeochemistries of carbon and nitrogen have come under increased scrutiny because of their close involvement in climate change and coastal eutrophication. Recent studies have shown that the high-temperature combustion (HTC) technique is suitable for routine analyses of dissolved organic matter due to its good oxidation efficiency, high sensitivity, and precision. In our laboratory, a coupled HTC TOC-NCD system with a sample changer was used for the automated and simultaneous determination of dissolved organic carbon (DOC) and total dissolved nitrogen (TDN) in seawater samples. TOC control software was used for TOC instrument control, DOC data acquisition, and data analysis. TDN data acquisition and manipulation was undertaken under LabVIEW. The combined system allowed simultaneous determination of DOC and TDN in the same sample using a single injection and provided low detection limits and excellent linear ranges for both DOC and TDN. The risk of contamination has been remarkably reduced due to the minimal sample manipulation and automated analyses. The optimised system provided a reliable tool for the routine determination of DOC and TDN in marine waters.
Publication Date
2005-08-01
Publication Title
Journal of Automated Methods & Management in Chemistry
Volume
2005
Issue
4
ISSN
1463-9246
Organisational Unit
School of Geography, Earth and Environmental Sciences
First Page
240
Last Page
246
Recommended Citation
Pan, X., Sanders, R., Tappin, A., Worsfold, P., & Achterberg, E. (2005) 'Simultaneous determination of dissolved organic carbon and total dissolved nitrogen on a coupled high-temperature combustion total organic carbon-nitrogen chemiluminescence detection (HTC TOC-NCD) system', Journal of Automated Methods & Management in Chemistry, 2005(4), pp. 240-246. Retrieved from https://pearl.plymouth.ac.uk/gees-research/549
