Research and education used to address postharvest food waste
Agricultural producers around the world are constantly faced with risks to their crops from disease, weather and pests, but even more losses occur after crops are harvested. In fact, nearly a third of all the food produced worldwide – approximately 1.3 billion tons – is lost to food wastage each year.
Angelos Deltsidis, assistant professor in postharvest physiology in the University of Georgia College of Agricultural and Environmental Sciences (CAES), investigates how preharvest factors and postharvest treatments affect the quality of fresh produce. He hopes to use this information to develop methods of preserving produce quality as it travels from the field to the kitchen.
“The quality of produce deteriorates from the moment of harvest all the way to the time you eat it in your home,” said Deltsidis, pointing out that consumers in developed countries waste almost as much food per year – 222 million tons – as the entire net food production of sub-Saharan Africa (230 million tons).
“There’s only so much this Earth can produce. That’s where we come in. We can help alleviate the food insecurity issues on the other end without putting more pressure on our environmental systems,” said Deltsidis, who presented the seminar “Postharvest Losses and Food Waste: A Global Perspective” on Oct. 7.
There are many factors that contribute to food waste and loss, including grade standards, producer economics, deterioration during storage, transportation losses and retail losses.
Western consumers expect perfect produce
“There are a lot of reasons why we’re losing a lot of food here in the U.S., and some of it is because consumers expect everything to look perfect. In the U.S. and in the Western world, the customer is always right and we’re paying for that. Apples have to be perfectly round and large with no specks,” Deltsidis said.
“If a consumer doesn’t like this apple, they aren’t going to buy it, so the supermarket chain is not going to buy it from the supplier and the supplier won’t buy it from the farmer. In the end, if it is not perfect, the farmer will not harvest it. They will let it rot in the field or they will sort it and throw it away before it even gets packed. Because it does not meet that unrealistic standard, it would cost more to harvest and process than the farmer would realize in profit.”
The rise in popularity of direct-to-consumer distributors that specialize in produce “seconds” — such as Misfits Market, Imperfect Foods and Hungry Harvest – can offset this somewhat, he said, but a broader change in perception and expectation would go further to prevent food waste.
“If a product is unsafe to eat, that is one thing, but to reject something because it doesn’t meet expectations of what it should look like is just unrealistic. People need to understand that these are products that come from trees andplants – this is not a product that comes from a factory,” Deltsidis said.
“Farmers can produce food that is safe and of good quality, but if it doesn’t make any money, they’re not going to harvest because they’re running a business,” explained Deltsidis.
Reducing global food loss with new technologies
Advances in food packaging, handling, and tracking technologies – such as special plastic films that slow down produce respiration rates, affordable cooling technologies and quality control technologies – show promise in reducing food loss.
“There are natural reasons that the quality deteriorates, and you have decline in the amount of product that is edible. The quality of every fruit and vegetable is best right at harvest and then it goes down. You cannot make a bad apple a good apple, but we can at least do things to slow down the decline of quality over time,” he said.
The most important factor in maintaining the quality of harvested produce is temperature.
“We have technologies such as controlled and modified atmosphere, where you take out the oxygen and increase the CO2 of the storage environment, and by doing this you slow down the metabolic processes of the plant so that produce can last longer. When you combine this with low temperature storage and appropriate packaging, you have a lower percentage of losses,” he said.
While cooling technologies are used widely in the U.S. and Europe for shipping produce, such technologies can be cost prohibitive for small producers or those in developing countries, increasing demand for cost-effective, smaller scale solutions to improve food storage and prevent waste.
One such innovation is the CoolBot, which uses a small sensor that works with off-the-shelf air conditioning units to create a lower-cost walk-in cooler refrigeration system. Partnering with Feed the Future, USAID and Fintrac, the company that produces CoolBot has directly impacted 20,221 smallholder farmers in Honduras and Guatemala by providing affordable cold storage to help reduce postharvest loss.
Another innovation, developed by the Horticulture Innovation Lab at University of California, Davis, is the reusable DryCard, a simple, inexpensive visual tool that monitors equilibrium relative humidity – or the level of dryness of dried food products – to reduce contaminants such as aflatoxin, a common toxin produced by the mold Aspergillus flavus that can grow on stored maize, peanuts, nuts, grains and other products due to excess moisture.
“Our target is to make sure that the products we are producing maintain the best quality and are consumed as much as possible. We are not only innovating solutions in the lab, we are training harvesters in the field how to appropriately harvest the fruit or vegetables from the plant, how to appropriately transport it to the packing house, how to pack it, and how to make sure that it is held their appropriate temperature and appropriate relative humidity so it doesn’t lose water,” Deltsidis said. “We work with shippers on how it should be transported and the retailer on how it should be displayed and then we try to educate consumers on how to like store their products after they buy it.”
Public education to reduce carbon emissions
Besides the obvious issues of food scarcity and food insecurity, food waste also has an environmental impact through greenhouse gas emissions.
“If our global food waste was a country, it would be the third-largest contributor to greenhouse gas emissions, right after China and the United States, which is crazy,” Deltsidis said.
One contributor is at the end of the food supply chain – in our homes. Many people will throw away food that is still edible because there is a “best before” date stamped on the packaging. But packagers often use a conservative best-before date on a product because “they know people will throw it out and buy more,” he explained.
By making small changes in how we choose, purchase and consume food, each person can make a difference.
“We can’t control consumer behavior, but we can help educate people about reducing food waste,” Deltsidis said. “There’s education to do at each level, but it seems like better knowledge at the consumer level could have a lot of impact on all the other ones.”
– Maria M. Lameiras is a managing editor with the University of Georgia College of Agricultural and Environmental Sciences.
Photo at top: “There’s only so much this Earth can produce. That’s where we come in. We can help alleviate the food insecurity issues on the other end without putting more pressure on our environmental systems,” said Assistant Professor Angelos Deltsidis.