Cattle, Cowgirl Boots And Cancer

581677_10153042743360587_388837289_nLast week I was lucky enough to chat with the fabulous Will Evans, a Welsh cattle and hen farmer on his Rock and Roll Farming podcast.

Unlike most of my media interviews, which are focus entirely on sustainability and have me spouting numbers like data is going out of fashion; this was a huge amount of fun and Will got me admitting to a celebrity crush, the fact that I have to put bacon and cheese on hot cross buns and the fact that, as an undergrad, I was so useless at presentations that even the lecturers felt sorry for me.

So if you fancy listening to a fabulous Welsh accent (Will) and a slightly overexcited Oxford/Shropshire/Montana-hybrid (me) discussing the best types of cheese, beating cancer at 25 and the perils of being a reformed vegan in addition to the best way to ensure future livestock sustainability (hint: there’s no one-size-fits-all), check it out here.

Cutting Meat? Or Just Cutting Corners?

DexterIt is equally interesting, inevitable and lamentable to see that another study has come out claiming that the only way to reduce climate change is to cut meat consumption per person.

Meat consumption appears to be the only human activity subject to continuous “we must cease/reduce this” claims on the basis of environmental impacts. If we compare to other greenhouse gas sources, a considerable proportion come from transportation. Yet rather than insisting that every car-owner cut their annual mileage by 25%, the focus has been on reducing emissions by producing more fuel-efficient vehicles. Similarly, no one has yet claimed that we should reduce household lighting by four hours per day, but the compact fluorescent lightbulb (CFL) has become the poster child for improving household energy efficiency.

We have demonstrable proof that beef and dairy producers have improved greenhouse gas emissions (as well as land use, water use, energy efficiency, etc) over time through improved efficiency, and can continue to do so into the future. So why are the gains made by livestock producers dismissed, and reduced meat intakes seen as the only solution? I have an absolute hatred of conspiracy theories, but it is difficult not to see an latent agenda in the preponderance of “Cut meat consumption” papers. Jumping on the bandwagon? Promoting individual dietary opinions as science? Or simply bowing to NGO/media opinions and looking for easy funding and publicity?

As the global population increases to over 9.5 billion people by 2050, with the majority of this growth occurring in the developing world, the demand for milk, meat and eggs is going to increase by 60%. If we are serious about cutting greenhouse gas emissions, it’s time to examine the impacts of all of our actions and concentrate on further efficiency improvements rather than constraining dietary choice.

Does Nature Really “Do Its Thing” on Organic Farms?

Fridge picI am lucky. My fridge is full of food: mostly produced in the UK or Europe; all nutritious, safe and affordable; and almost all produced on conventional farms, with a small amount of organic food (in my case, chocolate). Given that you’re reading this, I’ll hazard a guess that you are lucky too. 795 million other people can’t say the same thing – and feeding all the people on a planet where 1 in 9 don’t currently have enough food is, in my view, our biggest challenge.

The fact that we face this challenge makes me really irritated when celebrity chefs who could make a huge difference, bow instead to popular rhetoric. In his latest blog post, mockney chef and food pundit Jamie Oliver proclaims that “…organic food is natural food, where nature has been allowed to do its thing, and I’m sure most of us will agree that putting natural ingredients into our bodies is only going to be a positive thing.”

If we ignore the nonsensical claim that natural ingredients produce positive results (Really? Let’s examine puffer fish, solanaceae poisoning, dangerous fungi, absinthe, the many consequences of obesity…), let’s simply look at his claim that organic food is natural.  Except, well, it’s not. Agriculture first developed ~12,000 years ago, and ever since then farmers have been doing their best to breed crops and animals that are best suited to their farming system, whether it’s organic or conventional. Want dairy cows that produce high-quality milk from grazing pasture; leaner pork chops; or strawberries that can survive supermarket handling? You’ve got it. All achieved through traditional breeding techniques (otherwise known as “nature doing its thing”): noting that plant or animal A has desirable characteristics and breeding it with plant or animal B to (hopefully) produce better offspring. No scary chemicals, scientists with syringes or genes in test-tubes. Every farm in the world is founded on “nature doing its thing” – not just the organic farms. We can argue whether GMO crops are natural (breeding techniques are simply more refined and specific) or not (scientists playing god…) but that argument becomes redundant in the EU and many other regions, where GMO crops are not approved.

Can organic producers use pesticides? Yes, if they’re compounds approved for organic production (e.g. highly-toxic copper-based fungicides). Can they use antibiotics and wormers? Again yes, if a proven disease problem exists (note that rules differ slightly between the UK and USA). Are organic farmers just merrily sitting back and letting their crops cross-pollinate and reseed, and their bulls run around happily “doing their thing” to whichever cow they come across? No. It’s a beautiful bucolic image to suggest that organic farmers are happily working with Mother Nature whereas conventional farmers have an evil scientist sitting on one shoulder and a big agribusiness corporation on the other, but its simply not true.

According to Mr Oliver, “…the simple fact is that often we don’t actually have to interfere with nature.” The idea of a world where we could feed over 7 billion people without having to actually invest any research dollars into improving food production is lovely, but it’s smoke and mirrors. At the most basic level, what happens if we don’t “interfere” by controlling weeds (whether by chemicals, mechanical tillage or human labour)? Crop yields are reduced, food production goes down and we feed and clothe fewer people. What happens if a cow has problems giving birth? In nature, she dies. On a farm (whether organic or conventional) both she and the calf are saved, providing milk and meat for us to eat. According to the World Organisation for Animal Health, 20% of global animal protein losses are due to diseases for which treatments already exist – we simply need to make them available to every farmer worldwide. Just think how many more people we could feed if we interfered with nature in that way?

Huge amounts of research monies are invested each year to find ways to improve food production on both organic and conventional farms worldwide. Some are highly technical, others are simple, but all are contributing to the goal of feeding the world. Unfortunately, when food pundits jump on the “let’s promote system X” bandwagon as Mr Oliver has done with organic production, using persuasive but false arguments, we lose traction in fulfilling the real goal. Rather than arguing about which foods we can/should be buying, we need to accept that there’s a place for all systems; examine the ways in which all systems can improve soil fertility, animal health and environmental impacts; and make faster progress towards feeding the world while still enjoying our food choices.

What Happens When We Don’t Like the Science?

Recently I’ve seen some criticism relating to Dr. Temple Grandin from a few people who are opposed to her ideas on animal welfare – namely that we need to listen to the consumer and understand what they think and want. It doesn’t seem like rocket science, does it? Ignore your consumers wishes and pretty soon you don’t have a market.

Just show consumers the science, not the emotion…” seems to be the battlecry. “If somebody hasn’t published a peer-reviewed paper on it, they shouldn’t be allowed to say it!” Except it’s not as simple as that, is it? Just look at the furore over LFTB (lean finely-textured beef or so-called “pink slime”). A safe, technologically-sound, scientifically-approved product that, once it was labeled pink slime, was utterly undesirable to the consumer. Never mind that they were still happy to eat Twinkies, Slim-fast (just what is that pink powder?) or kelp juice (green slime?), the perception was out there that LFTB was gross, and no matter how much science was quoted, bang, out of beef products it went.

We can talk about science all we like, but sometimes that just isn’t going to get the message across. I can’t imagine that any consumer who goes into a battery chicken (caged layer) house or sees a photo of a pig in a gestation crate says “Wow, what a beautifully efficient and scientific system!” That response becomes even less likely when all they see is a photo of it on Facebook.

So what happens when the science doesn’t play nicely into our perceptions and beliefs? When about social science papers that show that consumers evaluate foods based on emotion, not science? Or survey data that shows that we can take consumers to a farm and explain agriculture…but that it doesn’t change the preconceived ideas that 75% of them already held?* Do we ignore the inconvenient science because we don’t like the answers? Keep banging the same drum and hope that we can maintain the status quo?

Here’s a thought. Rather than looking at agriculture through your own eyes, try and see it through the eyes of somebody else. Part of Dr. Grandin’s success can be attributed to that fact that, because of her autism, she can empathize with animals in handling systems. Isn’t time we followed her example and tried to think outside the cattle chute?

*SHS Foodthink (2012). Building Trust in What We Eat. Available here: http://shsfoodthink.com/white-papers/

Beef is Killing the Planet…and Elvis is Riding a Rainbow-Belching Unicorn

BurgerMy Twitter feed just exploded. Yet another study has been released claiming that if we all just gave up beef, the planet would be saved, Elvis would come back from the dead, and rainbow-belching unicorns would graze the Northern Great Plains. I may have exaggerated a little with the latter two claims, but the extent of media coverage related to the paper “Land, irrigation water, greenhouse gas and reactive nitrogen burdens of meat, eggs and dairy production in the United States” seems to suggest that the results within are as exciting as seeing Elvis riding one of those unicorns…but they’re also about as believable.

Much as we’d all like to stick our fingers in our ears and sing “La la la la” whenever anybody mentions greenhouse gases or water footprints, we cannot deny that beef has an environmental impact. Yet, here’s the rub – so does every single thing we eat. From apples to zucchini; Twinkies to organically-grown, hand-harvested, polished-by-mountain-virgins, heirloom tomatoes. Some impacts are positive (providing habitat for wildlife and birds), some are negative (nutrient run-off into water courses), but all foods use natural resources (land, water, fossil fuels) and are associated with greenhouse gas emissions.

So is this simply another attack on the beef industry from vegetarian authors out to promote an agenda? Possibly. The inclusion of multiple phrases suggesting that we should replace beef with other protein sources seems to indicate so. But regardless of whether it’s part of the big bad vegan agenda, or simply a paper from a scientist whose dietary choices happen to complement the topic of his scientific papers, the fact remains that it’s been published in a world-renowned journal and should therefore be seen as an example of good science.

Or should it?

I’m the first to rely on scientific, peer-reviewed papers as being the holy grail for facts and figures, but there’s a distressing trend for authors to excuse poor scientific analysis by stating that high-quality data was not available. It’s simple. Just like a recipe – if you put junk in, you get junk out. So if one of the major data inputs to your analysis (in this case, feed efficiency data) is less than reliable, the accuracy of your conclusions is….? Yep. As useful as a chocolate teapot.

Feed efficiency is the cut-and-paste, go-to argument for activist groups opposed to animal agriculture. Claims that beef uses 10, 20 or even 30 lbs of corn per lb of beef are commonly used (as in this paper) as justification for abolishing beef production. However, in this case, the argument falls flat, because, rather than using modern feed efficiency data, the authors employed USDA data, which has not been updated for 30 years. That’s rather like assuming a computer from the early 1980’s (I used to play “donkey” on such a black/green screened behemoth) is as efficient as a modern laptop, or that the original brick-sized “car phones” were equal to modern iPhones. If we look back at the environmental impact of the beef industry 30 years ago, we see that modern beef production uses 30% fewer animals, 19% less feed, 12% less water, 33% less land and has a 16% lower carbon footprint. Given the archaic data used, is it really surprising that this latest paper overestimates beef’s environmental impact?

The authors also seem to assume that feed comes in a big sack labeled “Animal Feed” (from the Roadrunner cartoon ACME Feed Co?) and is fed interchangeably to pigs, poultry and cattle. As I’ve blogged about before, we can’t simply examine feed efficiency as a basis for whether we should choose the steak or the chicken breast for dinner, we also have to examine the potential competition between animal feed and human food. When we look at the proportion of ingredients in livestock diets that are human-edible (e.g. corn, soy) vs. inedible (e.g. grass, other forages, by-products), milk and beef are better choices than pork and poultry due to the heavy reliance of monogastric animals on concentrate feeds. By-product feeds are also completely excluded from the analysis, which makes me wonder precisely what the authors think happens to the millions of tons of cottonseed meal, citrus pulp, distillers grains, sunflower seed meal etc, produced in the USA each year.

Finally, the authors claim that cattle use 28x more land than pigs or poultry – although they acknowledge that cattle are raised on pasture, it’s not included in the calculations, which assume that cattle are fed feedlot diets for the majority of their life. This is a gross error and underlines their complete ignorance of the U.S. beef industry. Without cow-calf operations, the U.S. beef industry simply would not exist – efficient use of rangeland upon which we cannot grow human food crops both provides the foundation for the beef industry and creates and maintains habitats for many rare and endangered species of plants, insects, birds and animals.

Want to know how to reduce the environmental impact of food production overnight? It’s very simple – and it doesn’t involve giving up beef. Globally we waste 30% of food – and in developed countries that’s almost always avoidable at the consumer level. Buy the right amount, don’t leave it in the fridge to go moldy, and learn to use odd bits of food in soups or stews. Our parents and grandparents did it out of necessity – we can do it to reduce resource use and greenhouse gas emissions; and take the wind out of the sails of bean-eating anti-beef activists.

Who Needs Scientists? Just Let Mother Nature Design Your Greek Yogurt.

Chobani.jpgHow you get to 100 calories matters. Most companies use artificial sweeteners. We think Mother Nature is sweet enough”. Clever marketing from the greek yogurt company Chobani, simultaneously disparaging alternative brands, and playing the ultimate caring, sharing, natural card with the mention of “Mother Nature”. However, earlier this week, Chobani’s #howmatters hashtag set the twitter feeds alight after their new “witty” tagline on the underside of yogurt lids was posted (below).

howmattersThe wording plays beautifully into what is fast becoming a universal fear of science intruding on our food supply – we want real food; food like our grandparents ate; food from traditional breeds and heirloom varieties – providing it doesn’t take us over 2,000 cal per day or increase our cholesterol levels. Rightly or wrongly, many people blame processed foods with hidden sugars and added chemical preservatives for many health issues in developed countries – the epitome of a #firstworldproblem, given that the corresponding #thirdworldproblem is hunger and malnutrition.

However, this time the twitter anger wasn’t from rampaging mommy bloggers, or infuriated activists, but scientists. After all, without science, would Chobani have a product? Yogurt was first developed in ancient times, but the modern pasteurized, long-shelf-life, greek yogurt is rather different to the cultured milk our ancestors would have enjoyed.

FAGEI have a 100-calorie greek yogurt from a rival brand in my fridge, so let’s examine the ingredients (left). Simply pasteurized skimmed milk and live active yogurt cultures (note, no added sweeteners). Louis Pasteur, a 19th century French scientist developed pasteurization (in addition to his discoveries relating to vaccines and microbial fermentation); biologists developed methods to identify and classify the bacteria that ferment milk into yogurt; and food scientists experimented with the exact mixture of bacteria to produce the desired flavor, texture and color of yogurt,  as well as developing the range of other processes needed to make the yogurt safe, appealing and shelf-stable.

Yes, we could make greek yogurt without scientists – after all, the original recipe didn’t originate in a corporate experimental kitchen. But without hundreds of years of scientific input, could we make Greek yogurt that, at 100 calories per serving, is desirable to the consumer and is a safe, affordable source of vitamins, minerals and protein? No. To imply that we could does a huge disservice to food scientists.

It appears that being a modern-day scientist appears to be somewhat equivalent to clubbing baby seals to death. Caring little for human suffering and illness, the cold and clinical scientist rubs his hands together with glee as he removes all nutrients from real food, replacing them with chemicals, additives and genetically-modified ingredients. As a side-line, he develops cocktails of toxic elements, pesticides and embalming fluid and markets them as vaccines. Yes, science is the enemy. Just remember that next time you take an aspirin for a hangover from pasteurized, fermented beverages.

How Long is Long-Term? Are We in Danger of Sacrificing Food Security to Satisfy GMO Paranoia?

FrankenfoodsMy Twitter feed is being taken over by two things: 1) arguments and 2) comments that are going to cause arguments. Almost every tweet appears to draw a contrary comment – I’m tempted to post “Elephants have four legs and one trunk” just to see how many people reply “No, there’s an elephant in South Africa called Minnie who only has three legs but has two trunks…”

The latest discussions (debates? arguments? long drawn-out 140-character battles?) have related to the safety of GMOs. Without exception, the argument from the nay-sayers comes down to “We don’t know what the long-term effects are, so we should ban them until we can conclude that they’re safe.”

In other words, we’re trying to prove a negative – show me that there’s no adverse effects whatsoever and I’ll believe it’s ok. Utterly impossible. Can you be absolutely sure that the screen you’re reading this on isn’t causing constant, minute but irreparable damage to your eyes? Water, that essential nutrient without which humans, animals and plants would die, can kill through drowning or intoxication. Even oxygen, without which brain cells are irretrievably damaged in just 10 minutes,  causes seizures and death when inhaled at high pressures. Should we ban these, just in case?

Perhaps we should take a long-term approach to all new technologies. iPhones were only introduced seven years ago, yet many of us spend considerable amounts of time typing on them, or holding them to our ears when they’re not in our pockets – what health-damaging consequences could these shiny new toys confer? What about the now-ubiquitous hand sanitizer? Once only the province of hospitals and germophobes, it’s now sloshed around by the gallon. Touted to kill 99.9% of harmful bacteria – what harm could those chemicals be doing to our fragile physiology?

I’ve yet to meet anybody who, when scheduled for quadruple bypass surgery, demanded that the surgeon only used techniques developed in 1964; or a type I diabetes sufferer who would only use insulin produced from pigs, as it was originally in 1923. When I was treated for breast cancer, I jumped at the chance to be part of a clinical trial involving a new monoclonal antibody treatment, regardless of the very slight risk of heart damage. In medicine, we seem happy to trust that science has the answers – not surprisingly, we prefer to survive today and take our changes with side-effects tomorrow.

With regards to food however, the opposite appears to be the case. The first commercial GMO (the Flavr Savr tomato) was introduced in 1994, GM corn and soy were commercialized in 1996, and not one death or disease has been attributed to any of these crops. Yet the “what are the long-term effects?” concern still persists. So how long-term is long enough? 10 years? 20? 50? Should we keep researching and testing these crops for another 80+ years before allowing them onto the market around the year 2100?

If your answer is yes, just pause for a moment and ask your parents, grandparents or even great-grandparents what life was like during the Great Depression in the USA, or World War II in Europe. Consider what life was like when food was scarce or rationed, when, for example, a British adult was only allowed to buy 4 oz of bacon, 8 oz ground beef, 2 oz each of butter and cheese, 1 fresh egg and 3 pints of milk per week. Those quantities of meat and cheese would only be enough to make two modern bacon cheeseburgers.

By 2050, the global population is predicted to be over 9 billion people. I don’t relish the idea of explaining to my grandchildren that they live with food scarcity, civil unrest (food shortages are one of the major causes of conflict) and malnutrition because public paranoia regarding GMOs meant that a major tool for helping us to improve food production was removed from use. In the developed world we have the luxury of choosing between conventional, natural, local, organic and many other production systems. However, we’re in danger of forgetting that not everybody has the same economic, physical or political freedom to choose. If you gave a basket of food to a family in sub-Saharan Africa subsisting on the equivalent of $30 per week, would they refuse it on the basis that the quinoa wasn’t from Whole Foods, the meat wasn’t organic and the tofu wasn’t labeled GMO-free?

When we have sufficient food being supplied to everybody in the world to allow them to be healthy and productive, we can then start refining the food system. Until then, the emphasis should be on finding solutions to world hunger, not forcing food system paranoia onto those who don’t have a choice.

Activism 101 – How to Write Like An Angry Internet “Expert” on GMOs

GMO carrotLast week I had the pleasure of speaking at the Montana Grain Growers Association on the topic of agricultural myths – specifically those relating to the wheat and barley industry. It was a whole new experience for me to replace calving rates with seeding rates; and crossbred cows with hybrid corn; but I was intrigued to see how many similarities existed between the grain industry and the beef industry in terms of the challenges we’re faced with in terms of misconceptions and bad science.

In the beef industry we’re often told that cattle are killing the planet by belching greenhouse gases; steak contains so many hormones that our kids are going to look like Pamela Anderson by the age of 5; and that we routinely mistreat our animals in the name of profitability – none of which are remotely true. However, many of the myths relating to the arable crop industry seem to revolve around genetically-modified organisms (GMOs) – the very mention of which appear to evoke rage, sanctimoniousness and downright insanity in many internet pundits.

Researching the GMO topic gave me so many examples of bad science that I could have spoken for three hours and still have had slides left over – so here, for your edification, is my quick cut-out-and-keep guide to writing like an angry internet GMO “expert”.*

GMOs in capital letters1) Always use capital letters to emphasize the negative. The more capital letters you use, the more powerful your message BECAUSE YOU’RE OBVIOUSLY SHOUTING! Everybody knows that shrieking like a hyena on acid gets your point across, right?

2) Remember that science is the enemy. Yes, it brought us the polio vaccine, organ transplants and the iPhone that’s rapidly giving you repetitive strain injury of the thumbs, but when it comes to food, it’s pure evil. Anybody who has a PhD is less believable than your Great-Aunt Edna’s story about the day she met JFK in Walmart, whereas the opinion of a liberal arts major who cites Wikipedia, Deepak Choprah and Michael Pollan is worth more than rubies.

Emotive language3) Make sure you use emotive language. Your food system of choice is entirely populated by fluffy animals that poop rainbows, fart glitter and graze happily upon plants that are identical to those grown by the pilgrim fathers. By contrast, the dark side has mega-herds of mutated hybrid creatures that snack on household pets unwary enough to wander into their pen; malevolent trees that fling apples at Judy Garland; and man-eating, trash-talking plants last seen in the Little Shop of Horrors.

Allergies 14) Cause-effect statistics are only used by scientists (see #2) and thus poison the virtuous well of truth. Far better to make spurious claims based on nebulous associations. If the claims relate to children, the elderly or other vulnerable populations, so much the better. The Flavor-Savr GMO tomato was introduced in 1994 and childhood allergies have increased 400% since then? Excellent. Despite the fact that the World Health Association has stated that there is no link between GMOs and allergies, the two must (MUST!) be related. Since 1994, we’ve also seen the introduction of Obamacare, the death of Princess Diana, and the Green Bay Packers have won the Super Bowl three times. OMG! GMOs killed Princess Diana!

5) The only exception to #’s 2 and 4, are when a paper published in the Obscure Seattle-based Journal of Bad Science and Tomfoolery funded by the People’s Commission for Proving that GMO’s are Gonna Kill Ya Folks reports that if you force-feed three mice with 75x their body weight of pesticide-resistent plants, the resulting death by lab-worker hand (mouse head, meet bench-top) was caused by GMOs, and happens to agree with your views. Cite it as often as possible and gloss over the fact that the journal editors retracted it based on bad science three weeks after publication. They were obviously manipulated by Big Pharma (see #6).

Frankenfoods6) Any food that contains GMOs is a Frankenfood, guaranteed to turn you into a Herman Munster lookalike riddled with tumors the size of cabbages and to result in certain death. The only reason why most death certificates cite cancer, stroke or heart attack as the cause of death is because the medical profession have been paid off by Big Pharma. Anybody who dies in a car accident was assassinated because they knew too much (see #4, Princess Diana).

7) There are only three types of farmers and ranchers. Large farmers (more than 100 cows or acres) sit in their money-pit all day, cackling and swimming in vaults of gold coins like Scrooge McDuck. Everybody knows they have more money than all the European nations combined; force innocent immigrant workers to apply toxic pesticides whilst only clad in a loincloth made from a flour sack; and are singlehandedly responsible for every incidence of cancer, heart disease and diabetes. Midsize farmers (20-100 cows or acres) are utterly at the mercy of Big Pharma/Big Food and have become mindless zombies, planting whatever mutant seed the corporations tell them to. Small farmers (less than 20 cows or acres) are the salt of the earth and will inherit it come the revolution. End of story.

8) Corporations have billion dollar budgets and their CEOs spend all their time partying with tobacco-smoking lobbyists. Lobbying by small organizations is done by worthy volunteers who’re just trying to make the world a better place for your innocent children. For the love of God, won’t somebody think of the children?

9) If all else fails, invoke the name of the evil that must be named….ahem, Monsanto. If you say it three times into a mirror, an ancient agricultural god will appear and wreak vengeance upon the earth. Honestly, I saw it on Oprah.

*Note that being an “expert” does not involve education, higher degrees or being employed within the industry in question. Nowadays you can only be an expert if you are entirely impartial, third-party, and preferably know nothing whatsoever about the system in question. On that basis, I’m off to write a book about Zen Dentistry.

If Food is the New Religion, Who is the New Messiah?

During the last census in England, there was a social media campaign to persuade people who did not identify with a particular religion, to state “Jedi Knight” in the “religious persuasion” section of the forms. If enough people cited it, it would be officially considered as a religion.

The campaign failed, yet the picture at the top left made me think – just how many people would consider food or “foodieism” to be their religion nowadays? If we consider the concept of “faith” (definition: “complete trust or confidence in someone or something; strong belief in the doctrines of a religion, based on spiritual apprehension rather than proof”), the church sign above appears to explain the behaviors of those who are opposed to specific food production systems or management practices. We can have conversations with the nay-sayers face-to-face, on social media, or even through NY Times competitions, yet if foodieism is a religion, are we wasting our time trying to change their minds with facts?

Fortunately, recent survey data suggests that 94% of consumers buy food on the basis of price, taste and nutrition; 4.4% buy according to lifestyle choices (e.g. organic, vegetarian, local) and only 1.7% are a “fringe” group who wish to prohibit management practices or technologies that have helped us make continuous improvements in food production over the years. Nonetheless, consumers within this small group are extremely vocal, skilled at influencing media and legislation and are devoted to advancing their cause.

Just ask any politician – we can make huge headway influencing the masses in the middle rather than spending time trying to convince a small group to believe in a cause that they are already opposed to. The question is, how do we do so, and how much should we spend time counteracting negative publicity rather than being proactive about food production? If we take the recent lean finely textured beef (LFTB aka. “pink slime”) furor as an example, how many consumers were made aware of the issue not because of negative publicity generated by the media, but because of the huge amount of pushback from our industry via social media? At what point does it make more sense to stay quiet and concentrate our efforts on other issues where we have a chance to move public opinion, rather than fighting losing battles?

Finally, if foodieism is the new religion, who is the new messiah? Michael Pollan, journalism professor preaching food rules and the omnivore’s dilemma? Joel Salatin, wild-eyed prophet of “herbivorous, mob-stocking, solar converting, lignified carbon sequestering, grass-based” systems? Or perhaps Wayne Pacelle, sharp-suited smooth-talker from HSUS? Are PETA billboards and demonstrations the forerunners of foodie door-to-door evangelism? Only time will tell.

Beware the amateur scientist

Consumer trust. It’s paramount. It’s possibly the only way to ensure sustainability (by which I mean the balance of economic viability, environmental responsibility and social acceptability) of any agricultural practice, system or industry.

Yet there’s an inherent issue with consumer trust – no matter how many times I’m reassured that the consumer trusts science, trusts academics, trusts farmers, there’s one group that they’ll trust above all others – the amateur scientist.

You know the one – they did a back of an envelope calculation based on some data from Wikipedia and a couple of those statistics that “everybody knows” (but nobody can source….). They published it on Twitter, it got picked up in a couple of media articles and now it’s FACT. They have a degree in liberal arts with a minor in German organ music from a small school out East and they’ve read everything ever published with “sustainable” in the title. Next thing you know they’ll have their own slot on Food Network and be touring the “sustainable” speaking circuit. After all, they eat food – so they must be an expert!

Everybody knows amateur scientists aren’t biased and have no agenda, because they’re just an enquiring mind – and enquiring minds want to know. They’re more dangerous than an activist with a ready supply of dynamite and as many balaclavas as their Grandma can knit.

(Inspired by this excellent article in the Irish Times)

Beware the amateur scientist…I mean Judderman…when the moon is fat