misleading labels

You’re All Good Eggs: New research shows that specialty eggs aren’t any better for the environment or more delicious

Posted by Margot | Filed under:
Jun 9 2010

Next year, I will decorate Easter eggs and they will have faces. See 39 other pictures of egg face dioramas at The Design Inspiration by clicking on image

Two articles about eggs published last week have rocked my commitment to paying the specialty egg surcharge. I’m still tentatively on the organic, cage-free, local egg bandwagon for animal welfare and health concerns, but I have to admit that even those reasons may be a little flimsy. The four main reasons given for the superiority of specialty eggs are:

1. They’re better for the environment
2. They taste better
3. They’re produced in a more humane way
4. They’re healthier

There may also be an argument for supporting local producers who might employ less exploitative or abusive labor practices, although that’s not guaranteed. In order to help offset the increased labor requirements of non-conventional practices, small and local farms often rely on unpaid interns and family members, including children. Not that I think it’s a major ethical abuse to have your kids gather eggs, but I often feel at least a little pang of sympathy for the kids—often Amish, sometimes very young-looking—manning farmer’s market booths alone. So I’m deliberately tabling the labor issue because 1) I suspect that the issue of labor conditions at small, local farms vs. big, industrial ones is, like so many things related to the food industry, complicated and 2) it’s nowhere near the top of the list of most consumers’ concerns about eggs.

1. Green Eggs vs. Ham

On June 1, Slate’s Green Lantern reported that specialty eggs (cage-free, free range, and organic) have a greater environmental impact than conventional based on land use, greenhouse gas emissions, and feed efficiency (measured by kg eggs laid/kg feed). The article also noted that according to life-cycle analysis, a recent review article by two Dutch researchers found no consistent or conclusive difference between the environmental impact of pork, chicken, milk, and eggs. Beef requires more land, water, and feed, but pound for pound (or kilogram for kilogram—most life-cycle analyses are European), the review, “did not show consistent differences in environmental impact per kg protein in milk, pork, chicken and eggs.”

The Lantern didn’t evaluate the transportation costs “since the majority of the impacts associated with chicken-rearing comes from producing their feed.” For local eggs, the reduced transportation costs might help balance out the increased feed requirement, but that’s just speculation. For cage-free, free-range, organic, or vegetarian eggs, transportation costs probably further increase the relative impact because not only do they travel just as far or farther than conventional eggs to get to the market, there are probably costs associated with transporting the additional feed they require.

I don't remember where I first heard the story about the egg yolk-inspired label, but it's documented in multiple places, including Red, White, and Drunk All Over and the biography of The Widow Cliquot by Tilar MazzeoMy initial response was basically:

Well, that’s too bad, but efficiency be damned, if it takes more feed and produces higher ammonia emissions to treat chickens humanely and produce healthy eggs with yolks the vibrant orange-yellow of a Veuve Cliquot label, so be it. I know specialty eggs are better, I can see and taste the difference.

2. Golden Eggs

Not so much, apparently. The very next day, The Washington Post published the results of a blind taste test of “ordinary supermarket-brand eggs, organic supermarket eggs, high-end organic Country Hen brand eggs and [eggs from the author’s own backyard chickens].” Blindfolded and spoon-fed, the tasters—two food professionals and six “avocationally culinary” folks with “highly critical palates”—struggled to find differences between the eggs, which were soft cooked to ensure firm whites and runny yolks.

And apparently, this isn’t a new finding. It replicates the results of years of research by food scientists:

Had Pat Curtis, a poultry scientist at Auburn University, been at the tasting, she wouldn't have been at all surprised. "People's perception of egg flavor is mostly psychological," she told me in a phone interview. "If you ask them what tastes best, they'll choose whatever they grew up with, whatever they buy at the market. When you have them actually taste, there's not enough difference to tell."

The egg industry has been conducting blind tastings for years. The only difference is that they don't use dish-towel blindfolds; they have special lights that mask the color of the yolks. "If people can see the difference in the eggs, they also find flavor differences," Curtis says. "But if they have no visual cues, they don't."

Freshness can affect the moisture content, and thus the performance of eggs for some applications, especially recipes that rely heavily on beaten egg whites like meringues or angel food cake. But probably not enough for most people to notice. The author also tested a simple spice cake with super-fresh eggs from her backyard versus regular supermarket eggs. The batters looked different, but once the cakes were baked and cooled, they were indistinguishable. Read more

Don’t Drink the Agave-Sweetened Kool-Aid Part II: What’s Wrong With Any High-Fructose Syrup

Posted by Margot | Filed under:
Mar 10 2010

Who knew agaves grew in so many different flavors?

In the first post on agave nectar, I focused primarily on why it’s no more “natural” than high-fructose corn syrup, which is a delicious irony given how both sweeteners tend to be portrayed. But that isn’t necessarily a reason to avoid agave nectar. “Natural” is at best an imperfect heuristic for healthiness or environmental friendliness, and has no inherent relationship with deliciousness. But, as I also suggested in the first post, agave nectar is certainly no better health-wise than other sources of sugar, and the fact that it’s much higher in fructose than most sweeteners (70-90% vs. ~50%) gives me reason to believe it may actually be worse for your health than sucrose or HFCS-55.

So Don’t Drink the Agave-Sweetened Ketchup Either. Because That Would Be Gross.GRANOLA-WASHING

Perhaps the most baffling thing is how many people seem to think agave nectar doesn’t count as sugar. For example, the rave review of Wholemato Organic Agave Ketchup in Men’s Health, contrasts it with the “liquid candy” that is HFCS. And then implies that the even-higher-fructose agave-sweetened condiment is healthier than “fatty” butter (it’s like someone at Men’s Health was specifically trying to give me apoplectic fits): 

This ketchup forgoes the high-fructose corn syrup and uses agave nectar, preserving sweetness without clobbering your fries or hot dog with liquid candy…. Slather it on your sweet potatoes as an alternative to a fatty slab o' butter.

Note: The review is only available on the Wholemato site because the “read more” link is broken, but I’m not inclined to think it’s a fabrication as the other links on their “buzz” page are legit and you can find nearly-identical, equally-apoplexy-inducing claims about Wholemato Ketchup at The Kitch’n, Girlawhirl, i like granola, and Well Fed Man, among others.

There are also people who claim to have given up sugar, but who still eat agave nectar. Some excerpts from the comment thread on Nicole MacDonald’s resolution to give up sugar in 2010:

Jennifer: I went sugar-free at 16 to help my psoriasis & still don’t have it, 8 years later .
I don’t miss it at all. If I want to make a cake or anything I will use agave nectar … you realise there are so many interesting & alive foods out there you can enjoy without compromising your health!! xx

Nicole: I have to admit that in the first few weeks I baked a lot using ingredients like honey, agave and brown rice syrup. Cookies are my favorite to make, and I have a long list of recipes on my blog to the right. I also drank a lot of flavored tea with honey added and that seemed to cure some of my cravings.

Beth: I stopped eating sugar last year and its worked out pretty well. As long as I can have natural sugars which are found in fruits, then I’m totally satisfied.

Not All Things That Occur Naturally In Fruit Should Be Consumed In Quantity. Like Cyanide.

Beth is certainly not alone in thinking that “sugars which are found in fruits” are healthier than other sugars. People are frequently resistant to the idea that fructose might be unhealthy because, as the name so conveniently reminds them, it’s found in fruit. Or, if they’ve been sold on the idea that HFCS is poison and fructose has something to do with that, they sometimes suggest that there must be different kinds of fructose. Take, for example, the comment by Dave on this post by ThursdaysGirl, which expressed some reservations about agave nectar:

[. . .] you say Agave is 70% fructose, ok, so that means that means a teaspoon of Agave (about 4 grams) has about 2.8 grams of fructose… Hmmm, a small tomato has about 2.6 grams of fructose in it, the same as a carrot!… so, by your ridiculous logic, you should run away from tomatoes and carrots as fast and as far as you can! OMG, never eat another tomato! And don’t even get me started on Apples!

Remember, HFCS, regardless of what the lying chemists say, is not a natural source of Fructose. It is a man made molecule. It is illegal to call High Fructose Corn Syrup “All Natural”. I wonder why… Agave can be found both All Natural and Organic!!! Small amounts of Fructose actually help metabolize Glucose better, plus its low glycemic, has natural inulin fiber which is amazingly beneficial [. . . .]

I would trust the Mayo Clinics recommendations as regards to High Fructose Corn Syrup… it is poison. But really, Apples, Carrots, Tomatoes etc all bad for you? Stop it.

It’s actually not illegal to call HFCS “natural.” The FDA has been notoriously unwilling to define “natural” aside from the essentially meaningless distinction between “artificial” and “natural” colors and flavors—which Eric Schlosser talks about extensively in Fast Food Nation (pp. 121-131). As of July 2008, HFCS is “natural” for the purposes of food labeling. You can read all about the ongoing legal debates here. However, that hasn’t stopped people from trying to differentiate “natural” fructose, like the stuff in fruit, from “chemically-produced” fructose, like the stuff in HFCS. The problem is that they can’t seem to agree which side the fructose in agave nectar is on. Read more

Don’t Drink the Agave-Sweetened Kool-Aid Part I: “Natural” my foot

Posted by Margot | Filed under:
Mar 2 2010

UGH the subtitle. I really want Ms. Catalano to show me exactly where in "nature" she gets her agave nectar. Also, I find the use of "ultimate" to mean "exemplary" or "best" instead of "final" or "last" grating, but that's a petty battle against usage change that "Ultimate Frisbee" has clearly already won. Still, I like to think of it as "Frisbee for the End Days" Just as "wholesome" as any other hydrolyzed, refined sweetener. If you've been snarky about the Corn Refiners' Assn's recent "Sweet Surprise" marketing campaign, but have a bottle that looks like this in your cupboard, I have some delicious all-natural snake oil to sell you, good sir or madam.

This entry was nearly titled “Things That Might Not Kill You In Moderation But Certainly Won’t Make You Any Healthier Vol. I,” or “Hydrolyzed, Refined Sweeteners Masquerading as ‘Natural,’ Whole Foods,” but those seemed a little unwieldy. They do, however, capture the essence of the argument: agave is nutritionally no better than most other refined sweeteners, including high-fructose corn syrup (HFCS). If anything, it’s probably worse because it contains more fructose than table sugar or HFCS. It’s also no more or less “natural” than HFCS—it’s actually produced in a remarkably similar process that was first used on the fibrous pulp of the agave in the 1990s. While, as its proponents claim, the higher proportion of fructose has enabled people to call it a “low glycemic index sweetener,” sometimes alleged to be safer for diabetics and recommended by weight-loss programs like Weight Watchers, recent research suggests that large amounts of fructose aren’t healthy for anyone, diabetic or otherwise.

I mentioned agave nectar in passing in the HFCS post, but there’s enough conflicting information about it to merit its own post(s). A lot of the misinformation comes from agavevangelists, who can sometimes get a little sanctimonious about their avoidance of the demon HFCS and preference for “natural” sweeteners. Even this Vegfamily article that concludes “the physiological effects of all [caloric] sweeteners are similar” nonetheless claims:

Given the choice between sugar, HFCS, and agave nectar, I'll stick with organically-grown, unbleached cane sugar (evaporated cane juice) and organic raw agave nectar that are free of pesticides, herbicides, and chemical bleaching agents; not genetically engineered; and still retains some nutrients, as well as being vegan. Since HFCS is not available in organic form and is highly processed, I would never use it.

But agave nectar is just as processed as HFCS.

HFCS and Agave Nectar: One of These Things is Not Almost Exactly Like The Other

1910 magazine advertisement from http://goldcountrygirls.blogspot.com/2009/10/then-and-now-49-karo-syrup.html Like most starches, corn starch consists of large glucose polymers—70-80% the branched, non-water soluble amylopectin and 20-30% linear, soluble amylose. Normal or non-HFCS corn syrup, like Karo, is produced by breaking those polymers down into their constituent glucose molecules using acids, enzymes, and/or heat. For the history buffs: the acid hydrolysis of starch was first discovered because of the 1806 British blockade of the French West Indies. Napoleon I offered a cash reward for anyone who could come up with a replacement for cane sugar, and a Russian chemist named Konstantin Kirchhof found he could produce a sweet syrup from potato starch by adding sulfuric acid. The same process was first applied to corn in the mid-1860s, and gained popularity in the U.S. during the sugar shortages of WWI (source: The Oxford Encyclopedia of Food and Drink in America).

HFCS is produced by converting the glucose into fructose using an enzyme technology developed in Japan in the 1960s (detailed here). The resulting syrup, which contains up to 90% fructose, is then typically mixed with corn-based glucose syrup to produce HFCS-55 (the kind used in soft drinks, which has 55% fructose/45% glucose) or HFCS-45 (the kind used in baked goods, which has 45% fructose/55% glucose). Some people, like Cynthia commenting on Daily Candor, have suggested that the fructose and glucose in HFCS are absorbed into the bloodstream faster because they’re “free" instead of bound the way they are in the disacccharide sucrose, which is broken into glucose and fructose by the enzyme sucrase. Theoretically plausible, but apparently not true:

Sucrose is hydrolysed by brush-border sucrase into glucose and fructose.
The rate of absorption is identical, regardless of whether the sugar is presented to the mucosa as the disaccharide or the component monosaccharides (Gray & Ingelfinger, I 966, cited by H. B. McMichael in “Intestinal absorption of carbohydrates in man”).

I'm going to start refering to packaging like this as granola-washingJust like HFCS, agave nectar is produced by breaking down a plant-based polymer into its constituent sugars. In the case of agave, the relevant molecule is inulin, a fiber composed mostly of fructose units with a terminal glucose. Just like with corn and potato starch, there are different methods of hydrolyzing the sugars in inulin.  Blue Agave Nectar uses a thermic process. Madhava uses an enzyme process, just like HFCS.

Agavevangelists like to claim that agave nectar is a traditional sweetener used by native peoples, which appeals to the popular notion that the foodways of the past were generally healthier (e.g. Michael Pollan’s advice not to eat anything your great-grandmother wouldn’t recognize as food). Some, like Lynn Stephens of Shake Off the Sugar, merely note that the agave plant itself “has long been cultivated in hilly, semi-arid soils of Mexico.” That’s true, although it’s about as relevant as the long history of corn cultivation. Others claim that agave nectar itself has an ancient history. Flickr user Health Guy says of agave nectar: “It is 1-1/4 times sweeter than sugar, so you need less, and it has been consumed by ancient civilizations for over 5,000 years.”

Wrong. According to the website for Madhava Honey:

Agave nectar is a newly created sweetener, having been developed during the 1990's. Originally, the blue agave variety was used. This is the same plant used in the manufacture of tequila. During the late 90's, a shortage of blue agave resulted in huge increases in cost and a sweetener based on this plant became uneconomical. Further research was done and a method using wild agave was developed. Overcoming the language barrier between the Indians able to supply the nectar from the wild agave on their land and the Spanish speaking local manufacturer was the key that finally unlocked a supply of raw material and has led to our bringing this wonderful new product to market.

Still doing some native-washing (wild agave harvested by Indians who don’t speak Spanish—can’t you just feel the virtue?), but here’s what happens to the agave sap after harvesting, as described in the abstract of the 1998 patent issued for the production of fructose syrup from the agave plant:

A pulp of milled agave plant heads are liquified during centrifugation and a polyfructose solution is removed and then concentrated to produce a polyfructose concentrate. Small particulates are removed by centrifugation and/or filtration and colloids are removed using termic coagulation techniques to produce a partially purified polyfructose extract substantially free of suspended solids. The polyfructose extract is treated with activated charcoal and cationic and anionic resins to produce a demineralized, partially hydrolyzed polyfructose extract. This partially hydrolyzed polyfructose extract is then hydrolyzed with inulin enzymes to produce a hydrolyzed fructose extract. Concentration of the fructose extract yields a fructose syrup. (via Patentstorm)

Probably the healthiest sweetener pictured here and the one most shoppers in the market for a "natural sweetener" would be least likely to purchaseIt’s true that the corn used in HFCS is less likely than agave to be organically-grown, but you can get organic-certified corn syrup from the same manufacturer as the blue agave nectar pictured above and nutritionally, the main difference between that, the HFCS used in most processed foods, and agave nectar is the ratio of glucose: fructose. The regular corn syrup is 100% glucose, HFCS is usually 55/45 glucose/fructose, and agave nectar 56-90% fructose, depending on the plant and the process.

I’ve already talked a little about fructose vs. glucose here and here, but more coming soon in Agave-rant Part II concerning:

1) whether the fructose in agave is somehow better than, or indeed, different in any way from the fructose in HFCS

2) whether the fact that it’s sweeter than sugar makes it a lower-calorie alternative to sugar

3) whether its “low glycemic index” rating makes less likely to produce insulin resistance than table sugar and

4) whether it’s safer for diabetics

All of which people have claimed. I won’t keep you in suspense, especially given how long it may take me to put all of that together. The short answers are:

1) not in any nutritionally meaningful way

2) perhaps very slightly, but a <10 calorie/serving difference likely doesn’t make up for the increased risk of fatty liver syndrome and insulin resistance

3) no, it’s actually more likely to produce insulin resistance and

4) in miniscule amounts, perhaps, but recent trials involving diabetics and agave nectar were halted because of severe side effects.

Things That Might Kill You Volume 1: Trans-fats

Posted by Margot | Filed under:
Feb 10 2010

Trans-fats have been in the news sporadically in recent years, thanks largely to the bans passed by the New York City Health Department and the Indiana State Fair. Even consumers who don’t read the news have undoubtedly become familiar with the term because of food manufacturers labeling their products “0 Trans Fats!” (often with a small-print “per serving” which usually means there are trans fats in the product, just less than .5 g per serving) or “Trans-fat free!” whether or not they ever contained trans-fats in the first place.

from Ritz 100 calorie packs: http://2.bp.blogspot.com/_QEJr8TD2el0/Sgh4AvvhknI/AAAAAAAAACw/6Ljvrf8r5hU/s1600-h/transfat4.jpg from http://fastfood.freedomblogging.com/2008/07/30/is-fast-food-complying-to-the-new-california-trans-fat-ban/just don't ask them about their msg content

But there still seems to be considerable confusion about what trans-fats are and why they might be bad for your health, which has likely been complicated by the long, stupid demonization of fats qua fats and saturated fats as a supposed cause of high cholesterol and heart disease.

Trans-fats are trans isomers of fatty acids, and although they occur naturally in small amounts in meat and dairy products from ruminants like cows and goats (in the form of vaccenic acid), the primary source of trans-fats in most Americans’ diets is hydrogenated vegetable oils. Most vegetable oils are composed primarily of unsaturated fats, which tend to be liquid at room temperature. criscoIn the early 20th Century, when the U.S. started importing soybeans as a source of cheap protein, soybean oil became readily available as a byproduct and was far cheaper than butter or lard. However, liquid and unsaturated fats get rancid much more quickly than solid fats, have a lower smoke point, and were unsuited to many American culinary traditions—biscuits and pastry crusts or all “short breads”* absolutely depend on solid fats to create their flaky texture, as explained in the note at the end.

Hydrogenation, a process first developed by French and German chemists around the turn of the century,  provided the solution: heating the liquid, unsaturated fats in the presence of hydrogen turned them into solids at room-temperature. Apparently, cottonseed oil was also far cheaper than the beef tallow used in candles, so that one of the first uses of hydrogenated oils. It took a little marketing work to convince people it was also good eating--the major campaign for years was “Use Crisco, it’s digestible!” (okay, actually that probably just reflected the central nutritional concerns of the early 20th C: indigestion and dispepsia, see Hillel Schwartz’s Never Statisfied.

from a 1915 Saturday Evening Post advertisement, see the whole thing at http://freetheanimal.com/2009/05/know-your-fats.html

However, the process of hydrogenation also creates trans fats, and a different kind from the ones present in beef and dairy products. Unlike saturated fats, trans-fats produced through hydrogenation have been repeatedly correlated with coronary heart disease, including fatal heart attacks, in large, long-term epidemiological studies, including the Framingham Study. A review article on the available research on the relationship between dietary fat and coronary heart disease (CHD) published this past September concluded:

According to the classic ‘diet-heart’ hypothesis, high intake of SFAs [saturated fatty acids] and cholesterol and low intake of PUFAs [poly-unsaturated fatty acids] increase serum cholesterol levels and risk of CHD. However, few within-population studies have been able to demonstrate consistent associations with any specific dietary lipids, with the exception of trans fats and n–3 fatty acids.

In other words, everything you've heard in the last decade about trans fats (bad) and omega-3s (good) actually seems to be supported by the available research, unlike everything you've been told for the last five decades about saturated fats.

However, many of the claims about the threat posed by trans-fats allege that trans-fats raise LDL levels. And it's not at all clear to me that anyone should be concerned about the fact that trans fats might be associated with increased cholesterol, even "bad" cholesterol, for reasons I discuss in the second entry on saturated fat. The only thing makes me think trans fats might actually be bad for people's health is the consistent, strong association between trans fat consumption and increased risk of CVD and myocardial infarction. I know correlation =/= causation, and I haven’t found any good evidence about a proposed mechanism. On the basis of the current evidence, it seems like there’s a difference between the naturally-occurring trans-fats and the ones produced by hydrogenation:

The association was only seen for for trans fatty isomers from hydrogenated vegetable oils. The mainly different trans isomers from ruminant fats did not show such an association. A case-control study in 239 people suffering an acute myocardial infarction found that after adjustment for age, sex and energy intake, intake of trans fatty acids was directly related to risk of myocardial infarction [241]. Those with the highest intake of trans fatty acids had twice the risk of myocardial infarction as those with the lowest intakes after adjusting for other cardiovascular risk factors. As with the Nurses Health Study, the association was only seen for trans isomers from partially hydrogenated vegetable oils. (from a 1995 lit review in the British Food Journal)

Is that because the hydrogenated oils contain linoleic acid, and meat and milk with naturally-occurring trans-fats don’t? I don’t know. I think the most interesting finding from Harvard's Nurse's Health Study, which is one of the studies that did show a weak but significant correlation between saturated fat consumption and CVD, is that the consumption of trans fats was associated with a much higher incidence of CVD than saturated fats. That finding, which is nearly two decades old, should probably be pretty infuriating to anyone who’s eaten hydrogenated-vegetable-oil margarine or shortening in the last two decades because it was supposedly a “healthier” alternative to butter or lard. Similar findings in several other studies prompted the more recent review article to conclude:

The observational evidence that TFA are independently associated with increased risk of CHD events is convincing, though based on a more limited body of evidence.

However:

There is probably no direct relation between total fat intake and risk of CHD.

So the persistent recommendation from public health and nutrition authorities to reduce total fat consumption? Not supported by the available evidence. But the reason this isn’t a  "things that won't kill you" entry is because, well, trans-fats might.

What it means for how I eat

The short version: lard before margarine or shortening, except when the lard is shelf-stable or the margarine/shortening is produced using fractionation and palm oil. Read more