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Advanced Food Tracking and Packaging Will Save Lives and Cut Waste

A combination of two technologies could vastly improve food safety

About 600 million people suffer food poisoning every year, according to the World Health Organization, and 420,000 die. When an outbreak occurs, investigators can spend days or weeks tracking its source. Meanwhile more people can sicken, and massive amounts of uncontaminated food may be discarded along with the tainted items. Finding the source can be slow work because food travels a complex path from farm to table, and the records of those journeys are kept in local systems that often do not communicate with one another.

Together a pair of technologies could reduce both food poisoning and food waste. The first, an innovative application of blockchain technology (better known for managing virtual currency), is beginning to solve the traceability problem. Enhanced food packaging, meanwhile, is providing new ways to determine whether foods have been stored at proper temperatures and whether they might have begun to spoil.

Blockchain is a decentralized accounting system in which entries are recorded in sequence in multiple identical “ledgers” stored on computers in multiple locations. This redundancy makes tampering with any one ledger futile, creating a highly trusted record of transactions. A blockchain-based cloud platform developed for the food industry—IBM Food Trust—is already employed by major food sellers. (One of us—Meyerson—is affiliated with IBM.)


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By integrating growers, distributors and retailers on a common blockchain, Food Trust creates a trusted record of a given food’s path through the end-to-end supply chain. In a test using the technology, Walmart traced the origin of a “contaminated” item in seconds; with the standard mix of written and digital records, this would have taken days. With this capability, retailers and restaurants can remove a contaminated item from circulation virtually immediately and destroy only stock that came from the same source (say, a particular grower of romaine lettuce) instead of wasting entire national stocks of the item. Many food-business giants—Walmart, Carrefour, Sam’s Club, Albertsons Companies, Smithfield Foods, BeefChain, Wakefern Food (ShopRite’s parent) and Topco Associates (a group purchasing organization)—have joined the IBM Food Trust. Other organizations have also introduced blockchain technology for enhancing traceability.

To prevent food poisoning in the first place, research laboratories and companies are developing small sensors that can monitor the quality and safety of food in pallets, cases or individually wrapped products. For instance, Timestrip UK and Vitsab International have independently created sensor tags that change color if a product has been exposed to above-recommended temperatures, and Insignia Technologies sells a sensor that slowly changes color after a package has been opened and indicates when the time has come to toss the food. (The color changes more quickly if the product is not stored at the proper temperature.) Sensors that reveal the gaseous by-products of spoilage are also being developed. Beyond preventing sickness, such sensors can reduce waste by showing that a food is safe to eat.

Cost remains a roadblock to the ubiquitous use of sensors. Still, the food industry’s need to ensure food safety and limit waste is propelling this technology and blockchain forward.

Rona Chandrawati is a senior lecturer and head of the Nanotechnology for Food and Medicine Laboratory at the University of New South Wales (UNSW Sydney) in Australia. Her research focuses on developing colorimetric nanosensors for disease diagnosis, food safety and environmental monitoring. She was a 2018 World Economic Forum's Young Scientist and is in the Forum's Expert Network. She has also served on the World Economic Forum's Global Future Council on Biotechnology (2018–2019).

More by Rona Chandrawati

Bernard S. Meyerson, Steering Group vice chair, is chief innovation officer emeritus at IBM. He is a member of the U.S. National Academy of Engineering and a recipient of numerous awards for work spanning physics, engineering and business. He was the 2014–2016 chair of the World Economic Forum's Meta-Council on Emerging Technologies and the 2016–2018 chair of the Forum's Global Future Council on Advanced Materials. He remains engaged with several WEF efforts, such as "The Future of US Manufacturing" and "Innovation with a Purpose: Strengthening Food Systems through Technology."

More by Bernard S. Meyerson