Carbon isotope analyses (
δ13C) of some New Zealand Manuka honeys show that they often fail the internationally recognised Association of Official Analytical Chemists sugar test (AOAC method 998.12) which detects added C
4 sugar, although these honeys are from unadulterated sources. Failure of these high value products is detrimental to the New Zealand honey industry, not only in lost export revenue, but also in brand and market reputation damage. The standard AOAC test compares the carbon isotope value of the whole honey and corresponding protein isolated from the same honey. Differences between whole honey and protein
δ13C values should not be greater than +1.0‰, as it indicates the possibility of adulteration with syrups or sugars from C
4 plants such as high fructose corn syrup or cane sugar. We have determined that during the standard AOAC method, pollen and other insoluble components are isolated with the flocculated protein. These non‐protein components have isotope values which are considerably different from those of the pure protein, and can shift the apparent
δ13C value of protein further away from the
δ13C value of the whole honey, giving a false positive result for added C
4 sugar. To eliminate a false positive C
4 sugar test for Manuka honey, prior removal of pollen and other insoluble material from the honey is necessary to ensure that only the pure protein is isolated. This will enable a true comparison between whole honey and protein
δ13C isotopes. Furthermore, we strongly suggest this modification to the AOAC method be universally adopted for all honey C
4 sugar tests. Copyright © 2010 John Wiley & Sons, Ltd.
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