How do you know that’s extra virgin olive oil?

Who guarantees that expensive olive oil isn’t counterfeit or adulterated? An invisible label, developed by ETH researchers, could perform this task. The tag consists of tiny magnetic DNA particles encapsulated in a silica casing and mixed with the oil.

So starts Barbara Vonarburg’s April 24, 2014 ETH Zurich (Swiss Federal Institute of Technology or Eidgenössische Technische Hochschule Zürich) news release (also on EurekAlert). She goes on to describe the scope of the situation regarding counterfeit foods,

The worldwide need for anti-counterfeiting labels for food is substantial. In a joint operation in December 2013 and January 2014, Interpol and Europol confiscated more than 1,200 tonnes of counterfeit or substandard food and almost 430,000 litres of counterfeit beverages. The illegal trade is run by organised criminal groups that generate millions in profits, say the authorities. The confiscated goods also included more than 131,000 litres of oil and vinegar.

Jon Henley’s Jan. 4, 2012 article for the UK’s Guardian provides more insight into the specifics of counterfeit olive oil (Note: A link has been removed),

Last month [December 2011], the Olive Oil Times reported that two Spanish businessmen had been sentenced to two years in prison in Cordoba for selling hundreds of thousands of litres of supposedly extra virgin olive oil that was, in fact, a mixture of 70-80% sunflower oil and 20-30% olive.

… So with a litre of supermarket extra virgin costing up to £4, and connoisseurs willing to pay 10 times that sum for a far smaller bottle of seasonal, first cold stone pressed, single estate, artisan-milled oil from Italy or Greece, can we be sure of getting what we’re paying for?

The answer, according to Tom Mueller in a book out this month [January 2012], is very often not. In Extra Virginity: the Sublime and Scandalous World of Olive Oil, Mueller, an American who lives in Italy, lays bare the workings of an industry prey, he argues, to hi-tech, industrial-scale fraud. The problem, he says, is that good olive oil is difficult, time-consuming and expensive to make, but easy, quick and cheap to doctor.

Most commonly, it seems, extra virgin oil is mixed with a lower grade olive oil, often not from the same country. Sometimes, another vegetable oil such as colza or canola is used. The resulting blend is then chemically coloured, flavoured and deodorised, and sold as extra-virgin to a producer. Almost any brand can, in theory, be susceptible: major names such as Bertolli (then owned by Unilever [see Henley’s article for details about the 2008 Italian olive oil scandal]) have found themselves in court having to argue, successfully in this instance, that they had themselves been defrauded by their supplier.

Meanwhile, the chemical tests that should by law be performed by exporters of extra virgin oil before it can be labelled and sold as such can often fail to detect adulterated oil, particularly when it has been mixed with products such as deodorised, lower-grade olive oil in a sophisticated modern refinery.

Given the benefits claimed for olive oil, I imagine lower grade olive oil which is more highly processed or, worse yet, a completely different kind of oil would diminish or, possibly, eliminate any potential health benefit.

Getting back to the ETH Zurich news release, here’s more about the anti-counterfeiting ‘label’,

Just a few grams of the new substance are enough to tag [label] the entire olive oil production of Italy. If counterfeiting were suspected, the particles added at the place of origin could be extracted from the oil and analysed, enabling a definitive identification of the producer. “The method is equivalent to a label that cannot be removed,” says Robert Grass, lecturer in the Department of Chemistry and Applied Biosciences at ETH Zurich.

A forgery-proof label should not only be invisible but also safe, robust, cheap and easy to detect. To fulfil these criteria ETH researchers used nanotechnology and nature’s information storehouse, DNA. A piece of artificial genetic material is the heart of the mini-label. “With DNA, there are millions of options that can be used as codes,” says Grass. Moreover, the material has an extremely low detection limit, so tiny amounts are sufficient for labelling purposes.

However, DNA also has some disadvantages. If the material is used as an information carrier outside a living organism, it cannot repair itself and is susceptible to light, temperature fluctuations and chemicals. Thus, the researchers used a silica coating to protect the DNA, creating a kind of synthetic fossil. The casing represents a physical barrier that protects the DNA against chemical attacks and completely isolates it from the external environment – a situation that mimics that of natural fossils, write the researchers in their paper, which has been published in the journal ACS Nano. To ensure that the particles can be fished out of the oil as quickly and simply as possible, Grass and his team employed another trick: they magnetised the tag by attaching iron oxide nanoparticles.

Experiments in the lab showed that the tiny tags dispersed well in the oil and did not result in any visual changes. They also remained stable when heated and weathered an ageing trial unscathed. The magnetic iron oxide, meanwhile, made it easy to extract the particles from the oil. The DNA was recovered using a fluoride-based solution and analysed by PCR, a standard method that can be carried out today by any medical lab at minimal expense. “Unbelievably small quantities of particles down to a millionth of a gram per litre and a tiny volume of a thousandth of a litre were enough to carry out the authenticity tests for the oil products,” write the researchers. The method also made it possible to detect adulteration: if the concentration of nanoparticles does not match the original value, other oil – presumably substandard – must have been added. The cost of label manufacture should be approximately 0.02 cents per litre.

The researchers have plans for other products that could benefit from this technology and answers to questions about whether or not people would be willing to ingest a label/tag along with their olive oil,

Petrol could also be tagged using this method and the technology could be used in the cosmetics industry as well. In trials the researchers also successfully tagged expensive Bergamot essential oil, which is used as a raw material in perfumes. Nevertheless, Grass sees the greatest potential for the use of invisible labels in the food industry. But will consumers buy expensive ‘extra-virgin’ olive oil when synthetic DNA nanoparticles are floating around in it? “These are things that we already ingest today,” says Grass. Silica particles are present in ketchup and orange juice, among other products, and iron oxide is permitted as a food additive E172.

To promote acceptance, natural genetic material could be used in place of synthetic DNA; for instance, from exotic tomatoes or pineapples, of which there are a great variety – but also from any other fruit or vegetable that is a part of our diet. Of course, the new technology must yield benefits that far outweigh any risks, says Grass. He concedes that as the inventor of the method, he might not be entirely impartial. “But I need to know where food comes from and how pure it is.” In the case of adulterated goods, there is no way of knowing what’s inside. “So I prefer to know which particles have been intentionally added.”

Here’s a link to and a citation for the researchers’ paper,

Magnetically Recoverable, Thermostable, Hydrophobic DNA/Silica Encapsulates and Their Application as Invisible Oil Tags by Michela Puddu , Daniela Paunescu , Wendelin J. Stark , and Robert N. Grass. ACS Nano, 2014, 8 (3), pp 2677–2685 DOI: 10.1021/nn4063853 Publication Date (Web): February 25, 2014

Copyright © 2014 American Chemical Society

This article is behind a paywall.

The Swiss aren’t the only ones interested in tagging petrol (gas), they’re already tagging petrol with nanoparticles in Malaysia with as per my Oct. 7, 2011 posting on the topic.

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