Science has once again validated Indigenous wisdom by identifying a rare, healthy sugar in native stingless bee honey that is not found in any other food.
University of Queensland organic chemist Associate Professor Mary Fletcher said Indigenous peoples had long known that native stingless bee honey had special health properties.
“We tested honey from two Australian native stingless bee species, two in Malaysia and one in Brazil and found that up to 85 per cent of their sugar is trehalulose, not maltose as previously thought,” she said.
Dr Fletcher said trehalulose was a rare sugar with a low glycaemic index (GI), and not found as a major component in any other foods.
“Traditionally it has been thought that stingless bee honey was good for diabetes and now we know why – having a lower GI means it takes longer for the sugar to be absorbed into the blood stream, so there is not a spike in glucose that you get from other sugars,” Dr Fletcher said.
“Interestingly trehalulose is also acariogenic, which means it doesn’t cause tooth decay.”
Dr Fletcher said the findings would strengthen the stingless bee honey market and create new opportunities.
“Stingless bee honey sells now for around $200 per kilogram, which is up there with the price of Manuka and Royal Jelly honey,” she said.
“The high commercial value also makes it a risk for substitution, where people could sell other honey as stingless bee honey, or dilute the product.
“But due to this research, we can test for this novel sugar, which will help industry to set a food standard for stingless bee honey.
“People have patented ways of making trehalulose synthetically with enzymes and bacteria, but our research shows stingless bee honey can be used as a wholefood on its own or in other food to get the same health benefits.”
The work of Dr Fletcher and the research team has led to a new project funded by AgriFutures Australia and supported by the Australian Native Bee Association.
Working with Dr Natasha Hungerford from UQ’s Queensland Alliance for Agriculture and Food Innovation and Dr Tobias Smith from the School of Biological Sciences the new project will investigate storage and collection, to optimise the trehalulose content of Australian stingless bee honey.
Stingless bees (Meliponini) occur in most tropical and sub-tropical regions, with more than 500 species across Neotropical, Afrotropical and Indo-Australian regions.
Like the well-known Apis mellifera honeybees, stingless bees live in permanent colonies made up of a single queen and workers, who collect pollen and nectar to feed larvae within the colony.
Dr Fletcher said keeping native stingless bees was gaining in popularity in Australia, for their role as pollinators as well as for their unique honey.
As well as having health benefits, stingless bee honey is valued for its flavour and is in high demand from chefs.
The research by Dr Fletcher and her collaborator Dr Norhasnida Zawawi from the Universiti Putra Malaysia, and colleagues from UQ’s Queensland Alliance for Agriculture and Food Innovation, and School of Chemistry and Molecular Biosciences and Department of Agriculture and Fisheries, is published in Scientific Reports.
The project Optimising bioactive content of Australian stingless bee honey is supported by funding from AgriFutures Australia as part of the AgriFutures Emerging Industries Program.
Stingless bee honey, a novel source of trehalulose: a biologically active disaccharide with health benefits, published in Scientific Reports on 22 July 2020. DOI 10.1038/s41598-020-68940-0
Media: Associate Professor Mary Fletcher, mary.fletcher@uq.edu.au, +61 417 753 791; Margaret Puls, m.puls@uq.edu.au, +61 419 578 356.
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UQ Native Bees with Dr Tobias Smith
Ever wondered what the process of transferring a stingless bee colony into an artificial hive box looks like? Watch Dr Tobias Smith transfer a colony of Tetragonula hockingsi native stingless bees into a hive box at the University of Queensland, Brisbane. In Toby's role as a researcher at the University of Queensland, Toby manages stingless bee hives in specially designed observation hives that can be used for studying these bees' behaviour inside the hive. Some of these were created using the process shown in this video, using wild colonies in urban structures around the university.