Maybe We Just Shouldn’t Ever Buy Grocery Store Chicken

(Cornucopia – Modern Farmer – Dan Nosowitz) The latest scandal in supermarket chicken comes from Canada. This time, a supermarket was reported to be re-labeling its chicken to have a later sell-by date, based on nothing more than a smell test. Should we maybe just stop buying supermarket chicken altogether?

It seems like every week there’s a new study or a new scandal around the danger of pre-packaged supermarket chickens and chicken parts. This week’s comes from Canada, where Radio-Canada reports that IGA, a huge international grocery store chain very popular up north, has actually been re-labeling chicken to indicate that it’s fresher than it is.

An IGA employee, who chose to remain anonymous, told Radio-Canada that his store routinely re-labels chickens:

“When the product is expired, when it’s three days old, we check to see if it looks OK and smells OK. Then we repackage it, and put it back on the shelf,” he said. “In our IGA, we stretch it one more day. Depending on the store, depending on the managers, sometimes they stretch it by another three days.”

This practice is actually illegal in Canada, for obvious reasons: a smell test by a supermarket employee is not an adequate examination to make sure the sell-by date can be extended. Radio-Canada proceeded to buy some IGA chicken and have it tested, where some of it tested extremely highly for bacteria. Many types of bacteria found in poultry can be killed by normal cooking temperatures, but improper cooking of mislabeled chicken could make for a much scarier bird than properly labeled chicken.

Here in the States, it’s actually legal to re-label chicken, which strikes us as completely insane; there was a case at a New York Key Foods just a few years back in which that loophole was revealed to the public.

For its part, IGA says re-labeling chicken sell-by dates is not store policy, and they will try harder to make sure it doesn’t happen, which, okay, we guess.

Study Shows Organic Cotton Causes Less Environmental Damage than Conventional Cotton

(Cornucopia – Sourcing Journal – by Tara Donaldson) More than just a “feel-good” fiber, organic cotton has now been proven better for the environment than conventional cotton, according to a new study.

Textile Exchange, a nonprofit dedicated to increasing sustainability in the textile sector, in partnership with sustainability consultancy PE International conducted an 18-month Organic Cotton Life Cycle Assessment (LCA) demonstrating the tangible benefits of organic cotton cultivation.

In short, the organic process showed reduced global warming potential, lower soil erosion, less water use and less energy demand.

La Rhea Pepper, managing director of Textile Exchange said the study’s findings mark a turning point for the organic cotton industry as a whole. “For 12 years, we have been promoting the benefits of organic cotton. This study allows us to show the quantitative data that supports what we already know – that organic cotton is much better for our environment than conventional cotton,” she said.

The LCA study looked at the impact of organic cotton production in five categories, and compared the findings to a separate independent peer-reviewed study of conventional cotton done by Cotton Incorporated.

In the comparison, the LCA uncovered that organic cotton had 46 percent reduced global warming potential, 70 percent less acidification potential (such as acid rain), 26 percent reduced soil erosion potential, 91 percent reduced blue water (water withdrawn via immigration) consumption, and 62 percent reduced energy demand.

“Under current system boundaries, the difference in results can be attributed to the lower agricultural inputs that are required by the principles of organic agriculture, namely of mineral fertilizer, pesticides, as well as the practices related to tractor operations and irrigation,” the report noted.

The lower acidification potential can be attributed to reduced or avoided agricultural inputs like fertilizer and pesticide production, irrigation pumps and tractor operations. The difference in field emissions due to varied amounts of applied nutrients also contributed to the disparity.

In terms of soil erosion, organically cultivated systems can prevent 90 percent of the soil erosion that would otherwise enable washing off of nutrients into nearby water and soil bodies. Cultivation of rotation crops and intercropping also contribute to less loss in nutrients due to leaching.

The LCA found that nearly all (95 percent) of water used to produce organic cotton is green water, or rainwater and moisture stored in soil and used for plant growth. Organically cultivated cotton in the regions surveyed receive relatively little irrigation in addition to rainfall, reducing blue water consumption—the impact category with the highest relevance to the environment.

Avoiding mineral fertilizer, as organic cotton does, reduces the use on non-renewable energy since mineral fertilizers are derived from petroleum and have a high primary energy demand.

“This information is empowering for the people and organizations along the organic cotton supply chain, including farmers, cotton ginners, spinners, brands and retailers and all the way to the consumer level. Making a commitment to plant, grow, cultivate and use organic cotton in our textiles is also making a commitment to improve our water, soil and air,” Pepper said.

In terms of costs, Pepper said there are a few things retailers can do to accommodate the higher costs of organic cotton compared to conventional cotton: Strategically put organic cotton into products in which consumers place high value – for example, baby wear. This is where consumers are willing to invest a little more to have the best possible materials; Work within their supply chain to leverage cost-effective ways to save on shipping and other costs so they can then accommodate the higher price (and value) of organic cotton; Engage their consumer–show them the value of their investment in organic cotton. This can help eliminate the barriers consumers have to face in understanding why costs are higher and they will eventually be willing to pay a little bit more.

Data for the study was culled from the top five countries for organic cotton cultivation, India, China, Turkey, Tanzania and the United States—which combined account for 97 percent of global organic cotton production.

“The brands and retailers that are committed to organic cotton have seen first-hand the positive results that going organic has on communities, soil, water and more. They already understand the value. What this LCA does is give them the numbers and proof to support what they already know. This LCA demonstrates what we have been saying all along. In addition, this LCA can help convince companies that have been on the fence about organic cotton. To see the results in real numbers is what some need to make the commitment to incorporate organic cotton into their long-term plans,” Pepper said.

Yes, Organic Farming Can Feed the World

(Cornucopia – TakePart – by Anna Lappe) A few years ago, I was at a biotechnology trade meeting listening to a panel on GMOs. Throughout the two-hour session, the panelists all sang the praises of the technology—not too surprising at an industry event. (At the time, the GMOs under commercial planting were limited to seeds genetically engineered to produce an insecticide and/or resist a proprietary herbicide.)

What was unexpected was what came next: One of the speakers took the mic to say those opposed to GMOs should be tried for crimes against humanity. Seriously. Sure, the comment may have been a gross misuse of the term, but a similar sentiment runs throughout the messaging from the biotech industry that says we can’t feed the world if we don’t embrace the technology.

If my experience last month in Turkey is any indication, the notion that GMOs are the only way to feed a growing population is way out of step with both the leading thinkers on food and farming and the world’s smallholder farmers—who produce much of what the planet eats and 80 percent of the food in Asia and sub-Saharan Africa.

These farmers may not have money on their side, but I saw the power of strength in numbers at the Organic World Congress. Held this year in Istanbul, the conference brought together people from 81 countries to discuss the latest research from organic farm fields and to share private and public developments that promote organic agriculture.

What I heard should have biotech execs shaking in their boots, or their penny loafers, as the case may be: Organic agriculture is taking off around the world, especially where it’s needed most. About 80 percent of all organic producers are based in developing countries, with India, Uganda, Mexico, and Tanzania leading the charge. To date, 162 nations are now home to certified organic farms, and in 2012 the 37.5 million hectares of farmland produced a harvest worth $63.8 billion. While that works out to less than 1 percent of global agricultural land, the figure dramatically undercounts the actual amount of land farmed using organic principles, as many farmers are not part of an official certification program. And consider that globally, organic agriculture has received a fraction of the subsidies and 0.4 percent of the research dollars funneled into chemical farming ventures.

One of the themes of the three-day gathering in October was that embracing these practices is increasingly being seen as key to food security, from national departments of agriculture all the way to the halls of the Food and Agriculture Organization of the United Nations. Several speakers quoted José Graziano da Silva, the head of the FAO, who said, “We cannot rely on an input-intensive model to increase production—the solutions of the past have shown their limits,” at a recent international summit.

In Istanbul, former U.S. Department of Agriculture Deputy Secretary Kathleen Merrigan shared examples of interest in organic agriculture at the USDA: “Times have radically changed,” she said. “Fifty thousand people have taken an organic literacy course as staff of USDA.”

Research, including studies presented at the conference in Istanbul, is showing that organic agriculture can deliver reliably high yields—and that organic fields thrive in the face of disaster and duress, where chemical-reliant crops falter. Organic fields, for example, fare significantly better than chemically managed ones in the face of extreme weather, such as droughts or floods. A 30-year study from the Rodale Institute, for example, found that organic farm fields yielded 33 percent more in drought years compared with chemically managed ones. Organic agriculture can also reduce on-farm energy use and decrease greenhouse gas emissions. One comparative study in Slovakia found that chemical farming systems were more than 50 percent more “energy demanding” than the organic systems.

Pat Mooney, executive director of the ETC Group, a global antipoverty group, had the audience spellbound by his tales of woe: The monoculture design of industrial agriculture has decimated species diversity in our food system.

“In the last half century,” Mooney said, “the industrial food chain has destroyed 75 percent of the genetic diversity of our food chain.” Mooney’s message was that organic agriculture is key to protecting this disappearing biodiversity, which farmers have long known is the heart of food security.

All this interest; all these benefits. So why isn’t organic agriculture a bigger player in the global marketplace? In part, the answer has to do with the power, specifically the consolidation of power, among the agribusiness giants profiting from the chemical agriculture model. Mooney mentioned that in the two weeks prior, the world’s first- and fourth-largest fertilizer companies merged. While we were gathered in Turkey, news came out that several multinational companies, including one largely controlled by Monsanto, had acquired major stakes in SeedCo, the largest seed company in sub-Saharan Africa. As The Ecologist wrote of the deal, “Taken together, this means that three of the world’s largest biotechnology companies, Monsanto, DuPont and Syngenta, all now have a significant foothold on the continent in markets for two of the three major global GM crop varieties: [corn] and cotton.”

I would never suggest promoters of industrial agriculture and GMOs have a Machiavellian strategy for global food chain dominance, but the consolidation of the food chain is alarming. Perhaps that was what was most inspiring about soaking in the stories in Istanbul: The 981 attendees of the Organic World Congress were the faces of the counterforce. The farmers, researchers, and advocates at the front lines are pushing back against this corporate consolidation—and speaking up for a truly sustainable system that can feed the world.

Food Cravings Engineered By Industry

How Big Food keeps us eating through a combination of science and marketing

(Cornucopia – CBC News by Kelly Crowe)

Standing in her kitchen in downtown Toronto chopping vegetables for dinner, Pat Guillet is aware she has entered the battleground.

“Whenever you go grocery shopping, or into your kitchen, you’re in a war zone. You have to really be prepared before you go in,” she said. She decides, in advance, exactly what she’s going to eat, and she forces herself to stick to the plan. Because she knows she is just one sweet mouthful away from a descent back into hell. Pat Guillet is a food addict.

“I ate to the point it hurt to move. And I would just lie in my bed and wish I was dead,” she said. She has finally wrestled her addiction under control and now she counsels other food addicts to avoid processed food. “Yeah, just the sight of the packages will trigger cravings,” she said.

Craving. It doesn’t just happen to food addicts. Most people have experienced the impulse to seek out and consume a favourite packaged snack food.  On one billboard, recently put up in Toronto, the intention to make you reach for another one is prominently declared, in large letters that tower over the city street. It’s a picture of a box of crackers, and the promise “You’ll be back for more.”

They know you will be back, because they’ve done the research necessary to make it happen.

“These companies rely on deep science and pure science to understand how we’re attracted to food and how they can make their foods attractive to us,” Michael Moss said.

The New York Times investigative reporter spent four years prying open the secrets of the food industry’s scientists.

“This was like a detective story for me, getting inside the companies with thousands of pages of inside documents and getting their scientists and executives to reveal to me the secrets of how they go at this,” he said. What he found became the title of his new book, Salt, Sugar Fat: How the food giants hooked us.

“I was totally surprised,” he said. “I spent time with the top scientists at the largest companies in this country and it’s amazing how much math and science and regression analysis and energy they put into finding the very perfect amount of salt, sugar and fat in their products that will send us over the moon, and will send their products flying off the shelves and have us buy more, eat more and …make more money for them.”

It’s not surprising to Bruce Bradley. He’s a former food industry executive who spent 15 years working at General Mills, Pillsbury and Nabisco, and ran some common food brands including Honey Nut Cheerios and Hamburger Helper. But one day he discovered he couldn’t do it anymore.

“There were certainly times that I felt uncomfortable or troubled by what I was doing,” he said. “I think that’s ultimately one of the reasons why I left the industry. As you start to get glimpses of products and you understand better how consumers are using them, and then you see trends like obesity and health issues that are increasing, mainly driven by the food we eat, it was hard for me not to just take a more thorough assessment of what I was doing.”

Now he writes a blog, critical of the food industry.

“I decided to step out and ultimately speak out in hopes of bringing more awareness to the issue,” he said. “What we eat and drink from a lot of these big food and beverages companies isn’t that good for us and we should reconsider it,” he said. “These products are designed to keep you coming back to eat more and more and more. They’re trying to increase their share of your stomach.”

A Google search of the patents held by the food industry provides a glimpse of the complex technical engineering that goes into building a simple cracker. Scan the scientific journals, or read the food industry publications and a picture emerges of an army of chemists, physicists and even neuroscientists, all working to make sure you want a second cookie.

And to understand the research, you need to speak the language. There’s ‘mouth feel,’ ‘maximum bite force,’ and the important concept of ‘sensory specific satiety,’ the rate at which a food product loses its appeal as it is being eaten.

“That’s an expression that says when food has one overriding flavour, if it’s attractive, it will be really attractive to us initially, but then we’ll get tired of it really fast,” Moss said. “And so these companies make a concerted effort to make their foods not bland, but really well blended.”

That’s so people don’t get too full too fast, and stop eating too soon. “If the taste builds too much, consumption will stop … and snacks need to be eaten non-stop until the packet is finished,” Thorton Mustard wrote, back in 2002. He was a food industry consultant who revealed, early on, some of the secrets of the food industry, in a book called The Taste Signature Revealed. He wrote that fullness or satiety, is “quite a serious enemy for a product.”

Mustard claimed he could help food companies design foods that were guaranteed to be “more-ish,” which he defined as a quality that made a consumer want to eat more. It helped, he advised, if the food was easy to chew.

“If people had to chew the food to extract the flavour enjoyment, it would take longer to eat, be better digested, and the feeling of being full reached far sooner. People would need to consume less,” he wrote.

Thornton Mustard has retired and couldn’t be reached for comment, but Chris Lukehurst is continuing his work through The Marketing Clinic, the consulting company that Mustard founded.

“So people read that book, and we’ve been contacted by people saying, can you really do this? Because we’ve got a problem and we think you can solve it,” Lukehurst said.

On the art of “more-ishness,” Lukehurst explained it this way. “Some products, like most savoury snack products, want to be continually more-ish, so at the end of each product, they want you to reach out for the next product and put it in again, and they often achieve that by having an intense taste at the front of the mouth, and that dies off quickly, and so by the time you’ve finished each mouthful, you’re looking to re-taste what you’ve lost.”

The crunch is also crucial, Lukehurst said. “It’s partly the noise, the noise amplifies, through the jaw bones connected to your ears, and you can hear the crunch quite loudly when you bite. But it’s also the physical requirement to chew on something and crunch it. It just distracts you and pours your mind onto what you’re eating.”

The importance of “crunch” was confirmed in a study funded by Unilever where the scientists tested whether people’s perception of a chip was altered by the sound it made when they bit into it. The researchers concluded that “the potato chips were perceived as being both crisper and fresher when … the overall sound level was increased,” indicating another possible way to control the perception of the product, although, the authors wrote, “consumers are often unaware of the influence of such auditory cues.”

It also helps if the food dissolves quickly in the mouth, tricking the brain into believing that no calories have been ingested. It’s called “vanishing caloric density.”

“What happens is that your brain gets fooled into thinking the calories have vanished and you’re much more apt to keep eating before the brain sends you a signal …you’ve had enough,” author Michael Moss said.

The ultimate goal is the bliss point. “The company’s researchers have learned to study their products, fiddle with the formulas until they hit that very perfect spot of just enough and not too much sugar to create what they call the bliss point,” he said.

Melt-in-the-mouth appeal

Food scientists have even studied the architecture of the mouth. In a paper published in the Journal of Biomechanics, scientists from the Nestlé Research Center examined the “detection mechanisms in the oral cavity,” to study how well the mouth could detect the thickness of a plastic disc placed on the tongue. The researchers created a model that would predict the load exerted on the disc when it was deformed by the tongue.

Three years later, Nestlé announced a new chocolate with a shape based on the geometry of the mouth, that hits “certain areas of the oral surface, improving the melt-in-mouth quality while simultaneously reserving enough space in the mouth for the aroma to enrich the sensorial experience,” the press release announced.

It’s a clue to understanding why chocolates tend to be round. It seems consumers don’t enjoy a piece of chocolate as much if it has sharp edges. “Absolutely, we’re looking for chocolate to be comforting, to be a really pleasant, lovely experience in the mouth,” Chris Lukehurst said. “Melt is a very soft, soft experience, and if it’s got sharp corners, you’re really spoiling that and setting the consumer on edge slightly, before they get the melt. Much better if it’s nicely rounded and they’re already comforted and enjoying it first.”

And whatever happens on the tongue triggers a response in the brain. That’s why neuroscience is the next frontier for the food industry. Francis McGlone was a pioneer when he left academia to work for Unilever, one of the world’s largest food companies, back in 1994.

“I think I was the leading edge of something which I think is going to become far more prominent,” McGlone said. After more than a decade of industry research, he’s back in academia, but he remembers his time in the food industry fondly. “As a basic neuroscientist, I was able to look at the mechanisms that drove preference for various types of food,” he said.

What are those drivers of food preference, in McGlone’s opinion? His answer sounded familiar. “I am afraid we find high fat, high sugar, high salt foods very appealing,” he said.

“Salt, sugar and fat are the three pillars of the processed food industry,” Michael Moss said. “And while the industry hates the world ‘addiction’ more than any other word, the fact of the matter is, their research has shown them that when they hit the very perfect amounts of each of those ingredients … they will have us buy more, eat more.”

When Moss began working on his investigation into the science of food processing, he was sceptical of concept of food addiction. “Until I spent some time with the top scientists in the U.S. who say that yes, for some people, the most highly loaded salty, sugary, fatty foods are every bit as addictive as some narcotics,” he said.

Francis McGlone made a similar point in a television program for the BBC, when he put a British chef into a functional magnetic resonance imaging machine, (an fMRI), fed him chili, and took images of his brain, which showed how the burn from the chili peppers triggered the release of endorphins. “The consequence of that low level of pain is that it floods the brain with its own natural opiates, so you can see another way of kicking up a pleasure system,” McGlone said.

But many ingredients in processed food have nothing to do with taste. They’re there to reproduce a certain texture, to control the moisture level, to keep the various ingredients from separating and spoiling during the months that they will sit on the shelves.

“Absolutely, that’s essential to the processed food industry, that their food be able to remain in a warehouse, in shipping, and then in the grocery story for weeks or months at a time,” Moss said.

To mask the bitterness or sourness that the formulations can cause, the food industry uses flavour enhancers, invisible ingredients that trick the brain into tasting something that isn’t there, and not tasting something that is there.

“Ingredients like that are kind of bundled under what may seem like relatively innocuous labels like ‘natural flavours’ or even ‘artificial flavours,’ when truly they are much more surprising when consumers really understand what it is,” Bruce Bradley, the former food industry executive, said. “There’s tremendous amounts of money spent behind creating tastes and smells that feel real but in reality are completely artificial.”

Because without flavour enhancement, no one would eat it. “It would taste horrible, you’d want to spit it out,” Bradley said.

Michael Moss was treated to a special taste test, while researching his book. “Kellogg invited me into their R&D department, and prepared for me special versions of their iconic products, without any salt in them at all. And I have to tell you, it was a God-awful experience tasting those things. Normally, I can eat Cheez-Its [crackers] all day long, but the Cheez-Its without the salt? I couldn’t even swallow them. They stuck to the roof of my mouth. The real impressive moment was when I turned to the cereal, which, without salt, tasted like metal. One of the miracle things that salt adds to processed foods, it will cover up some of the off notes that are inherent to the food processing systems that they rely on.”

Bruce Bradley says all of that processing takes food to a different place. “We’re not talking about food actually being real anymore. It’s synthetic, completely contrived and created, and there’s so many problems about that because our bodies are tricked and when our bodies are tricked repeatedly dramatic things can happen, like weight gain” or endocrine disruption, diabetes and hypertension, he said.

What about the scientists who created these products? Moss says some of them are having second thoughts about their popular creations. “A number of the people I talked to invented these icons really in a more innocent era, when our dependence on processed foods was much less than it is now. And over time, they’ve come to regret how their inventions have come to be so heavily depended on by us. So yes, any number of these scientists are now looking for ways to help their companies improve the health profile of their products.”

Bruce Bradley says he believes food companies are trying to make some changes. ” think there’s an element of it that’s sincere. I’ve certainly worked on several products where there was a sincere effort to reduce the amount of sodium or sugar in that product,” he said.

But he says there is only so much tinkering that can happen with the three basic building blocks of processed food. “To make these highly processed foods taste great, they require salt and sugar and fat, and so while there may be some very good intentions … it’s just not in the cards to get a product that tastes really great.”

Chris Lukehurst believes the food industry is making a mistake trying to formulate lower salt, sugar and fat versions of their popular brands while still hoping to match the original taste. Instead he says the food engineers should tinker with the crunch, the mouth feel and other sensory aspects to make consumers like the new versions better, for different reasons.

“What we would argue is don’t try to make it taste the same, make it work better for the consumer. So when they’re tasting this product, they may well notice a taste difference, but the emotional delivery they’re getting out of it is at least better than it was before,” he said. “Let’s find what emotions are lacking when you take the fat out. How can we make those emotions up in different ways?”

Today’s grocery shelves are filled with the promise of healthier snack foods. Cookies now sport a bright green label, claiming to be a “sensible solution.” Chips boast about “the goodness of whole grains,” and crackers proudly declare that they’ve been “baked,” not fried.

Pressure on food industry

Bruce Bradley believes the food industry has simply identified a new market opportunity. “These companies are extremely profit-focused, as are all publicly held companies out there. It is a quarter to quarter profit drill,” he said. “If the food industry can find a way to market it and make money off of it, I’m sure they will. But if, in the long term, it is decreasing the amount of food that they can sell, I don’t see that as being an avenue that they will go down.”

“There’s huge and growing pressure on the food companies now, from consumers who are concerned about what they’re putting in their mouths,” Michael Moss said. “There’s equal pressure coming from Wall Street, which is concerned about sales, and there’s starting to be increasing attention paid by government regulators. I think you have all three of those converging on the food giants right now, and of course, what will happen remains to be seen.”

Meanwhile, Moss has his own food cravings to fight. “I’m a huge fan of potato chips and I can overdo it like the next person,” he said. “But what’s really helped me is getting inside the companies and understanding how they formulate and perfect their product. I can see where they’re coming at me and appreciate the power of the salt, the fat and the sugar in potato chips. And I think that helps me control my indulgence.”

For Pat Guillet, back in her kitchen, determinedly chopping celery, there is little hope for relief. “If I had one spoonful of ice cream, I would want the whole tub,” she said. “And there were times I ate the whole tub. And I would sit there and say ‘I’ve gotta stop, I’ve gotta stop,’ really feeling completely unable to act on what my brain is telling me.”

That’s why she is bracing for a lifelong battle with the sugar demons that lurk in the processed food aisle. “These foods are so addictive, so appealing, they give you a high and you feel better,” she said. “And the thing many food addicts say is, long after the food causes us joy, long after it causes us misery, we still couldn’t stop. It becomes hard-wired and it’s very hard to overcome.”

This is the first of two special features by health reporter Kelly Crowe on how industry designs food so that we crave them.