Assessing the effect of sterilization on the radiocarbon signature of freshwater dissolved organic carbon

Baker, A., Gulliver, P. , Ascough, P. , Roe, J. and Bridgeman, J. (2011) Assessing the effect of sterilization on the radiocarbon signature of freshwater dissolved organic carbon. Radiocarbon, 53(4), pp. 659-667.

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Publisher's URL: https://journals.uair.arizona.edu/index.php/radiocarbon/article/view/12347

Abstract

Radiocarbon analysis of freshwater dissolved organic carbon (DOC) involves substantial sample pretreatment, including an initial rotary evaporation stage necessary to concentrate large volumes of freshwater sample. This may lead to a health risk from the exposure to pathogens, and there is the additional concern that the warm conditions during the rotary evaporation stage may provide ideal growing conditions for some pathogens. To remove any pathogen risk in water samples, boiling or autoclaving can be undertaken. However, to date, no studies have been undertaken to investigate whether boiling will alter the 14C signature of dissolved organic carbon. Here, we analyze the effect of sterilization on 9 contrasting river water samples. Comparing filtered, filtered and boiled, and filtered and sterilized dissolved organic matter, we observe that both boiling and autoclaving increases the uncertainty associated with the 14C and 13C of DOC, that the 14C and 13C changes are not unidirectional, and that they are not related to original DOC composition. Neither sterilization method is recommended unless essential, in which instance we recommend a 3σ uncertainty on 14C and that the 13C is not considered representative of the original sample.

Item Type:Articles
Status:Published
Refereed:Yes
Glasgow Author(s) Enlighten ID:Ascough, Dr Philippa and Gulliver, Dr Pauline
Authors: Baker, A., Gulliver, P., Ascough, P., Roe, J., and Bridgeman, J.
College/School:College of Science and Engineering > Scottish Universities Environmental Research Centre
Journal Name:Radiocarbon
Publisher:University of Arizona
ISSN:0033-8222

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