In This Chapter:
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Not a complete protein
Not a natural food
Many contaminants
Extreme processing
Hydrogenation
Soy protein isolate
Genetic modification: DNA roulette
No soy for infants
RoundUp and the international herbicide market
Europeâs stance on genetic engineering
The end of biodiversity
What the real experts say
Who really runs the FDA and EPA
Conventional Wisdom â what everybody thinks. In todayâs world of controlled information, people think what theyâre told to think â over and over and over and over. Mass opinion on most topics is a commodity that is bought and paid for. We donât even know that we donât know.
Abstract? OK. Soy. Conventional wisdom says that soy is a natural protein substitute which can supply our complete protein requirements without the nasty drawbacks of contaminated, high food chain, cholesterol-laden animal protein. Championed by vegetarians, sanctified by Orientals, venerated by health food stores, spotlighted by Madison Avenue with a hint of New Age, soy now rules as the âperfect protein.â
Same with margarine. Weâre programmed to think of cholesterol as bad and the cause of heart disease, etc., so that weâre afraid to eat butter. Then weâre programmed to see margarine as our savior because itâs made from âpure cholesterol-free vegetable oil,â the vegetable being soybeans. OK, great. And then we have millions of pounds of soybean oil separated from the bean, which leaves as a by-product a mountain of what? Right – soy protein. Now, instead of throwing it out or just feeding it to the pigs, Madison Avenue steps in. What if we could program people to think that this artificial food was actually a complete food in itself, and even better, make them think it was a superior form of natural, complete protein? Wow!
And thatâs just what happened. The ads were everywhere:
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âNo Saturated Fat or Cholesterol!â
âEat Better â Live Betterâ
âGreat-tasting meatless alternativeâ
Not just dairy products, like soy milk, soy butter, soy cheese. No, now we have soy yoghurt, soy ice cream, soy flour, soy baby formula, soy sloppy joes, soy tacos, soy chili, soy cereals, soy falafel, soyburgers, etc. ( www.fantasticfoods.com) Whatâs next? Soy Pepsi?
Hopping on the flailing Vegetarian bandwagon, soy is hawked as a complete meat substitute, as well as a dairy substitute. This is a marketing masterpiece. Who do you think is directing the show? Nutritionists? Dieticians? Doctors? Try MBAs and CEOs of the worldâs top chemical cartels, together with the countryâs top ad and marketing people. What do you think their focus is? Your health? Your childâs well-being? Will they blatantly deceive you, compromise your childrenâs heath, whip up endless âscientificâ reports from their junk science research masters, pervade the popular press with unsupportable claims about soyâs health value and tasty âhealthfulâ recipes? Well, ask yourself – did they go to business school to learn how to improve our nationâs health?
Doesnât it seem odd how we all became so wise about soy in just a few years? Subconsciously we congratulate ourselves on having the wit to have discovered this perfect food that was right under our noses the whole time.
Thatâs not even mentioning Genetically Modified hydrogenated soybean oil, now present in over 60% of food items on the shelves of American supermarkets. Itâs the main ingredient in most commercial pies, cakes, ice cream, chocolate candy, donuts, pastries, cookies, salad dressings and a hidden ingredient in practically everything else. How did all this happen in just a few years, and how come most of us donât know a thing about it?
A LITTLE PERSPECTIVE
Letâs back up a little. The slightest bit of collateral research shows that the prom queen is pregnant. Even at the outset, there are a lot of problems with soy:
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Soy is not a complete protein
Soy is not a natural food
Soy has many contaminants
Soy is among the most processed of commercial foods
Most US soybeans are genetically modified
Letâs just look at these simple points one at a time.
NOT A COMPLETE PROTEIN
What does that mean? Why is it an issue?
Most of us know that humans require food in 3 main forms: fats, protein, and carbohydrates. Because thatâs what our bodies are made of. And we also know that humans require certain forms of these three substances. Snake venom is loaded with protein, for example. So is sewage, and so is your desk. The idea is that humans require a certain type of protein for survival. And that type is described as complete protein.
What are proteins made of? Right, amino acids. Complete proteins are those that can supply the essential amino acids necessary for building and maintaining human cells. In this context, essential means those we must get from our diet. So if a given protein can be broken down into the 10 essential amino acids that we must get from our diet, itâs a keeper. ([1]Erasmus, p. 82)
All cultures have combinations of food staples that yield complete protein: beans and rice, beans and corn, beans and wheat, etc. The point is, no bean is a complete protein because beans lack two of the most important essential amino acids â cysteine and methionine â the only ones that contain sulfur. (Erasmus) Corn and rice supply these two. But a diet in which beans are the only protein source causes an abundance of health problems from the ensuing protein deficiency.
In his classic work, Nutrition and Physical Degeneration, Weston Price proved 80 years ago that raw dairy can well provide the complete protein requirements for human nutrition. He traveled around the world studying culture after culture, looking for the perfect diets. In isolated villages of the Swiss Alps, Price found the healthiest people in Europe â those with the finest physiques and least incidence of degenerative disease. Their total diet: raw dairy and rye cakes. Thatâs it.
Raw milk is not only a complete protein â it also provides fat soluble vitamins A and D in their most perfect form. So these Swiss were getting their total requirements of essential amino acids from this complete protein source, as well as their fat soluble vitamins. They had no tooth decay, cancer, arthritis, or diabetes.
Noneof this applies, of course, when pasteurized milk took over. Just the opposite, in fact. As we saw in the Enzymes chapter (www.thedoctorwithin.com) when enzymes are artificially removed from milk by pasteurization, the result is a non-food. Dairy products then become indigestible foreign proteins, sensitizing allergens, and the cause of chronic arthritis, osteoporosis, colitis, arteriosclerosis, heart disease, and asthma. And this is why milk is no longer a complete protein and is just another junkfood. ([33, 10, 34, 35] Robbins, Twogood, Douglas, McDougall)
At least with milk, the original substance before processing was a complete protein. With soy, it was not.
NOT A NATURAL FOOD
Soybeans are not like other beans, like lima beans and pinto beans, that people can just cook and eat.
In ancient times, soy was used only in crop rotation as a nitrogen fixer. That means that certain bacteria on the rootlets of the soybean plant are able to restore nitrogen to the soil. Soy was planted in fields in alternating seasons for this purpose, because most crops use up the nitrogen in the soil during their growing season. Nitrogen depletion = soil depletion. Originally soy wasnât a food crop itself. This was before Baron von Leibig [13] came up with the idea of adding NPK (Nitrogen- Phosphorus-Potassium) to the soil instead of rotating the crops. (See Minerals)
After the harvest, the soybeans were then fed to the domestic animals, or else just turned under for the next crop.
Later, people found that if soybeans were fermented for awhile, they were humanly digestible. Examples are tempeh, miso soup, and soy sauce. Later still, the farmers learned that if the soybeans were precipitated into curd form, the result was edible as tofu. The point is, soybeans alone are not a natural food. Unlike other vegetables, soybeans take a lot of time and changing in order to be digestible at all by humans. It is only through mass advertising and marketing that we have forgotten that before modern processing methods, soybeans were never a staple food.
The main reason for this is that soybeans contain so
MANY CONTAMINANTS
First off, soybeans contain high amounts of enzyme inhibitors, particularly blocking trypsin and other human digestive enzymes. (Erasmus) We saw the importance of digestive enzymes in the Enzymes chapter. These enzyme inhibitors are not removed by cooking. They interfere not only with their own digestion, but with digestion of other foods in the tract that happen to be present. How can a food that blocks digestion be beneficial?
The second main contaminant is soyâs extremely high content of phytic acid. Present to some degree in all types of beans, phytic acid blocks mineral uptake — iron, magnesium, calcium, and especially zinc. These minerals are necessary for dozens of cell life functions, and deficiencies of any of them can cause several diseases (See Minerals â www.thedoctorwithin.com ) Soybeans have the highest levels of phytic acid of any legume, and as such have an extraordinary ability to cause mineral deficiencies. (Leviton) For this reason, even the high temperature cooking that is the first step in soybean processing does not completely remove the phytic acids from soybeans. (Finucan)[2]
Researchers have known for years that phytic acid blocks mineral absorption. (Keen)[3] This is especially bad news for infants, because soy chelates all zinc from the babyâs system. Zinc controls iron uptake. Without it, abnormally high iron levels are allowed. Excess iron harms the liver.
Zinc is also critical for growth and brain and nervous system development, as well as protein digestion. (Guyton, p 900)[5]. Neurological development retardation is exemplified today in the unprecedented rise of learning disabilities, attention deficit, Guillain Barre, and autism. ( https://thedoctorwithin.com)
Zinc is also necessary for normal insulin function and for immune system development. These are just some of the reason why no baby should be given refined soy as soy milk. Nor should an adult who doesnât want zinc deficiency, which in the US runs as high as 60%. (Erasmus, p 75)[1]
Even the American Academy of Pediatrics admits that early exposure to soy through commercial infant formulas may be a leading cause of allergies among older children and adults. (Finucan)[2] So if your baby has any allergies or asthma whatsoever, soy is the last thing you want to use as formula.
Difficulties in the chemistry encountered in attempting to remove the phytic acid is the main reason why the processing of soybeans is so harsh, as we will see. Enough phytic acid remains in the final soy products to cause mineral deficiencies.
A less commonly known contaminant of soy is hemaglutin âa clot-causing agent (Finucan)[2] As the red cells are made to clump together, the oxygen supply to the entire body is thus diminished. Such circulatory disruption is hardly an attribute of a perfect food. The dangers of soy in the diet of those who already have a history of heart problems should thus be apparent. High temperature cooking during soybean processing does not remove hemaglutin from soybeans.
Fallon also points out that soy has an aluminum content 10x higher than pasteurized milk. An established cause of Alzheimerâs in adults, aluminum damages the newly forming kidneys of an infant when they drink soy âformula.â ( p 4) Worse yet, aluminum directly damages the infant brain, because the blood brain barrier has not formed yet. (Blaylock)[28] Aluminum content is increased even more if the product has been hydrogenated, like it usually is. (See below.)
Finally, a by-product of one of the steps in soybean processing âalkaline soaking â is a known carcinogen: lysinealine. (Finucan)[2]
Some âperfect food.â Maybe thereâs a reason nature didnât intend this food for humans.
PROCESSING
Finucan illustrates the paradox that the same processes used to render soy edible are the very processes which render soy inedible.
Soybeans are processed into oil, protein isolate, and protein concentrate. Extreme methods are employed because of the necessity for trying to get rid of the phytic acid and enzyme inhibitors. Unfortunately, all the enzymes, minerals, fiber, vitamins, and nutrients are also lost along the way. At each step towards the end products of soybean oil or soy protein, more of these natural nutrients are lost. The end products â commercial soybean oil and soy protein isolate – are totally artificial, devitalized commercial foods.
An excellent chart of the steps involved in oil processing is found on p.94 of Fats That Heal.[1] The following few paragraphs summarize those steps.
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Cooking
The first of these methods is high temperature cooking. The purpose is to try and get rid of some of the phytic acid. As we know, high temperatures above 118°F denature the natural enzymes of the bean. (Howell)[14] Soybeans are first heated to temperatures up to 248° F! (Erasmus, p 95)[1] Without enzymes, any plant becomes a devitalized food, very difficult to digest in the human tract. In addition to interfering with breakdown of the food, enzyme depletion also interferes with mineral absorption as well as vitamin activity.
Remember that enzymes, vitamins, and minerals are three legs of the tripod of metabolic activity. That means cell and tissue function. Take away any one and the other two are stumped. Mineral activity was already a problem with soy, because of the phytic acid. Superheating and enzyme loss compound this deficiency.
In addition, a constant problem with oil processing is rancidity, which means oxidizing when exposed to air and light. Oxidation produces the dread trans-fatty acids and a boatload of free radicals. There are two chemical terms: cis and trans, used to describe the shape of a fatty acid. Humans require natural fatty acids, which are in the cis form. Processing changes the cis forms to the unnatural trans configuration.
Trans fatty acids are manmade â something nature would never have dreamed up. Trans fatty acids cannot be broken down by human fat enzymes. They cool down to hard fat, just like bacon grease in that unwashed skillet left in the sink overnight. Imagine the implications in the arteries and in the intestines, to be eating foods that canât be broken down. Erasmus explains how superheated oils are 100x more reactive to oxygen (p. 95), thus becoming a potent vehicle for free radical introduction into the consumerâs body. We have seen how free radicals are the direct cause of aging, heart disease, and cancer. Thatâs why products containing trans fatty acids are actually illegal in Holland.
After the cooking, one of two paths is chosen for removing oil: pressing or solvent extraction.
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PRESSING
After cooking, the beans may be extruded through a press for maximum oil extraction. Shallow conventional wisdom says that as long as the oil is cold-pressed, everything is fine. This idea is false, as we shall see.
Erasmus explains why the term cold-pressed is meaningless. People think that cold-pressed insures that the nutrients will remain in the oil because heat wasnât involved in the processing. The first problem is that what they donât tell you is that the beans were already cooked at these superhigh temperatures before being put into the press. As long as no heat is added in the actual press, they can call it cold-pressed.
Huge oxidation already took place at the cooking step. Much worse than the heat, the main problem however is the free radical production from exposure to light and air during the pressing process. This is where rancidity and trans fatty acids come in. To have a true unrefined wholesome food-grade oil, it is critical that air and light be meticulously excluded throughout the pressing step. The oil must then be put immediately into amber bottles. A very small percentage of soybean oil is processed in this way.
Unrefined oils of any kind must come in amber or opaque bottles.
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Solvent extraction
Besides pressing, an easier but more toxic method of oil extraction is the use of solvents. Several are used in the soybean oil processing.
The first solvent used on soybeans is an alkaline solution which will attempt to get rid of the trypsin inhibitors. (Fallon, p 3) Even though the solution is thoroughly rinsed out of the beans, a carcinogenic by-product results from the interaction of the soybeans with the alkaline soak: lysinealine, as we saw above.
Next, for oil to be extracted, an organic solvent â hexane is the standard chemical employed. (1997 Soy Stats)[4] Like gasoline, hexane is a petroleum distillate! (Dorlandâs p322) Temperatures of up to 149°F are applied. In the rinsing process, traces of this carcinogenic solvent are left behind in the finished products, both in the oil and in the protein isolate.
Degumming
The next step in the refining process is the removal of residual fiber, or gum, from the oil. Water, phosphoric acid, and heat (up to 140°F) are used. This is the same step in which lecithin is separated from the oil. The problem is that valuable trace minerals like calcium, copper, magnesium, and iron, as well as chlorophyll are all removed at this step. (Erasmus p96)[1]
Lecithin is a common ingredient in foods and supplements. The majority of it is derived from soybeans during this step. Note all the preceding steps â some health supplement.
Drano
This one I didnât believe, but itâs true. The next step is that the refined oil is mixed with sodium hydroxide â NaOH â which most of us know as Drano, at a temperature of 167° F. Thatâs right â the exact same corrosive lye you pour down your drain when itâs clogged. (Erasmus, p 96) The purpose of adding this corrosive is to remove any free fatty acids which may be âcontaminatingâ the âpureâ refined oil. Anyone for a Dranoburger?
Bleaching
By this stage the oil still retains some pigments, giving it a reddish brown appearance. Since thatâs not the desired âpureâ look that customers have been trained to expect, clay is added, heated to 230° F, then filtered out. This high heat again causes the formation of the toxic free radicals, called peroxides. In the presence of air or light, their formation is increased geometrically.
Deodorizing
Next the oil is steam-distilled at 518°F for 30 minutes, to destroy any natural aromatics from the dead, refined oil. Note the incredibly high temperature. At 302°F trans fatty acids begin forming. These weird, manmade molecules are mutagenic to human DNA â they can alter human DNA. Trans fatty acids exist nowhere else in nature â man has created them. As the temperature is raised higher, trans fatty acid production increases geometrically.
After deodorizing, the oil is absolutely tasteless, and cannot be distinguished from any other processed seed oil. The oil is now devoid of any vitamin, mineral, enzyme or nutrient content whatsoever. And even though it has undergone extreme high temperatures at several steps, as long as no external heat was added during the pressing step, the oil can still be sold as âcold-pressedâ!
Sometimes mixtures of pressed oil and solvent-extracted oil are sold as âunrefinedâ oil. These types of labels are simply unregulated. (Erasmus)[1]
Reviewing this summary of processing steps, it is a wonder that processed soybean oil is allowed to be sold at all or to be made into margarine and cooking oil, let alone for claims to be made about its nutritional superiority. But this is still not the worst of it. The real bad news is
HYDROGENATION
As if no further biological indignity could be levied against the already lifeless processed oil, way back in the 1930s, the boys at Dupont figured out a way to harden the oil into a perfectly engineered non-food: margarine. Their only two criteria: spreadability and shelflife.
At least 80% of margarine made in the US comes from refined soybean oil. (Erasmus). Scientists found out that if they subjected the refined oil to yet another round of infernal temperatures â up to 410°F â and forced hydrogen gas in the presence of a metallic catalyst through the oil for five or six hours, the result was a substance possessing the desired spreadability, as well as a shelflife that can be described as âFrom Now On.â
Thatâs what hydrogenated means.
Margarine is another quantum level removed from anything resembling human food, and actually is closer to the category of plastics. Since all the Essential Fatty Acids (usable fats) have been destroyed, and all the enzymes are long gone, there is nothing left to âgo badâ â it canât spoil.
Guess what their favorite metal catalyst contains. Right â itâs usually 50% aluminum. Neurological disorders, Alzheimerâs, cancerâŚ
There are two types of hydrogenation:
Partial
Complete
With partial hydrogenation, weird unpredictable âintermediate compoundsâ are formed from the surviving fatty acids. These include the mutagenic (gene-altering) trans fatty acids. But scientists themselves donât even know what kinds of molecules are being created by the hydrogenation of fatty acids. They vary completely from batch to batch, and with different temperatures and catalysts. These molecules should be thought of as random toxic additives.
The only reason hydrogenation is legal is that it has been around for so long. When it was invented, the effects werenât well understood. Now decades later, with billions in lobbying money in place, a few details like cancer and Alzheimers arenât going to get in the way. Who controls which âscientistsâ get published?
The commercial value of partial hydrogenation is that the density of the desired final product can be precisely controlled: semi-liquid, margarine, shortening, hard (for chocolate), or anything in between.
Hereâs a good way to think of hydrogenation. In the old days of potato chips, if you left the bag open all night, next day the chips would be limp and soggy. Today we have potato chips that are crispy to perfection. You can leave them out on the counter for days and theyâll still be perfectly crisp. Sealed potato chips in those round, perfectly stacked tubes will last a year or more! This phenomenon has nothing to do with food or nutrition. It is a masterful feat of plastics engineering. The potato chip has been completely soaked in hydrogenated oil, protected from the external environment – kind of like dry mounting a photograph, or polymerizing a marlin youâre going to hang over the fireplace. Once inside the stomach, the chips continue to do what they were designed to do: resist breakdown. The food value for humans is in the negative.
And pasta. In the body, hydrogenated foods contribute to
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aging
cancer
tissue breakdown
digestive disease
clogged arteries
arthritis
Alzheimerâs
neurological diseases
The fiction that hydrogenated margarine is superior to butter can be seen for what it is: marketing hype â Madison Avenue on Ecstasy. And the reason is what â no cholesterol? Please! Of course margarine contains no cholesterol â itâs closer to a plastic than to a food. Thatâs why soybean oil is also used as the base for paint, varnish, and linoleum! (Bernard) [9]
Without artificial flavoring, margarine would taste like a formica desktop.
Start looking at labels. Youâll see why theyâre printed in micro-fonts. When you see the word âhydrogenatedâ think plastic. When you see the words âpartially-hydrogenatedâ think plastic and free radicals.
Itâs not only margarine, salad oil, and cooking oil. Hydrogenated oil is a mega industry. What is the #1 oil in the food industry? Soybean oil! Soybeans account for 82 percent of the edible consumption of fats and oils in the United States Some 6 million tons of soybean oil are produced every year. . (Soybeans Stats Reference Guide) And 60% of all foods on the shelves of Americaâs supermarkets contain soy in some form or other. (Wolfson)[2]
SOY PROTEIN
The phenomenon surrounding the soy protein fad is more recent. With 10 million tons of soybeans being made into oil every year, [36] there was a lot of product waste. After the oil was removed, what was the waste made of? What was left? Protein. So again, who is trained to see an angle in every situation â Madison Avenue. Advertising steps in and sets it up: what are two things that Americans are obsessed with? Obesity and cholesterol.
The latest fad in weight loss is the high protein diet. Skip all those nasty carbs and fats â just eat meat and fish. Then watch the poundage melt away. But wait! What about all that cholesterol? Oh yeah, thatâs bad for the heart, isnât it? Hey, isnât that soy stuff supposed to be the best healthy protein for you these days? Yeah, think Iâll try those soyburgers â get all my protein requirements with none of the cholesterol downside.
This thought conditioning didnât just happen. Itâs been coming on for years, with persistence and saturation. It costs millions, and we can see it every day: in newspapers, magazines, TV, in supermarkets, on the internet, in junk science articles â anywhere thereâs advertising.
A few problems right off the bat. Soy protein is a by-product of oil processing. Originally it was either thrown out or used as animal feed. Fact is, soy protein has already been through all the oil processing steps before beginning the additional processing for protein. That means weâre starting with a dead substance.
A summary of how protein is derived from soybeans can be found at http://www.spcouncil.org/defs.html. [12] Hereâs an excerpt:
Soy Protein Isolates
âIsolates are the most highly refined soy protein products commercially available. They represent the major proteinaceous fraction of the soybean. Soy isolates are prepared from dehulled and defatted soybeans by removing most of the non-protein components as summarized in the accompanying chart.
. ..The protein is extracted from defatted soybean flakes with water or mild alkali in a pH range of 8 to 9 followed by centrifuging to remove insoluble fibrous residue; adjusting resulting extract to pH 4.5 where most of the protein precipitates as a curd; separating curd by centrifugation from the soluble oligosaccharides, followed by multiple washings, and then spray-drying to yield an ‘isoelectric’ isolate.â
Like with most grains, the majority of vitamins and minerals are in the hulls. De-hulled and de-fatted. This simply means that after all the fats have been burned away by heat and solvents, the carbohydrates are soaked and spun out of the remaining residue. Whatâs left over is technically protein, but again protein which has no remaining food value. The con here is itâs protein derived from a bean, so therefore it must be natural. But three big problems persist:
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1. As we have seen, this particular bean has some properties which do not make it suitable for human nutrition.
2. And we also remember that no beans contain complete protein
3. And this protein is already the by-product of some of the harshest most life-destroying food processes ever devised, containing no surviving nutrients
Soy protein isolate is big business. One of the biggest producers of soy protein is Protein Technologies International of St. Louis, a DuPont subsidiary. (Finucan)[2] We must appreciate the brilliance of taking a waste product from an already extremely processed food source and getting the majority of the population to think of this dead by-product as a food staple.
In general, the vast majority of soy products today are examples of a super-refined artificial food, devitalized, and devoid of nutritional value. It is a true food of commerce, as Royal Lee would have said.
THE MAGIC BEAN
Why doesnât anyone know about all this? How can we go from a perfect food to a non-food and have 99% of the population know nothing about it? When this familiar scenario appears, it always means one thing: time to follow the money.
In that regard, hereâs some interesting statistics:
Today, the soybean is America’s third largest crop (harvesting 87 million acres in 2021), supplying more than 60 percent of the world’s soybean demand. USDA report [39]
US Soybean production – 2016 – over 4 billion bushels [37]
US soybean oil production is now over 10 million tons. [36]
US Soybean Crop Value
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$ 115 billion
– [40] NOPA Report
By 2000, crop value is close to $20 billion per year. Keep in mind, this figure does not take into account the retail market of the dozens of finished soy food products sold in supermarkets. That total probably approaches $100 billion. But itâs not just the soyburgers and margarine and cooking oil and soy milk. We often get a
HIDDEN SURPRISE.
Now present in 60% of Americaâs foods, soy turns up in a lot of places where itâs not even listed as soy. Names like
âvegetable flavoringâ
ânatural flavoringâ
âvegetable shorteningâ
âhydrolyzed proteinâ
âtextured vegetable proteinâ
are all that is required by the FDA. Generally these terms indicate that the product contains hydrogenated soybean oil, probably from GM plants.
GENETIC MODIFICATION
Wait, thereâs more! Just when you think the picture couldnât possibly get any worse, we descend to a new rock level of political and economic depravity: genetic modification. More than 58 million acres in the US are now planted with GM crops. (Teitel, p 17) In 1996, the figure was only 6 million! Most, if not all soybeans now produced in this country have been genetically modified. (Lappe)
Also called biotech, agritech, transgenics, genetic engineering, and agriscience, this topic is undergoing the usual media whitewash. Itâs one of those subjects everyone thinks he knows about when itâs brought up â the popular press rarely feels the need to explain the term. In actuality, very little is commonly known about the specifics of this horror unleashed.
Exactly what is genetic engineering?
âGenetic engineering is the process of modifying cell information, particularly by artificially transferring the genes of one organism into another. While traditional breeding techniques can exchange genes between similar species, genetic engineering allows the insertion of genes from any plant or animal into any other organism. â
– R. Wolfson, PhD
From any plant or animal into any other organism. Bacteria into tomatoes. Virus into soybeans. Scorpion into virus. Iguana into an oak tree. Itâs all doable. But what would be the advantages? Why would the agribusiness giants go to all this trouble?
Many reasons, all of them ultimately economic, most having to do with selling herbicides. [From here on out âGMâ will indicate genetically modified.] A GM tomato â New Leaf â has been engineered to splice a gene into its DNA from a bacterium, in order to produce a plant that is its own pesticide. (Pollan) A bug takes a bite of the plant and drops dead. Farming efficiency â no pesticides. Is it safe for humans? Who knows? It was never tested before being marketed. And when distrustful American consumers rejected the New Leaf tomato causing it to be pulled off the market, Monsanto just changed its name to McGregor and reintroduced it the following year. Only this time they were smarter: this time there was no GM label. (Lappe, p. 117)
Many other crops, like soybeans, have had a gene inserted that makes them resistant to herbicides. (Wolfson) In this way, they can withstand more herbicides being sprayed around them to kill weeds and other plants. Nice clean fields, with only soybeans. Farming efficiency â less weeding. But isnât there a toxic buildup of herbicides within the GM soybean plant itself, known as bioaccumulation? Or increased pollution of soil and water? How about unpredictable effects in the soybean DNA? Of course, but these arenât the scientistsâ problem.
DNA ROULETTE
Donât be so impressed: genetic engineering is really not that scientific, as true scientists will tell you. Beginning to study GM, one is struck by the inexactness of the âscience.â
The isolated gene is shot or inserted into the host DNA completely at random â they have no idea where the novel gene will end up in the gene sequence. This also means that the âengineersâ donât know how the new gene will be expressed â what it will do. That why it takes thousands of tries before they get a plant with the desired trait.
Once a plant has the desired trait, itâs a keeper. Its seeds are replanted and saved, and often even marketed after one single generation. Such a method ignores the entire principle of the recessive gene â some traits arenât expressed right away â they may be latent for a dozen generations. And those traits may be harmful to humans.
THE LAST ROUNDUP
With soybeans, the GM version is called Roundup Ready soybeans. RoundUp is one of the most powerful herbicides ever invented. Roundup Ready soybeans have been genetically modified so that they can take up to 10 times the amount of RoundUp as natural soybeans can. The idea is that the herbicide will kill the surrounding weeds but not the soybeans. Everyone seems to ignore the fact that the soybeans are assimilating 10x more herbicide than before.
The other main thing that nobody seems to know is that after just a few short years, by 2000, almost all commercial soybeans grown in the US were GM! (Lappe, p 58) [31]Today it’s 100%.
Itâs all economics: the inventor of RoundUp Ready soybeans is the same as the inventor of RoundUp: Monsanto. Monsanto owns the patent on the GM soybean as well as the patent on the herbicide. (Benbrook) Monsanto sells over $2 billion of RoundUp each year. (Teitel, p. 77)[30]
You probably missed that, so here it is again. Monsanto owns the patent on a GM soybean called RoundUpReady. Owning the patent means that the farmers canât save the seeds each season for the next planting, the way theyâve been doing for the past 10,000 years. Nor can they exchange seeds with their neighbors. Instead, they have to buy new seeds each year from Monsanto, which cost 3x as much as normal soybean seed. And the reason the farmers do this is so that they can save money on labor and herbicide â they only have to spray twice a year, because the herbicide RoundUp kills all the weeds but not the soybeans.
Are you following this? Monsanto owns patents on both the seed and the herbicide. They make money both ways, and they control the farmersâ future. Small farmers are being edged out â by 1998, 2.2% of Americaâs farms accounted for more than 40% of total farm income. (Lappe, p. 99)[31]
Are RoundUp Ready soybeans in any way better than natural? No. Actually theyâre worse. All this talk about âfeeding the worldâ is slick PR. Monsanto has never proven its claims of increased productivity. In fact most independent studies have shown that RoundUp Ready GM soybeans actually decrease productivity, acre for acre. (Against the Grain, p. 82) [31]
Funny thing that the only crops being developed by the biotech corporations to âend world hungerâ are coincidentally those for which those companies already own the patents on the herbicides.
Another downer is that the original value of soybeans was as a nitrogen fixer in the soil, remember? RoundUp destroys this power.
An even worse problem is that RoundUp makes agricultural workers sick: it is now the third most common cause of illness in California agriculture workers. (Teitel p. 30) Nine verified deaths happened in Japan from accidental ingestion of RoundUp. (Lappe, p. 54) [31]
Another huge problem that is being ignored is herbicide drift. That means that nearby non-GM crops get contaminated or killed by RoundUp that the wind blew over to them. There are many unresolved lawsuits currently in the courts from affected farmers.
Like two thirds of all GM plants, soybeans have not been altered for any demonstrated nutritional reason whatsoever. (Against the Grain, p. 55) Despite the unsupported claims of increased productivity and nutrition, the reality is that GM is just a complex marketing tool to sell herbicides. The grand design for corporate dominance over entire crops is the reason why Dupont, Monsanto, and Dow are buying up the worldâs biggest seed companies:
-
Hartz
Asgrow
Holden
Naturemark
DeKalb
Delta & Pineland
Stoneville Pedigreed
Gargiulio
Against the Grain, p 39 [31]
Whoever controls the seed controls the crop.
THE LONG TERM PICTURE
One reason that organizations like Greenpeace are opposed to GM farming is that it disrupts what is known as sustainable agriculture. There is an ecological continuity in agriculture from one year to the next, a dependence. So many factors in this yearâs soybean crop affect next yearâs. Any weaknesses – or strengths – will be felt next year.
With GM, when the inevitable failures become apparent down the road, the weaknesses may be profound enough to cause a gap in the yearly chain â no crops.
Even Monsanto knows that weeds will soon learn to be resistant to RoundUp. Probably within 10 years, it wonât work any more. By that time, however, most soybean farmers will be committed to Monsanto, having signed technology agreements. If farmers try to go back to planting nonGM soybeans, they will be years behind in catching up with natural evolution of the plants. The soil will be much weaker from having gone all those years without the classic soybean benefit of nitrogen fixing. It is likely that everyone will learn the meaning of short term thinking.
Using any single herbicide or pesticide year after year will encourage weeds and pests to become resistant, so itâs ultimately a self- defeating process. Itâs great for the manufacturers of these poisons, however, because new ones are always waiting to be tried. But not only are we poisoning ourselves and our animals in the process; we are also destroying the natural flora (microorganisms) in the soil. Good soil must be living soil, full of microorganisms. Much of our soil is almost dead.
Herbicides and pesticides are themselves a disease. As their use grows, we lose a greater percentage of crops every year. How does that help world hunger?
âIn the past 40 years, the percentage of annual crop loss to insects and disease has doubled.â
Lappe p. 102 [31]
During that same period, US pesticide use has gone from 200 million pounds in 1945 to over 2000 million pounds.
This whole GM business is about one thing: the sale of herbicides and pesticides. If the huge agritech companies were really interested in increasing world crop production, why have they spent no money experimenting with existing seeds banks to try to alter genetics in a natural way? All efforts are in the area of herbicide resistance.
The goal of GM is uniqueness: patentability. The developer wants to claim ownership of the new plants, the same way he owns the herbicide. And soon the farmer.
THE ANGLE
Taken together, the sale of soybeans, hydrogenated soybean oil, and retail sales of finished soy products, itâs a very big picture, now exceeding $100 billion per year. Remember, soy now appears in some form or other in 60% of the foods on the shelves in American supermarkets. (Gerson Newsletter, also Wolfson) [20]
This huge market orchestrates the enormous outflow of âinformationâ about soy that is visible in the popular press, advertising venues, and the Internet.
So then, who are the
TOP PLAYERS
The three biggest US companies involved in genetic engineering of soybeans are:
-
Monsanto
Dow Chemical
Dupont
Arenât these the same gentlemen who brought us saccharin, aspartame, Agent Orange, dioxin, fluoridation, napalm, bovine growth hormone, RoundUp, Chlordane, and a host of carcinogenic industrial solvents including
-
PCBs
PCEs
TCEs
vinyl chloride
freon
– âSilicon to Soybeans,â p 26 [19]
So from the outset we can expect the highest in ethics and environmental consciousness, right?
Aside from the huge profits in retail sales of finished soy products, a separate fortune emerged with genetic modification: the Terminator plant. As we saw above, this new hybrid plant produces sterile seeds. With most crops, farmers collect the seeds, to be used for the next planting. But Terminator seeds donât grow. Therefore the farmers are forced to go back to Monsanto every year to buy more seed, thus putting control of agribusiness in the hands of the GM giants. Farmers who canât save seeds year after year, like theyâve been doing since the dawn of agriculture, can be made into compliant serf robots. (Teitel, p. 99) [30]
By the way, guess how the seeds get sterilized. Theyâre soaked in tetracycline, a powerful antibiotic. (GM Foods, p. 40)
OPPOSITION TO GM
Like Japan and most of Europe, many countries, are opposed to the sale of GM produce. England is a prime example:
-
âMonsanto claims in its letter to me that there is no difference between?ordinary soya beans and what it calls round-up soya beans, and therefore?that they should not be segregated. I maintain that members of the public?who notice what is going on simply do not believe that, and will?increasingly demand to know what is in the food they eat – roundup or?otherwise… the Government and the EU should resist the power of the giant?food companies in the United States, which are effectively dictating what?we must eat, without giving any convincing estimates of the long-term?effects.”? – Colin Pickthall, Member of Parliament for West Lancashire, speaking in
the House of Commons, 13th December 1996?Canadian Government report on toxic effects of BST [15]
Some of Europeâs reactions to GM:
-
The Austrians are really against GM foods. Fully 20% of their population signed a petition, not just to label, but to ban GM foods from their country. Biggest petition in history.
Denmark requires full labeling of all GM foods.
Switzerland destroyed 500 tons of chocolate when they learned it contain GM soy lecithin.
Luxembourg, Italy, and Austria have banned importation of GM corn.
All GM foods sold in the European Union must be labeled.
– Lappe, 121 [31]
The entire EU and India have now stopped allowing experimentation with GM foods in the field until more is know about long term effects of genetic manipulation. (Teitel p.72) [30] Japan also has strict labeling requirements for GM foods.
Even we normally complacent, sheeplike Americans were starting to speak up. 500,000 signatures were on a petition that was presented in Washington at a summit meeting in June 1999 on GM food demanding that Congress and the FDA now require labeling on GM foods. (Allen) [25]
NO LABELS â THE USDA, FDA AND EPA TOE THE LINE
Despite strict labeling requirements for GM foods in most other countries, especially in England and the EU, as well as all the worldwide opposition, at the present time the FDA requires no GM label either on produce or on finished retail products. Therefore American consumers have no idea if the foods they are buying at the supermarket contain GM soy. With heavy interconnections with the Big Three GM companies, both the FDA and the EPA are playing Spin the Bottle, each coming up with semantic technicalities about why itâs not their job to regulate or require reporting of GM ingredients.
Clintonâs FDA appointees had so many connections with Monsanto, before, during and after their FDA tenures, that the Toronto Globe went so far as to refer to Monsanto as a âretirement home for members of the Clinton Administration.â (Teitel, p 64) [30] With million-dollar positions waiting for them after they leave the FDA, the officers will not be disposed to bite the hand that feeds them, during their tenure.
Lobbying has scored big: the agri-tech corporations have even figured out how to get the government to pay for research on products which will then be patented by the corporations! For example, over $10.5 million in government grants per year are given to the biotech companies to develop herbicide resistant crops. (Against the Grain, p88) [31]
A huge problem with labeling is a legal twisting of the First Amendment by lawyers representing GM giants. First Amendment is supposed to be freedom of speech, right? Well, these EPA lawyers have taken the position that it violates free speech for an organic farmer to label his produce ânon-GM,â the reason being that this may suggest that GM products are somehow inferior.
With no scientific data whatsoever, the FDAâs stated position is that GM foods and non-GM foods have an âequivalence.â(Lappe, p. 76) [31] And thatâs their basis for denying American consumers the benefit of identifying labels.
When you consider the stringent labeling requirements now on all foods and packaged products of any kind, especially in California with Prop 65, itâs shocking to think that the consumer is not allowed to know whether a food is GM or not. That is a most fundamental item of information. This is the first time since the FDA required disclosure of food ingredients at all that the consumer is being kept in the dark on such a large scale. The fact that soon almost all food will contain GM components is not really an argument. We have a right to know what weâre eating. Deeper investigation into the subject of labeling is beyond the scope of this chapter.
Labeling has become an area of big politics and big deceptions, having as much to do with the prevention of consumer awareness as with adding to it.
IF ITâS ORGANIC, IS IT GM?
Not yet, but almost. The US Dept. of Agriculture met in March 2000 to redefine the term organic. Despite huge lobbying efforts from the GM giants to allow GM foods to be included under the organic umbrella, it didnât work. Not yet, anyway. At this time genetic modification still prevents a food from being labeled organic. But with the FDAâs current stance that GM and nonGM foods are âequivalent,â as well as the millions of lobbying dollars floating around Washington, the future does not look particularly bright for the nonGM status of organic foods.
EPA and FDA WIMP OUT ON TOXICITY LEVELS
Since 1987, the EPA and Congress both showed that they understood which side their bread was buttered on, in three separate acts:
-
In 1987, immediately prior to RoundUpâs debut, without any study or proof whatsoever, the EPA arbitrarily raised the toxicity limits of RoundUp from 6 parts per million to 20 parts per million, simply because Monsanto requested it! (p.75, Against The Grain) [31]
After repeated requests from Monsanto for ââŚexemption from further review or trackingâ of RoundUp Ready soybeans, the EPA granted its approval! (p79) [31]
– Buckling under industry pressure, Congress scrapped the proposals for creating a Biotechnology Commission, whose job would be monitoring long-term biological effects of GM foods (p 130)
At present, there is no tracking system or government agency in place to even study human toxicity from GM foods! Weâre being forced to rely on the word of the manufacturers, who continue to insist that these foods are safe, even though no long term studies have ever been done
Another area in which lawmakers have quietly betrayed the people is the recent introduction of environmental audit privilege laws. In a show of astounding and blatant patronage, the FDA has granted the giant agritech corporations the right of self policing.
The way this fantasy works is that in exchange for keeping their toxicity research secret from the public, the company has to promise to conduct âself-inspectionsâ and to voluntarily report any âalleged misconduct.â (Lappe. p. 74) [31] The honor system! Assigned to those companies who have demonstrated a century of systematic poisoning of the global environment.
At present, no matter how shaky the scientific basis for its safety, once a GM plant is released for full-scale commercialization, it is no longer subject to regulation!
THE PHYTOESTROGEN HOAX
Donât fall for this one. Weâve all heard the claims about soy being great for women approaching menopause because it adds a safe level of ânaturalâ estrogen, preventing osteoporosis, etc. Isoflavones â the supposed magic ingredient – youâve seen the ads.
All that is known for sure is that RoundUp raises the levels of isoflavones in the soybean. The advertisers have made the incredibly brash assumption that increase in phytoestrogens is desirable. For one thing, having come from a GM plant, isoflavones are definitely not natural. Moreover, the amount of increase may well be pathological – itâs never been studied. Infants have been shown to have their phytoestrogen levels raised from 13,000 to 22,000 times the normal blood levels of estrogen from taking soy! High levels of some estrogens can promote sex organ malformation, organic tumors, and menstrual disruption.
For a thorough summary of the HRT hoax, read the entire Hormones chapter.
The fact is, these possibilities have never been ruled out by scientific studies before promoting soy milk for infants. Or for menopausal women. Itâs unsubstantiated marketing hype. The consumer is the experiment.
-
ââŚwe are eating our own genetic experiments.” – Against the Grain, p 148 [31]
WHY INFANTS SHOULD BE KEPT AWAY FROM SOY PRODUCTS
If youâre giving your baby soy milk or soy products, where are your sources of information that soy is OK? Their ads? Throughout this chapter several referenced sources have been cited that point our the following likely toxicities of soy products for infants:
-
increase of blood estrogen levels to 22,000 times normal
blocks absorption of zinc, which is necessary for brain formation
introduces free radicals into system, which can retard any formative tissue
blocks stomach enzymes, promoting chronic indigestion
cannot be digested, promoting chronic indigestion and allergies
lack of fat soluble vitamins that are available in unprocessed animal products
high levels of aluminum, preventing normal brain and intestinal formation
Disagree? Cite your sources. Journal articles in slick Alternative Lite magazines donât count. They tend to favor contributions from their own advertisersâ junk science writers.
LESSON #666
By 1859, Charles Darwin had discovered the phenomenon of natural selection, outlined in his masterwork Origin of the Species. [8] Darwin showed how all species evolve through the centuries by minute little changes made in their physiology, which better adapt them to their environment. The ones who adapt best, survive.
This has been natureâs design, from the beginning of life on earth. Much later, in the 1950s, this adaptation to surroundings was related to genetic structure, when Watson and Crick discovered the shape of DNA.
Now in the 21st century science has come up with a technology that can theoretically splice genes from any plant or animal into the DNA of any other plant or animal. Genetic changes that would have taken 10,000 generations, and many that would never have occurred at all â suddenly these artificial hybrids are brought into being, at random, practically overnight.
The huge difference with GM is that instead of evolution, we have this random game of genetic cut-and-paste. The technicians ram the selected gene into a random location within the hostâs DNA, and then they see what happens. After thousands of times, one favorable plant may result, and thatâs the keeper.
But the DNA is the genetic code â the blueprint for future generations. Many alterations donât appear immediately. Those that do may also have other unpredictable effects on the offspring. Teitel talks about the GM salmon who were âengineeredâ to grow larger, which they did, but not without turning green. (p. 11) [30]
Another scary issue is the experimentation with virus and bacterial genes spliced into plants. We are introducing the possibility of creating superviruses and superbugs that have never existed before, some of which may be resistant to any known form of control.
THE END OF BIODIVERSITY
Natureâs way is for any given crop to be as genetically diverse as possible. This will allow for survival of the species in the event of pests, toxins, or natural disasters like heatwaves, droughts, floods, and freezes. If all the plants are genetically identical, any stressor that can kill one of them can kill them all.
This is the real danger with biotechnology that the big corporations are doing their best to keep from public awareness: genetic uniformity means the end of biodiversity. Biodiversity is the strength of the evolutionary process that has allowed all life forms to develop to their current versions.
Biotechnology is the nemesis of biodiversity.
In 1845, two million Irish died from starvation in the Great Potato Famine. The reason: there were only two genotypes of potatoes in all of Europe, and both were susceptible to the same blight. That was a lesson in biodiversity. ([31], p99)
Lesson # 666: Mother Nature Bats Last. Repeat until learned.
(Of course it didn’t help things that the English were confiscating what little food they did produce…)
WHAT DO THE REAL EXPERTS SAY?
Many of the worldâs highest ranking biologists, like Harvardâs George Wald, see the connection between Darwin and GM:
-
âRecombinant DNA technology [genetic engineering] faces our society with problems unprecedented not only in the history of science, but of life on Earth. It places in human hands the capacity to redesign living organisms, the products of some three billion years of evolutionâŚ
“Such intervention must not be confused with previous intrusions upon the natural order of living organisms; animal and plant breeding, for example; or the artificial induction of mutations, as with X-rays. All such earlier procedures worked within single or closely related species. The hub of the ?new technology is to move genes back and forth, not only across species lines, but across any boundaries that now divide living organisms.
“The results will be essentially new organisms. Self-perpetuating and permanent. Once created, they cannot be recalled. Up to now living organisms have evolved very slowly, and new forms have had plenty of time to settle in. Now whole proteins will be transposed overnight into wholly new associations, with consequences no one can foretell, either for the host organism or their neighbors.
“So this, the central problem, remains almost unconsidered. It presents probably the largest ethical problem that science ?has ever had to face. Our morality up to now has been to go ahead without restriction to learn all that we can about nature. Restructuring nature was not part of the bargain. … going ahead in this direction may be not only unwise but dangerous. … it could breed new animal and plant diseases, new sources of cancer, novel epidemics.â
-
Dr. George Wald, professor emeritus from Harvard, Nobel laureate
Once created, they cannot be recalled. That’s just great.
Genetically modified crops spread their assault on nature in a totally unpredictable manner. With today’s 457 million acres of GM plants, by 2017 [38] consider the effect of cross-pollination alone, just from bees flying between GM and non-GM crops.
The father of molecular biology, Erwin Chargoff refers to genetic modification as a âmolecular Auschwitz.â He see GM of life as a bigger threat to human survival than nuclear war.
“I have the feeling that science has transgressed a barrier that should have remained inviolate⌠you cannot recall a new form of life…It will survive you and your children and your children’s children. An irreversible attack on the biosphere is something so unheard of, so unthinkable to previous generations, that I could only wish that mine had not been guilty of it.â – Heraclitean Fire[23]
Guess Dr.Chargoff wonât be invited on any more Monsanto junkets to Cabo any time soon soon.
There is a long list of quotes from world class scientists on the dangers of GM, available at http://www.purefood.org/ge/sciquotes.htm.
We have seen how genetic engineering was responsible for bringing AIDS to the world (Horowitz, [27]) Many scientists, like Dr. Joseph Cummings foresee the creation of new diseases as a result of GM of plants:
-
“Probably the greatest threat from genetically altered crops is the insertion of modified virus and insect virus genes into crops. It has been shown in the laboratory that genetic recombination will create highly virulent new viruses from such constructions. Certainly the widely used cauliflower mosaic virus is a potentially dangerous gene⌠it multiplies by making DNA from RNA messages. It is very similar to the Hepatitis B virus … and related to HIV.” – Cummins[26]
Most soybeans are GM. Is this really the kind of food you want to put into your baby’s formula as a replacement for mother’s milk?
SOYLENT GREEN
Way back in the 70s, Charleton Heston made a science fiction movie called Soylent Green. The story was set in the dystopian future, with a totalitarian Big Brother government, similar to the one in The Matrix. Or the one in Washington today.
In Soylent Green, fruit and vegetable crops, as well as meat and dairy, are things of the distant past. Food is totally controlled and provided by the government â everyone eats these green biscuits called soylent green, which are supposed to be complete nutrition sources. The movie uncovers the typical operations of a sinister government which has succeeded in controlling all aspects of human life. Then at the end, the shocker is when Charleton finds out that soylent green is actually made from people!
The similarities of this movie to our present situation are remarkable indeed, considering that it was made 50 years ago. The fact that the biscuits were soy-based was prescient, considering what we now know from the above chapter about the widespread presence of soy in our processed foods.
Our food choices are increasingly being controlled and limited by the government, through agencies like the FDA and the EPA. It is no secret that the directors of these agencies have close ties to the giant food and chemical corporations. Legislation about the safety and content of our food is dictated not from health concerns, but from a position of economics and control.
Itâs not only that weâre losing control of our choices, but through mass advertising the toxic realities of processed foods are being systematically hidden. Animal crackers are so cute, but they contain partially hydrogenated soybean oil, which is loaded with free radicals, and has no food value. Itâs not really a conspiracy; itâs simply the nature of corporate control.
Corporations have one fundamental purpose â to make money for their investors. The problem here is the written contract that we have with agencies of the government. Their stated purpose is to protect our health and well-being from rampant, wholesale exploitation from powerful special interest groups. Instead, the people in the regulating agencies have joined forces with the exploiters, for their mutual benefit.
GM SOY – ITâS EVERYWHERE
Lappe has a partial list of verified products using genetically altered soybeans:
-
Crisco
Kraft salad dressings
Nestleâs chocolate
Parkay margarine
Isomil and Prosobee infant formula
Wesson oils
McDonaldâs French fries
Doritos
Tostitos
Ruffles
Pillsbury foods
Similac infant formula
p. 92, 119, 124 [31]
Todayâs list would be much more extensive since by now the vast majority of soybeans grown in the US are genetically engineered. So if the label mentions soybeans, itâs GM.
ACTION
Soy products are not substitutes for human protein requirements. Processed soy products are devitalized, enzymeless non-foods, devoid of nutrient content. Moreover, the aluminum, free radicals, and other contaminants make soy products toxic to human metabolism, giving them an overall negative nutrient value.
Armed with your new knowledge, the following experiment will blow you away. Go to your local supermarket with a magnifying glass, without being in a hurry. Start anywhere and just read all the fine print on food labels. Check out the frozen dessert section â you know, all those boxes with the beautiful pictures of homemade pies and cakes and turnovers. Youâll be amazed to see that hydrogenated soybean oil is not simply an ingredient in many of these desserts, but that it is the main ingredient.
Next try the salad dressing aisle. Start with the creamies â bleu cheese, Ranch, etc. Partially hydrogenated soybean oil â the main ingredient. Next go to the commercial bread and pastries section. Most breads have the ingredients printed in orange microfont so that you canât make them out with the bread as the background. This is no accident. Here youâll see not only a ton of hydrogenated soybean oil â youâll also see beaucoup high fructose corn syrup â another neurotoxic non-food. ( See SUGAR â -The Sweet Thief of Life)
Next try the soup section â read every word. Now try all your favorite cereals. With the exception of shredded wheat, these famous cereals you grew up with are just vehicles for more hydrogenated soybean oil. Then cruise on over to the pasta section. Donât forget the commercial cookies section â whateverâs wrapped in cellophane. Read the labels. Soon it will dawn on you, like it dawned on Charleton Heston – we are becoming partially hydrogenated soybean oil!
From your surveillance post on a bench in any mall concourse in the US, watch the gender-nonspecific soybean units trudge by.
What can we do? Stay informed. Follow the sources in the Reference list below. Make choices for our children that are not determined by ads we saw on TV, or read in some junk science flyer on social media.
And try to keep ourselves and our children away from the 60% of the foods on our shelves that contain processed soy products.
Now you’re ready for the sequel to this chapter: GM Foods: A Short Introduction.
REFERENCES
1. Erasmus, U Fats That Heal, Fats That Kill Alive 1993.
2. Finucan, B Gerson Healing Newsletter Part I 1999 http://www.gerson.org/healing/articles/nl_soytoogood.htm
3. Keen, CL Studies of marginal zinc deprivation in rhesus monkeys. Am J Clin Nutr 1988 Jun;47(6):1041-5
4. Soy Statistics Reference Guide, 1997 http://www.ag.uiuc.edu/%7Estratsoy/97soystats/pg12.html
5. Guyton, A, MD Textbook of Medical Physiology Ninth edition Saunders 1996.
6. Leviton, R Tofu, Tempeh, Miso, and Other Soyfoods p.12 Keats Publishing, 1982.
7. Price, W DDS Nutrition and Physical Degeneration Keats 1939.
8. Darwin,C Origin of Species John Murray, Abermarle Street, London 1859.
9. Bernard, R PhD Soybean Microsoft Encarta online 2000.
10. Twogood, D No Milk Wilhelmina Press 1992.
11. Heated Battle Over GE Soybeans in Brazil The Guardian (UK) June 1999. http://www.pureecology/ge/gesoybrazil.com
12. Soy Protein Council http://www.spcouncil.org/defs.html
13. Von Leibig, Baron Justus The Natural Laws of Husbandry
14.Howell, E, MD Enzyme Nutrition Avery 1985.
15.Pickthall, C Member of Parliament for West Lancashire, speaking in the House of Commons, 13th December 1996
16. Canadian Government report on toxic effects of BST
17. Mother Jones May 2000 inside back cover
18. Pollan, M Playing God in the Garden NY Times Sunday Magazine 25 Oct 98
19. Spicuzza, M Silicon to Soybeans Metro 11 May 00 p 21
20. Wolfson, R PhD Biotech Food â Whatâs on Our Shelves? Alive: Canadian Journal of Health and Nutrition Nov 1996.
21. RAFI Geno-Types Profile of the Gene Giants 7 Jan 2000 http://www.rafi.org
22. Benbrook, C Monsanto’s Big Lie Exposed: Roundup Ready Soybeans Use 2-5 Times More Herbicides Than Non-GE Varieties
http://www.purefood.org/Monsanto/roundupreadylie.cfm
23. Chargoff, E Heraclitean Fire: Sketches from a Life Before Nature Paul & Company June 1978.
24. Regal, P PhD Biosafety Risks from GEOs Univ of Minnesota 1999. http://biosci.umn.edu/~pregal/biosafety.html
25. Allen, S Group Lobbies for Labeling Genetically Altered Foods Boston Globe p. A5 18 Jun 99
26. Cummins, J PhD The Use of Cauliflower Mosaic Virus/ Genetically Engineered Crops in Progress –University of Western Ontario 1997.
http://www.natural-law.ca/genetic/JoeCumminsArticles.html
27.Horowitz, L Emerging Viruses: AIDS and Ebola Tetrahedron 1999.
28.Blaylock, R MD Excitotoxins: The Taste That Kills Health Press 1997.
29. http://www.natural-law.ca/genetic/biotechindex.html
30. Teitel, M PhD, Wilson Genetically Engineered Foods: Changing the Nature of Nature Park Street Press — 1999.
?31. Lappe, M PhD Against the Grain Common Courage 1998
32. O’Shea, T – GM Foods: A Short Introduction
33. Robbins, J – Diet For a New America
34. Douglas, Wm C – The Milk Book
35. McDougall, J MD – McDougall’s MedicineâA Challenging Second Opinion
36. Index Mundi -Soybean Oil Production – http://www.indexmundi.com/agriculture/?country=us&commodity=soybean-oil&graph=production
37. United States Department of Agriculture National Agricultural Statistics Service 2016 – https://www.nass.usda.gov/Newsroom/2016/08_12_2016.php
38. Pollack, A – Acreage for Genetically Modified Crops APRIL 13, 2016 New York Times
39. USDA report – soybean production US 202
40. NOPA Report https://www.nopa.org/resources/economic-impact-of-u-s-soybeans-end-products-on-the-u-s-economy/