Soy Substances Help Fight Obesity

by Luis R. Miranda
The Real Agenda
December 9, 2011

Besides being an excellent replacement for animal protein, soy has now been identified as a great aid for people who are trying to shed weight. Substances like isoflavone, say spanish scientists help to avoid the accumulation of liver fat. The latest study found that soy has properties anti obesity and that isoflavone acts with estrogen and other hormones in the human body to limit weight gain.

The spanish study was completed at the Center for Biomedical Research Network, Pathophysiology of Obesity and Nutrition (CIBERobn) that belongs to the Foundation Imabis of Malaga, Spain. Experiments were conducted in rodents and the results were published in the December issue of the British Journal of Pharmacology.

But isoflavones contained in soy not only fight weight gain. The same spanish research determined that this compound also acts as an activator of  thermogenic brown fat while reducing fat in the liver. The breakthrough simply means that obese people may be treated with natural isoflavone derived from organic soy, instead of pharmaceuticals, in order to fight obesity.

The effectiveness of soy and its substance known as isoflavone for combating obesity is yet another example of how natural foods and substances not only help in the nutrition of us humans, but also reinforces the fact that those very same foods and substances are key in the treatment and prevention of disease. Substances contained in natural foods often act as antioxidants and have anticancer properties as well as protective properties of the bone and circulatory systems.

During the first test scientists observed how isoflavones acted positively in the prevention of weight gain as well as the decrease in weight in animals whose diets had been designed to make them gain considerable amounts of weight previous to the study. “Evidence of decreased weight gain, the activation of thermogenic brown adipose tissue, and reduced associated hepatic steatosis” said doctor Fernando Rodriguez de Fonseca, who heads CIBERobn, the organization that led the study.

Experiment subjects were divided into two groups. The first was fed mostly carbohydrates; the second was fed with a diet rich in fats. A total of 36 rats received the ‘treatment’ but were the ones previously fed with a fatty diet the ones that better responded to the action of isoflavone. The group of rats fed with a fat-based diet had developed diabetes and fat in the liver. After being treated with daidzen, a form of isoflavone, for 14 days the rats fed the fat diet began to show lower weight gain as well as a reduction of hepatic fat.

“This finding was associated with high levels of leptin (known as the hormone of thinness, which has among its functions to inhibit appetite) and low contents of adiponectin (whose circulating levels are inversely proportional to body mass index and body fat percentage, which also increases sensitivity to insulin).”

The experiments conducted in the spanish laboratory also found an enzyme whose role was key in the development of thermogenesis in brown adipose tissue after the rats were treated with daidzein.

The authors of the study now have a base to launch the human version of this study. Because rats and humans have a different metabolism, human experiments will have to be conducted with different amounts of isoflavone in order to obtain significant results. Scientists will also have to consider variables such as routes of administration, dosage, age, the person’s weight and lifestyle in order to turn the treatment into an effective tool to combat weight gain. As in many other experiments, failure to customize a treatment usually renders disappointing results.

Playing with Food: The Scalpers of our Daily Bread

As food prices reach record highs, how much is the speculation in agricultural commodities to blame?

Felicity Lawrence
UK Guardian
June 3, 2011

With food prices reaching record highs again this year, what goes on inside a 650ft Chicago skyscraper topped by a statue of the goddess Ceres is coming under intense scrutiny.

It is here that the world’s oldest futures and options exchange, the Chicago Board of Trade (CBOT), was established in 1848 to serve the great grain belt that had opened up in the American midwest. And it is here that the international price of agricultural commodities is set to this day.

“There’s a lot of weather in the market, the northern growing season has been traumatic, with drought in Europe and China and tornadoes and floods in the US. No one is panicked yet, but any additional crop loss, say in Russia, will quickly bring new worry to the market and that could quickly turn to panic. We may be one more event away from panic,” Dan Basse, president of AgResource, one of Chicago’s most respected commodity analyst companies, warned as we watched the opening of a day’s trading last month.

G20 agriculture ministers will meet in Paris on 22 June to discuss food security and prices. Speculative activity and how to contain it is high on their agenda.

Debate has been raging since 2008, when price rises provoked riots around the world, about whether or not the new money that has flooded into the commodities markets since 2003 is the cause of the problem – and if so, how to regulate it.

In Chicago, before the financial day begins, teams of traders pump themselves up outside on chain-smoked cigarettes and outsize McDonald’s coffees. The coloured blazers they use to make themselves easily identifiable on the trading floor have been reduced to bright jackets with string-vest backs to counter the heat generated by a day’s speculation. They keep on their toes in training shoes.

Inside, when the bell announces the start, there is a frenzy of noise. Traders yell at one another and wave their arms in violent gesticulation, palms out to signal sell, palms in to signal buy. There are “scalpers” who buy and sell within seconds, “floor brokers” hedging for corporate accounts, and hundreds of runners rushing orders to the recorders.

At the end of May, the price of corn was up again – most traders and analysts expected it to continue rising along with other commodities.

Basse is one of those who thinks underlying fundamentals – a serious mismatch between supply and rapidly growing global demand – are behind this year’s price rises.

“Speculation is the easy thing to point the finger at and it’s easy to fix. Back in 2008, when prices were up and there was lots of money pouring in, that may have pushed prices up, but today we don’t see that as having a significant effect,” Basse said.

“Look at growth in world livestock demand and in biofuels demand, and you can see what’s been driving the agricultural bull market.”

He painted a troubling picture of what is likely to come. He estimates the world needs to bring around 10.3m hectares of new land a year into food production “just to keep stocks steady”, but he says that will be increasingly hard to do as the land that remains available is reduced to what is environmentally fragile.

A “weekend” farmer of GM crops himself, Basse admits the promise that biotech seeds would deliver big increases in yields has turned out to be illusory. He also fears that “superweeds are coming on so fast with GM that US farmers are going to have to go back to more traditional cultivation methods [as opposed to the practice with GM seeds of not tilling the soil and simply spraying to control pests] – but they don’t have the capacity to do that.”

Europe, Basse said, will soon have no choice but to lift its ban on imports of GM crops for animal feed. With its own crops suffering drought, it will have to turn to Brazil, the only major supplier of non-GM imports. However, the Chinese have already bought up large chunks of the Brazilian crop. The policies in the US and the EU of promoting biofuels will be unsustainable.

The company that owns CBOT, the Chicago Mercantile Exchange group (CME), also rejects the notion that the enormous rise in speculation in agricultural commodities in recent years has caused food price rises.

Farmers and processors of physical goods have long used commodities exchanges such as Chicago’s to hedge against risks such as bad harvests. Speculators willing to take the risk perform a useful role in providing liquidity. But much of the recent growth in speculation has been through new “structured” products invented by banks and sold to investors.

After intense lobbying, banks won deregulation of commodities markets in the US in 2000, allowing them to develop these new products. Goldman Sachs pioneered commodity index funds, which offer investors a chance to track changes in a spread of commodity prices including key agricultural commodities.

Between 2003 and 2008, investment in commodity index funds rose from $13bn to $317bn (£193bn). But the CME’s head of product development, Fred Seamon, said: “There is no credible evidence that suggests index funds or any group of traders are a cause for high prices or increased volatility. There may be a correlation, but that’s a completely different thing.”

CME argues that the volume of speculation is not a problem, because the overall composition of the agricultural commodities market has not changed; the increase in activity by index funds has been matched by an increase in trading by those who are commercial participants, that is those who have a direct interest in the physical goods.

“That’s an indefensible position,” Chicago–based hedge fund manager Mark Newell of Quiddity retorted. He and another hedge fund manager, Mike Masters, prepared testimony to the US Senate when it was looking into the effect of speculation on food prices in 2008.

“When billions of dollars of capital is put to work in small markets like agricultural commodities, it inevitably increases volatility and amplifies prices – and if financial flows amplify prices of food stuffs and energy, it’s not like real estate and stocks. When food prices double, people starve ,” Masters said.

The UN rapporteur on the Right to Food, Olivier de Schutter, added his weight to Masters’ side of the debate at the end of last year when he concluded a speculative bubble was responsible for a significant part of the food price rises.

An OECD study, however, did not find a link. Aid agencies such as Oxfam and Christian Aid are calling for reregulation.

In the US, the regulator – the Commodities Futures Trading Commission – has until July to produce a new framework for the commodities markets for Congress. It has been looking at imposing limits on the size of positions that traders can take, and at regulating the commodity index fund trades that are currently unregulated because they take place “over the counter”; that is, between investors and banks. But the financial industry has proved resistant to reforms. G20 ministers will have to decide their own position soon, too.

Newell, meanwhile, remains convinced that without action prices will continue to go up, partly because of underlying fundamentals, but also because, just like in 2008, “the game’s afoot again”.

Monsanto’s Roundup Triggers Over 40 Plant Diseases

New Diseases Endanger Human and Animal Health

By Jeffrey Smith
January 19, 2011

While visiting a seed corn dealer’s demonstration plots in Iowa last fall, Dr. Don Huber walked passed a soybean field and noticed a distinct line separating severely diseased yellowing soybeans on the right from healthy green plants on the left (see photo). The yellow section was suffering from Sudden Death Syndrome (SDS), a serious plant disease that ravaged the Midwest in 2009 and ’10, driving down yields and profits. Something had caused that area of soybeans to be highly susceptible and Don had a good idea what it was.

The diseased field on the right had glyphosate applied the previous season. Photo by Don Huber

Don Huber spent 35 years as a plant pathologist at Purdue University and knows a lot about what causes green plants to turn yellow and die prematurely. He asked the seed dealer why the SDS was so severe in the one area of the field and not the other. “Did you plant something there last year that wasn’t planted in the rest of the field?” he asked. Sure enough, precisely where the severe SDS was, the dealer had grown alfalfa, which he later killed off at the end of the season by spraying a glyphosate-based herbicide (such as Roundup). The healthy part of the field, on the other hand, had been planted to sweet corn and hadn’t received glyphosate.

This was yet another confirmation that Roundup was triggering SDS. In many fields, the evidence is even more obvious. The disease was most severe at the ends of rows where the herbicide applicator looped back to make another pass (see photo). That’s where extra Roundup was applied.

Don’s a scientist; it takes more than a few photos for him to draw conclusions. But Don’s got more—lots more. For over 20 years, Don studied Roundup’s active ingredient glyphosate. He’s one of the world’s experts. And he can rattle off study after study that eliminate any doubt that glyphosate is contributing not only to the huge increase in SDS, but to the outbreak of numerous other diseases. (See selected reading list.)

Roundup: The perfect storm for plant disease

Sudden Death Syndrome is more severe at the ends of rows, where Roundup dose is strongest. Photo by Amy Bandy.

More than 30% of all herbicides sprayed anywhere contain glyphosate—the world’s bestselling weed killer. It was patented by Monsanto for use in their Roundup brand, which became more popular when they introduced “Roundup Ready” crops starting in 1996. These genetically modified (GM) plants, which now include soy, corn, cotton, canola, and sugar beets, have inserted genetic material from viruses and bacteria that allows the crops to withstand applications of normally deadly Roundup.

(Monsanto requires farmers who buy Roundup Ready seeds to only use the company’s Roundup brand of glyphosate. This has extended the company’s grip on the glyphosate market, even after its patent expired in 2000.)

The herbicide doesn’t destroy plants directly. It rather cooks up a unique perfect storm of conditions that revs up disease-causing organisms in the soil, and at the same time wipes out plant defenses against those diseases. The mechanisms are well-documented but rarely cited.

  • The glyphosate molecule grabs vital nutrients and doesn’t let them go. This process is called chelation and was actually the original property for which glyphosate was patented in 1964. It was only 10 years later that it was patented as an herbicide. When applied to crops, it deprives them of vital minerals necessary for healthy plant function—especially for resisting serious soilborne diseases. The importance of minerals for protecting against disease is well established. In fact, mineral availability was the single most important measurement used by several famous plant breeders to identify disease-resistant varieties.
  • Glyphosate annihilates beneficial soil organisms, such as Pseudomonas and Bacillus bacteria that live around the roots. Since they facilitate the uptake of plant nutrients and suppress disease-causing organisms, their untimely deaths means the plant gets even weaker and the pathogens even stronger.
  • The herbicide can interfere with photosynthesis, reduce water use efficiency, lower lignin , damage and shorten root systems, cause plants to release important sugars, and change soil pH—all of which can negatively affect crop health.
  • Glyphosate itself is slightly toxic to plants. It also breaks down slowly in soil to form another chemical called AMPA (aminomethylphosphonic acid) which is also toxic. But even the combined toxic effects of glyphosate and AMPA are not sufficient on their own to kill plants. It has been demonstrated numerous times since 1984
  • The actual plant assassins, according to Purdue weed scientists and others, are severe disease-causing organisms present in almost all soils. Glyphosate dramatically promotes these, which in turn overrun the weakened crops with deadly infections.

    Glyphosate with sterile soil (A) only stunts plant growth. In normal soil (B), pathogens kill the plant. Control (C) shows normal growth.

“This is the herbicidal mode of action of glyphosate,” says Don. “It increases susceptibility to disease, suppresses natural disease controls such as beneficial organisms, and promotes virulence of soilborne pathogens at the same time.” In fact, he points out that “If you apply certain fungicides to weeds, it destroys the herbicidal activity of glyphosate!”

By weakening plants and promoting disease, glyphosate opens the door for lots of problems in the field. According to Don, “There are more than 40 diseases of crop plants that are reported to increase with the use of glyphosate, and that number keeps growing as people recognize the association between glyphosate and disease.”

Roundup promotes human and animal toxins

Photo by Robert Kremer

Some of the fungi promoted by glyphosate produce dangerous toxins that can end up in food and feed. Sudden Death Syndrome, for example, is caused by the Fusarium fungus. USDA scientist Robert Kremer found a 500% increase in Fusarium root infection of Roundup Ready soybeans when glyphosate is applied (see photos and chart). Corn, wheat, and many other plants can also suffer from serious Fusarium-based diseases.

But Fusarium’s wrath is not limited to plants. According to a report by the UN Food and Agriculture Organization, toxins from Fusarium on various types of food crops have been associated with disease outbreaks throughout history. They’ve “been linked to the plague epidemics” of medieval Europe, “large-scale human toxicosis in Eastern Europe,” oesophageal cancer in southern Africa and parts of China, joint diseases in Asia and southern Africa, and a blood disorder in Russia. Fusarium toxins have also been shown to cause animal diseases and induce infertility.

As Roundup use rises, plant disease skyrockets

When Roundup Ready crops were introduced in 1996, Monsanto boldly claimed that herbicide use would drop as a result. It did—slightly—for three years. But over the next 10 years, it grew considerably. Total herbicide use in the US jumped by a whopping 383 million pounds in the 13 years after GMOs came on the scene. The greatest contributor is Roundup.

Over time, many types of weeds that would once keel over with just a tiny dose of Roundup now require heavier and heavier applications. Some are nearly invincible. In reality, these super-weeds are resistant not to the glyphosate itself, but to the soilborne pathogens that normally do the killing in Roundup sprayed fields.

Having hundreds of thousands of acres infested with weeds that resist plant disease and weed killer has been devastating to many US farmers, whose first response is to pour on more and more Roundup. Its use is now accelerating. Nearly half of the huge 13-year increase in herbicide use took place in just the last 2 years. This has serious implications.

As US farmers drench more than 135 million acres of Roundup Ready crops with Roundup, plant diseases are enjoying an unprecedented explosion across America’s most productive crop lands. Don rattles off a lengthy list of diseases that were once under effective management and control, but are now creating severe hardship. (The list includes SDS and Corynespora root rot of soybeans, citrus variegated chlorosis (CVC), Fusarium wilt of cotton, Verticillium wilt of potato, take-all root, crown, and stem blight of cereals, Fusarium root and crown rot, Fusarium head blight, Pythium root rot and damping off, Goss’ wilt of corn, and many more.)

In Brazil, the new “Mad Soy Disease” is ravaging huge tracts of soybean acreage. Although scientists have not yet determined its cause, Don points out that various symptoms resemble a rice disease (bakanae) which is caused by Fusarium.

Corn dies young

In recent years, corn plants and entire fields in the Midwest have been dying earlier and earlier due to various diseases. Seasoned and observant farmers say they’re never seen anything like it.

“A decade ago, corn plants remained green and healthy well into September,” says Bob Streit, an agronomist in Iowa. “But over the last three years, diseases have turned the plants yellow, then brown, about 8 to 10 days earlier each season. In 2010, yellowing started around July 7th and yield losses were devastating for many growers.”

Bob and other crop experts believe that the increased use of glyphosate is the primary contributor to this disease trend. It has already reduced corn yields significantly. “If the corn dies much earlier,” says Bob, “it might collapse the corn harvest in the US, and threaten the food chain that it supports.”

A question of bugs

In addition to promoting plant diseases, which is well-established, spraying Roundup might also promote insects. That’s because many bugs seek sick plants. Scientists point out that healthy plants produce nutrients in a form that many insects cannot assimilate. Thus, farmers around the world report less insect problems among high quality, nutrient-dense crops. Weaker plants, on the other hand, create insect smorgasbords. This suggests that plants ravaged with diseases promoted by glyphosate may also attract more insects, which in turn will increase the use of toxic pesticides. More study is needed to confirm this.

Roundup persists in the environment

Monsanto used to boast that Roundup is biodegradable, claiming that it breaks down quickly in the soil. But courts in the US and Europe disagreed and found them guilty of false advertising. In fact, Monsanto’s own test data revealed that only 2% of the product broke down after 28 days.

Whether glyphosate degrades in weeks, months, or years varies widely due to factors in the soil, including pH, clay , types of minerals, residues from Roundup Ready crops, and the presence of the specialized enzymes needed to break down the herbicide molecule. In some conditions, glyphosate can grab hold of soil nutrients and remain stable for long periods. One study showed that it took up to 22 years for glyphosate to degrade only half its volume! So much for trusting Monsanto’s product claims.

Glyphosate can attack from above and below. It can drift over from a neighbors farm and wreak havoc. And it can even be released from dying weeds, travel through the soil, and then be taken up by healthy crops.

The amount of glyphosate that can cause damage is tiny. European scientists demonstrated that less than half an ounce per acre inhibits the ability of plants to take up and transport essential micronutrients (see chart).

As a result, more and more farmers are finding that crops planted in years after Roundup is applied suffer from weakened defenses and increased soilborne diseases. The situation is getting worse for many reasons.

  • The glyphosate concentration in the soil builds up season after season with each subsequent application.
  • Glyphosate can also accumulate for 6-8 years inside perennial plants like alfalfa, which get sprayed over and over.
  • Glyphosate residues in the soil that become bound and immobilized can be reactivated by the application of phosphate fertilizers or through other methods. Potato growers in the West and Midwest, for example, have experienced severe losses from glyphosate that has been reactivated.
  • Glyphosate can find its way onto farmland accidentally, through drifting spray, in contaminated water, and even through chicken manure!

    Wheat affected after 10 years of glyphosate field applications.

Imagine the shock of farmers who spread chicken manure in their fields to add nutrients, but instead found that the glyphosate in the manure tied up nutrients in the soil, promoted plant disease, and killed off weeds or crops. Test results of the manure showed glyphosate/AMPA concentrations at a whopping 0.36-0.75 parts per million (ppm). The normal herbicidal rate of glyphosate is about 0.5 ppm/acre.

Manure from other animals may also be spreading the herbicide, since US livestock consume copious amounts of glyphosate—which accumulates in corn kernels and soybeans. If it isn’t found in livestock manure (or urine), that may be even worse. If glyphosate is not exiting the animal, it must be accumulating with every meal, ending up in our meat and possibly milk.

Add this threat to the already high glyphosate residues inside our own diets due to corn and soybeans, and we have yet another serious problem threatening our health. Glyphosate has been linked to sterility, hormone disruption, abnormal and lower sperm counts, miscarriages, placental cell death, birth defects, and cancer, to name a few. (See resource list on glyphosate health effects.)

Nutrient loss in humans and animals

The same nutrients that glyphosate chelates and deprives plants are also vital for human and animal health. These include iron, zinc, copper, manganese, magnesium, calcium, boron, and others. Deficiencies of these elements in our diets, alone or in combination, are known to interfere with vital enzyme systems and cause a long list of disorders and diseases.

Alzheimer’s, for example, is linked with reduced copper and magnesium. Don Huber points out that this disease has jumped 9000% since 1990.

Manganese, zinc, and copper are also vital for proper functioning of the SOD (superoxide dismustase) cycle. This is key for stemming inflammation and is an important component in detoxifying unwanted chemical compounds in humans and animals.

Glyphosate-induced mineral deficiencies can easily go unidentified and untreated. Even when laboratory tests are done, they can sometimes detect adequate mineral levels, but miss the fact that glyphosate has already rendered them unusable.

Glyphosate can tie up minerals for years and years, essentially removing them from the pool of nutrients available for plants, animals, and humans. If we combine the more than 135 million pounds of glyphosate-based herbicides applied in the US in 2010 with total applications over the past 30 years, we may have already eliminated millions of pounds of nutrients from our food supply.

This loss is something we simply can’t afford. We’re already suffering from progressive nutrient deprivation even without Roundup. In a UK study, for example, they found between 16-76% less nutrients in 1991, compared to levels in the same foods in 1940.

Livestock disease and mineral deficiency

Roundup Ready crops dominate US livestock feed. Soy and corn are most prevalent—93% of US soy and nearly 70% of corn are Roundup Ready. Animals are also fed derivatives of the other three Roundup Ready crops: canola, sugar beets, and cottonseed. Nutrient loss from glyphosate can therefore be severe.

This is especially true for manganese (Mn), which is not only chelated by glyphosate, but also reduced in Roundup Ready plants (see photo). One veterinarian finds low manganese in every livestock liver he measures. Another vet sent the liver of a stillborn calf out for testing. The lab report stated: No Detectible Levels of Manganese—in spite of the fact that the mineral was in adequate concentrations in his region. When that vet started adding manganese to the feed of a herd, disease rates dropped from a staggering 20% to less than ½%.

Veterinarians who started their practice after GMOs were introduced in 1996 might assume that many chronic or acute animal disorders are common and to be expected. But several older vets have stated flat out that animals have gotten much sicker since GMOs came on the scene. And when they switch livestock from GMO to non-GMO feed, the improvement in health is dramatic. Unfortunately, no one is tracking this, nor is anyone looking at the impacts of consuming milk and meat from GM-fed animals.

Alfalfa madness, brought to you by Monsanto and the USDA

As we continue to drench our fields with Roundup, the perfect storm gets bigger and bigger. Don asks the sobering question: “How much of the hundreds of millions of pounds of glyphosate that have been applied to our most productive farm soils over the past 30 years is still available to damage subsequent crops through its effects on nutrient availability, increased disease, or reduced nutrient of our food and feed?”

Instead of taking urgent steps to protect our land and food, the USDA just made plans to make things worse. In December they released their Environmental Impact Statement (EIS) on Roundup Ready alfalfa, which Monsanto hopes to reintroduce to the market.

Alfalfa is the fourth largest crop in the US, grown on 22 million acres. It is used primarily as a high protein source to feed dairy cattle and other ruminant animals. At present, weeds are not a big deal for alfalfa. Only 7% of alfalfa acreage is ever sprayed with an herbicide of any kind. If Roundup Ready alfalfa is approved, however, herbicide use would jump to unprecedented levels, and the weed killer of choice would of course be Roundup.

Even without the application of glyphosate, the nutritional quality of Roundup Ready alfalfa will be less, since Roundup Ready crops, by their nature, have reduced mineral . When glyphosate is applied, nutrient quality suffers even more (see chart).

The chance that Roundup would increase soilborne diseases in alfalfa fields is a near certainty. In fact, Alfalfa may suffer more than other Roundup Ready crops. As a perennial, it can accumulate Roundup year after year. It is a deep-rooted plant, and glyphosate leaches into sub soils. And “Fusarium is a very serious pathogen of alfalfa,” says Don. “So too are Phytophthora and Pythium,” both of which are promoted by glyphosate. “Why would you even consider jeopardizing the productivity and nutrient quality of the third most valuable crop in the US?” he asks in frustration, “especially since we have no way of removing the gene once it is spread throughout the alfalfa gene pool.”

It’s already spreading. Monsanto had marketed Roundup Ready alfalfa for a year, until a federal court declared its approval to be illegal in 2007. They demanded that the USDA produce an EIS in order to account for possible environmental damage. But even with the seeds taken off the market, the RR alfalfa that had already been planted has been contaminating non-GMO varieties. Cal/West Seeds, for example, discovered that more than 12% of their seed lots tested positive for contamination in 2009, up from 3% in 2008.

In their EIS, the USDA does acknowledge that genetically modified alfalfa can contaminate organic and non-GMO alfalfa, and that this could create economic hardship. They are even considering the unprecedented step of placing restrictions on RR alfalfa seed fields, requiring isolation distances. Experience suggests that this will slow down, but not eliminate GMO contamination. Furthermore, studies confirm that genes do transfer from GM crops into soil and soil organisms, and can jump into fungus through cuts on the surface of GM plants. But the EIS does not adequately address these threats and their implications.

Instead, the USDA largely marches lock-step with the biotech industry and turns a blind eye to the widespread harm that Roundup is already inflicting. If they decide to approve Monsanto’s alfalfa, the USDA may ultimately be blamed for a catastrophe of epic proportions.

Biofuels Emit 400 percent more CO2 than Regular Fuels

Although CO2 is not the pollutant crazy environmentalists portray it to be, where is the environmental solution on the current use of biofuels if they emit more of that ‘pollutant’ than gasoline or diesel?  There isn’t any.  It’s all about monopoly and control.

By Ethan A. Huff

A recent report issued by the European Union has revealed that biofuels, or fuel made from living, renewable sources, is not really all that beneficial to the environment. Rather than reduce the net carbon footprint as intended, biofuels can produce four times more carbon dioxide pollution than conventional fossil fuels do.

Common biofuels like corn ethanol, which has become a popular additive in gasoline, and soy biodiesel, which is being used in commercial trucks and other diesel-fueled vehicles, are often considered to be environmentally-friendly because they are renewable. But in order to grow enough of these crops to use for both food and fuel, large swaths of land around the world are being converted into crop fields for growing biofuels.

In other words, millions of acres of lush rainforests are becoming corn and soy fields in order to provide enough of these resources for their new uses. The net carbon footprint of growing crops for fuel is far higher than what is emitted from simple fossil fuel usage.

According to the report, American soybeans have an indirect carbon footprint of 340kg of CO2 per gigajoule (GJ), while conventional diesel and gasoline create only 85kg/GJ. Similarly, the European rapeseed, a plant similar to the North American canola, indirectly produces 150kg/GJ because additional land in other nations has been converted to grow rapeseed for food in order to replace the native crops that are now being grown for fuel.

Ironically, the amount of direct and indirect resources used to grow food for fuel is quite high compared to that of conventional fossil fuels. Biofuels also do not burn as efficiently and can be rough on the engines they fuel. Ethanol-enriched gasoline can also reduce gas mileage efficiency by upwards of 25 percent, depending on the vehicle.

Growing food for fuel ends up increasing the price of food for consumers. It also puts additional strain on families, many of whom are already having difficulties making ends meet in current economic conditions.

When all is said and done, biofuels seem to be a whole lot of hype with not a lot of benefit. Environmentally, fiscally and practically, biofuels are a disaster. Fossil fuels may not be an ideal form of clean energy, but at this point in time, they make a lot more sense than biofuels.

Russian Study: GMO Foods linked to long term sterility

A new study done by Russian scientists suggests that Genetically Modified Food may cause long term sterility, that is, sterility in

Genetically Modified Food

second and third generations. The scientists used hamsters for this research and divided them into groups. One group of hamsters was fed a normal diet without any soy products, a second group was fed non-GMO (genetically modified organism) soy, the third ate GM soy and the fourth group was fed an even higher amount of GM soy than the third.

Each group produced about seven to eight litters of baby hamsters each without any problems. But when the researchers selected new breeding pairs from the offspring, the second generation had a slower growth rate and reached their sexual maturity later than normal. They also had a mortality rate, five times higher than the hamsters who didn’t eat soy. Even more shocking was the fact that nearly all of the third generation GM soy eating hamsters were sterile and also experienced hair growing inside their mouths.

Genetically modified food has received much criticism earlier too, with studies linking them to problems with birth weight and infant mortality.

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