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Leptospermum Honey Activity
Estimator.
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MENU:
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The University of The Sunshine Coast’s Honey Laboratory is part of The CRC for Honey Bee
Products research project “The Analysis of
antimicrobial Bioactive Components of Australian Leptospermum Honeys and Nectars”.
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We are often asked by
beekeepers and honey processors, “What activity will my honey develop in 6-12
months”? It is a great question, but difficult to definitively answer due to
honey’s complex nature, being blends of different sources, and differing chemistry
of water activity, acidity and amino acid content. The conversion of
dihydroxyacetone DHA to methylglyoxal MGO involves some complex temperature
dependent chemistry, and is not a simple one-to-one conversion. Further, the
MGO molecule is not temperature stable. We undertook a storage study on
twelve Leptospermum honeys
at 22oC,
37oC and
65oC.
Twenty two degrees approximates an ambient storage shed, 37oC approximates a warm
room, or drums left out in the sun, and 65oC approximates heat treating during processing. Some honeys in
the trial matured faster while others developed slower. The Activity
Estimator approximates the average response. It is a guide to what may happen.
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First up, cooler
storage develops a more active honey but over a 1-2 year period. Warmer
temperatures may initially develop MGO, but this also promotes early loss of
activity as the MGO is not temperature stable. At high temperatures, the MGO
activity is unstable, and hydroxymethylfurfural HMF is generated quickly. In
our long term storage, cold rooms around 5oC kept honeys unchanged over years. So cooler climates like
Tasmania may require modest warming for development to occur.
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To use the Estimator,
tap on the Calculate button above and then enter your starting DHA, MGO and
HMF values at time zero. Then enter the week and the App will calculate the
changes at 22°C and 37°C. There is also a daily calcuation showing the impact
of exposure to 65°C.
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Finally, a word of
caution. Do not attempt to push MGO to its absolute limits before processing,
packaging and shipment. We have observed that the effect of processing and
shipment (long storage in uncontrolled conditions) can reduce MGO content.
Several international shipments have been rejected as a result of falling MGO
values. Best package while the DHA:MGO ratio is above 2 to 1, this gives room
for MGO development as insurance against adverse handling.
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Cheers,
Peter, Kyle and Linda
USC Honey Lab.
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Calculator
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Weeks
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Enter a number between 1 and 52 or use the
stepper.
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Weeks
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Enter a number between 1 and 156 or use the
stepper.
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DHA
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MGO
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HMF
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NPA
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Initial
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mg/kg (ppm) in each case
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22°C
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mg/kg (ppm) in each case
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37°C
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Interpolation
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Activity impact at 65°C
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Days
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DHA
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MGO
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HMF
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NPA
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mg/kg
(ppm)
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© Copyright - All right reserved
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