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Archive for the ‘Allied Chemical and Dye Corporation’ Category

Phenols, Breasts and Brains: An Unnatural History Lesson Rooted in Nazi Concentration Camps

A Phenol is essentially the oxidation of benzene and is an important building block in PVC and many other synthetics. Benzene is a known carcinogen and its estrogenic properties have been written about since the 1920s. It promotes and accelerates estrogen receptive breast cancer. Its history and its biological impacts are important.
PVC was created by the “Council of the Gods” aka Nazi bastards in Auschwitz and Sachenhausen concentration camps.
“The First World War had made it clear that Germany had too few natural raw materials for armed conflict with its neighbors and so artificial ones had to be created: synthetic gasoline produced from coal as well as “Buna” (synthetic rubber evolved to PVC and other plastics made from coal tar and benzene) were at the center of the development of IG Farben, which had gone on growing in power within the Nazi state and had consolidated its position as a global player in the chemical industry. Its board described itself as the “Council of the Gods.”
“Sachenhausen concentration camp, twenty-one miles north of Berlin on the edge of the small town of Oranienburg, was opened in 1936, the year of the Olympic Games…
A single machine gun could keep all the prisoners covered. Altogether over 200,000 people from around forty nations would be confined here until just before the end of the war: political opponents, Jews, Sinti and Roma, homosexuals, Jehovah’s Witnesses, the citizens of occupied European countries, “anti-social elements,” alcoholics, drug addicts. Tens of thousands of detainees perished from hunger, illness, forced labor, mistreatment, and medical experiments. In the autumn of 1941 an estimated thirteen to eighteen thousand Soviet prisoners of war were executed with a shot to the back of the neck in a special facility that was designed to standardize the killing process.
One other perfidious specialty of the camp was the so-called shoe-walking unit. Prisoners had to test the resilience of the soles for the German shoe industry on uninterrupted forced marches…
The German economics ministry paid for the maintenance costs of the shoe-walking track. The Reich economics office controlled the material tests centrally, and only allowed leather substitute materials to of into production once they had been successfully tested in Sachenhausen. It paid the camp six reichmarks per day, per prisoner. In the case of rubber soles, after several improvements they could withstand 1,800 miles, or a seventy-five-day march. Still most materials were unusable long before that. Leather fabrics barely survived 600 miles, but a sole made of Igelit, a form of soft PVC, survived for over 1,200 miles. All of this was painstakingly noted down. According to estimates, up to twenty people die on the track every day. The SS called this “extermination through labor.” – Blitzed: Drugs during the Third Reich by Norman Ohler (Portions from pages 199 – 201)
Nazi technologies continue to destroy people today….
p-Nonyl-phenol: an estrogenic xenobiotic released from “modified” polystyrene by A M Soto, H Justicia, J W Wray, and C Sonnenschein – 1991 (1991! Pay attention to the commercials on your TVs. They’re why you never received this critically important information.)
This significant discovery was documented in the book Our Stolen Future.
“Somehow the plate didn’t look right, so Sonnenschein adjusted the microscope and looked again. His eyes were not playing tricks. The whole plate–every single colony growing in a specially modified blood serum–was as crowded as a subway train at rush hour. Regardless of whether they added estrogen or not, the breast cancer cells had been multiplying like crazy.
In all their years of cell work, they had never seen anything like it. At first, they felt stunned. They didn’t know what to think except that something had gone seriously wrong.
They carefully prepared another batch of plates with breast cancer cells, and once again, the breast cancer cells began mulitplying like crazy. It wasn’t a fleeting event. The mysterious contamination was still somewhere in the lab. They considered every possible explanation from carelessness to sabotage. In the end, the cause proved beyond their wildest imaginings, something even stranger and more unsettling than human sabotage.
When they stored the hormone-free blood serum in some of the test tubes, their breast cancer cells showed an estrogenlike response and multiplied like mad. But the cells showed no response to serum stored in other identical-looking tubes. Although the medical school lab kept ordering the tube number they had used for years, Corning was now supplying a lab tube that had a different chemical composition. When Soto asked about the chemical content of the new resin, Corning declined to disclose the information on the grounds that it was a “trade secret.”
It took months to purify the compound in the plastic that caused an estrogenlike effect in their experiments and do a preliminary identification using mass spectrometry analysis. Finally, they were ready to send a sample of the substance across the river to chemists at MIT for final identification.
At the end of 1989–two years after their detective work had started – they had a definitive answer: p-nonylphenol. Manufacturers add nonylphenols to polystyrene and polyvinyle chloride, known commonly as PVC, as an antioxidant to make plastics more stable and less breakable.
Soto & Sonnenschein found many concerning studies. One found that the food processing and packaging industry used PVCs that contained alkylphenols. Another reported finding nonylphenol contamination in water that passed through PVC tubing. They even discovered that nonylphenol is used to synthesize a compound in contraceptive creams. They also learned that the breakdown of chemicals found in industrial detergents, pesticides, and personal care products can likewise give rise to nonylphenol.
450 million pounds in 1990 in the United States alone and 600 million pounds globally.” – Our Stolen Future by Theo Colborn
The promotion of breast cancer is not the only biological effect.
The documentary “Trade Secrets” uncovers industry’s concealment of all the ways vinyl chloride destroys human health.
Vinyl chloride also causes bone to dissolve.
“NARRATION: In other words, they knew vinyl chloride could cause the bones in the hands of their workers to dissolve.
MOYERS: What does this memo tell you? This particular memo?
ROSNER: Oh, it tells me the industry never expected that they would be held accountable to the public about what was happening to the work force. They never even expected their workers to learn of the problems that they were facing and the causes of it.
NARRATION: Bernie Skaggs’ hands were eventually X-rayed.
SKAGGS: I was really shocked.
MOYERS: What did you see?
SKAGGS: Well, on the hands, my fingers were all–you know, showed up–the bones showed up white in the x-ray.
MOYERS: In a normal x-ray.
SKAGGS: Yeah, normal x-ray, yeah. And mine were okay till they got out to this first joint out there. Then from there out, most of it was black. Some of them had a little half moon around the end, and then just a little bit beyond the joint. And I said, “What is that? You’ve really surprised me.” He said, “That–the bone is being destroyed.”
MOYERS: The black showed that there was no bone there.
SKAGGS: Yeah, right. The bone was disappearing, just gone…
Vinyl chloride destroys all the places calcium accumulates. Calcium is very important in the brain.
“Because the “chemo-” part of chemoelectric messages sent by the nerve cells in the brain has largely to do with calcium, the neuron-firing communication networks of the brain depend as much on calcium as telephone communication does on copper telephone wire.” Microcosmos page 184.
“Doctor LeFevre theorizes that vinyl chloride is absorbed in body fats and carried to the brain.”
NARRATION: Despite the startling prospect that vinyl chloride could affect the brain, the companies took no action – and told no one. NARRATION: So workers like Dan Ross were not told why they were getting sick.
ROSS: He came home from work one day, and he was taking off his boots and socks, and I looked at his feet. The whole top of ’em were burned. Now, he had on safety boots, steel-toed, and the whole top of his feet were red where the chemicals had gone through his boots, through his socks, under his feet, and burned them, both feet.
MOYERS: You knew that chemicals had caused it?
ROSS: Oh, yeah. There was no doubt in his mind, because he had been standing in something. I don’t remember what it was. I said, “My God, what was it that goes through leather, steel-toed boots and your socks to do that?” You know, I said, “Don’t get in it again, whatever it was. Don’t get in it again.”
HOFFPAUIR: I got chlorine gas and I went to the hospital, but, you know, it, it was just part a the – it wasn’t an everyday thing that you got chlorine. It was a everyday thing you got vinyl and EDC. Chlorine’s a bad, “bad news doctor” there. It’ll hurt ya. But you weren’t aware. You knew that instantly. You weren’t aware that this insidious little monster was creeping up on you, vinyl chloride was creeping up on you and eating your brain away. And that’s what it all tended out to prove out that it was doing. Just eating your brain up. Who was to know? No one told us. No one made us aware of it.
– Trade Secrets documentary
Ross died of brain cancer. Vinyl chloride was utilized in many applications. It was even used as a propellant in hair spray products in the 1960’s as a “trade secret” ingredient.
NARRATION: Once again, buried in the documents, is the truth the industry kept hidden.
March 24, 1969. BF Goodrich Chemical Company Subject: Some new information.
“Calculations have been made to show the concentration of propellant in a typical small hair dresser’s room. …All of this suggests that beauty operators may be exposed to concentrations of vinyl chloride monomer equal to or greater than the level in our polys.”
NARRATION: The threat of lawsuits gave the industry second thoughts about marketing aerosols.
Union Carbide. Internal Correspondence. Confidential.
“If vinyl chloride proves to be hazardous to health, a producing company’s liability to its employees is limited by various Workmen’s Compensation laws. A company selling vinyl chloride…”
MOYERS: “A company selling vinyl chloride as an aerosol propellant, however, has essentially unlimited liability to the entire U.S. population.” What does that mean?
ROSNER: The problem that they’re identifying is the giant elephant in the corner. It’s the issue of what happens when worker’s comp isn’t there to shield them from suits in court, what happens if people who are not covered by worker’s comp suddenly get exposed to vinyl chloride and begin to sue them for damages to their health.
MOYERS: Unlimited liability.
ROSNER: Unlimited liability. Millions and millions of women, of workers, of people exposed to monomer in all sorts of forms. This is catastrophic. This is potentially catastrophic.
Interoffice Memo. Ethyl Corporation.
“Dow … is questioning the aspect of making sales of vinyl chloride monomer when the known end use is as an aerosol propellant since market is small but potential liability is great.”
ROSNER: They consciously note that this is a very small portion of the vinyl chloride market. So why expose themselves to liability if this minor part of the industry can be excised and the huge liability that goes with it excised?
Allied Chemical Corporation. Memorandum. Subject: Vinyl Chloride Monomer.
“Concerning use of vinyl chloride monomer as aerosol propellant, serious consideration should be given to withdrawal from this market.”
MARKOWITZ: Here you have the industry saying we are going to give up this part of the industry, the aerosol part of the industry, because the liability is so great. But they are not going to inform the work force. They are not going to do anything about protecting the work force because the liability is limited for them. And so it’s a very cynical way of deciding on how you are going to deal with this dangerous product.
They have put people in danger. They have exposed a variety of people to a dangerous product, and, yet, they are not willing to say this is something we did, we didn’t know it, we, you know, had no way of knowing it, whatever excuses they wanted to make up, but they don’t even do that.
NARRATION: Some companies would give up the aerosol business – but quietly. No public warning was issued. Now, 30 years later, those hairdressers and their customers are unaware of the risks to which they were exposed. And it is impossible to know how many women may have been sick or died – without knowing why.
The Trade Secrets documentary

PVC is not the only problem.
For those not familiar with benzene technologies and why all polycarbonates are harmful… hint… they are rooted in fossil fuels.
“The Polycarbonate Problem.”
BPA, Benzene, Phenols, & Carbonyl Chloride (also known as Phosgene)
“Although it’s only in the past few years that news of bisphenol A’s health impacts began to reach a nonscientific general public–news that has since spread rapidly–it was first recognized as a synthetic estrogen in the 1930s. Papers published in the journal of Nature in 1933 and 1936 describe its estrogenic effects on lab rats. These papers also commented on the possible carcinogenic activity of materials with similar or comparable composition to bisphenol A–specifically materials synthesized from petroleum (from which bisphenol A is ultimately derived) and coal tar.
Some two decades later, bisphenol A was launched into everyday life with the development of commercially produced polycarbonates. Major production of these plastics began in the United States in the late 1950s after a General Electric engineer named Daniel W. Fox formulated a material based on BPA that GE called Lexan. The invention was not so much deliberately planned as it was the result of what Fox called his ability to take “a few clues and jump to conclusions that frequently panned out.”
While experimenting with different materials that might ultimately make a good moldable polymer, Fox decided to work with bisphenols, compounds derived from petroleum processing that were then being used to make various epoxy resins. As molecules, bisphenols have a structural feature that makes them useful as potential chemical building blocks. Attached to their hydrocarbon ring is what’s called a hydroxyl group, an oxygen and hydrogen that together form a site to which other molecules can bond. This structure is common to both synthetic and naturally occurring compounds, a coincidence that will later turn out to be important to how bisphenol A behaves.
Fox’s interest in the hydroxyl group was as a polymer building site, not for its biological activity. But when attached to a hydrocarbon ring as it is in bisphenol A, the entire chemical grouping becomes a molecule known as a phenol–an aromatic hydrocarbon, a ring made up of six carbon atoms and five hydrogen atoms plus a hydroxyl group. Phenols are commonly made by oxidizing benzene, which essentially means adding oxygen to benzene. Phenols are toxic, but they are also known for their antiseptic properties and so were used to kill germs in the nineteenth century surgical procedures.
This molecular group consisting of six carbon-five hydrogen rings with a hydroxyl group attached, however, is also part of the structure of substances produced naturally by the human body, compounds that include estrogen and thyroid hormones. Introducing a manufactured chemical that includes the phenol group into a cellular environment may therefore pose a problem because the synthetic material may compete biochemically with the similarly structured naturally occurring chemical. Thinking in green chemistry terms, the presence of a phenol group on a synthetic, therefore, should be a sign to investigate that substance’s potential as an endocrine disruptor.
The potential cellular toxicity of phenols has actually been known for decades. Research done in the 1950s, written about by Rachel Carson in Silent Spring, discussed the mechanisms by which pesticides constructed with phenols had the ability to prompt oxidation processes that upset cellular metabolism. These reactive chemical groups can disrupt formation of enzymes vital to energy production, which in turn may interfere with how an organism produces and differentiates cellular material. These processes of cellular reproduction are involved in virtually every bodily system, from how an individual processes sugars and calcium to how its reproductive system functions. Carson described the introduction of xeniobiotic phenols as thrusting “a crowbar into the spokes of a wheel. Had Fox been a green chemist, our current synthetic landscape might look very different.
But because Fox and his colleagues were focused on functional performance and on working with readily available chemical ingredients, bisphenols seemed a good choice. As an additional building block that might combine with the bisphenol molecules’ hydrocarbons to yield a useful polymer, Fox chose a chlorine compound called carbonyl chloride. Carbonyl chloride was then–and is currently–a common ingredient in the synthetics known as isocyanates that are used to make any number of products, including polyurethanes that go into varnishes, paints, and plastic foams. By the 1950s it was known that chlorinated hydrocarbons made useful synthetics so this was a logical route for Fox to follow–but no one had yet made the kind of moldable, shatter-resistant plastic that Lexan turned out to be.
If you’re building a polymer, a linked chemical chain in effect, you need lots of the same repeating pieces; ideally you’ll work with shapes that are easy to find and lend themselves to chemical bonding. It’s here that a Tinkertoy or Lego analogy comes to mind. To add pieces to a chemical structure, you need sites where new sticks and building blocks can be attached. So it was with the choice of bisphenols and carbonyl chloride, which lend themselves to such bonding and were both readily available industrial chemicals. Had Fox been practicing green chemistry, however, he would never–even with what was known in the 1950s–have launched a product that required copious quantities of carbonyl chloride.
Carbonyl chloride is also known as phosgene and is so toxic that it was used as a chemical weapon during World War I. The isocyanates it’s used to make are also highly toxic. One such compound, methyl isocyanate, was the gas involved in the deadly 1984 disaster at the Union Carbide plant in Bhopal, India. Lest anyone wonder if nerve gas is lurking in your bike helmet or CD cases, however, let me quickly explain that no phosgene or even any chlorine ends up in the final bisphenol A polymer; the chlorine compound is simply a reagent, an ingredient that enables the desired chemical bonding to take place.
Yet speaking to an interviewer in 1983, Fox acknowledged that using large quantities of a chemical such as phosgene was indeed hazardous. But, Fox continued, it “was not a totally frightening undertaking because we had good advice. I would say that we have been tightening up our whole phosgene handling ever since, investing in an awful lot of money in trying to make the stuff doubly safe and then triply safe and quadruply safe.” Still, the interviewer pressed, “Has there ever been a problem?” To which Fox responded, “We have had one or two small discharges. To my knowledge, I don’t think GE advertised it, but I think we probably had a ‘casualty’ from phosgene.” Did this give anyone second thoughts about going into business? “I don’t think it did,” Fox replied.
At the time Fox was working, new material inventions like carbonates were just that–inventions that came first, with applications and markets found later. “When we invented polycarbonates in the early 1950s we had a polymer with an interesting set of properties and no readily apparent applications,” Fox said in 1983. But what was known about polycarbonates’ behavior early on that might have hinted at what’s since been discovered about their physical and biological behavior” Could this information have been used to prevent what are clearly problems of chemical contamination? Endocrine-disruption science is relatively new, but some of what was known early on about bisphenol A and polycarbonates would seem to indicate a material perhaps not ideally suited for use, say, with food, heat, and dishwashing detergents.
That polycarbonates built from bisphenol A were vulnerable to certain detergents, solvents, and alkali solutions (household ammonia would qualify) has been known since at least the 1970s. Ammonium hydroxide (essentially a solution of ammonia in water) was discussed as a possible way to break polycarbonates down to its chemical constituents–for materials recovery and reuse and as a way to remove unwanted polycarbonate from another surface. It was also known that various additives used to modify polycarbonate mixtures could leach from the finished plastics when they came into contact with certain liquids. Documents filed with the Federal Register in 1977 list chloroform, methylene chloride, and chlorobenzene among these additives. (The U.S. Department of Health and Human Services considers chloroform and methylene chloride suspected carcinogens, while chlorobenzene is known to cause liver, kidney, and nervous system damage and produce a precancerous condition in lab rats.) Correspondence between GE Plastics Division personnel in the 1970s and 1980s also voiced concern over the presence of chlorobenzene in water stored in polycarbonate bottles (but not bottles made by GE as it happened) and about how the stability of these polymers might affect their ability to be used with food.
A memo circulated within the Lexan division of GE in 1978 also noted that “through reaction with water,” polycarbonate resin can degrade. “The two largest applications of Lexan resin for which hydrolytic stability is critically important are baby bottles and water bottles,” ran the 1978 memo.
In each application the finished parts are subjected to conditions which will cause, after prolonged treatment, molecular weight reduction. However, in each application, actual product failure is usually observed before significant molecular weight reduction is detectable by the usual techniques…..Baby bottles are subjected to autoclaving at 250 degrees F in saturated steam and fail under these conditions by becoming opaque, and sometimes by shrinking and deforming. Milk and water bottles are washed in aqueous solutions of alkaline or caustic cleaning agents and fail by stress cracking. The relationship between practical failure modes and the fundamental physical and chemical processes involved is not fully understood.
That polycarbonates might degrade when heated, washed, or exposed to sunlight was also discussed in company memos in the late 1970s and early 1980s. Three decades later, the plastics industry assures consumers that such wear and tear of polycarbonate baby bottles poses no health concerns for infant users.” – Chasing Molecules by Lizzie Grossman (Pages 58 – 62)
BPA as a breast cancer accelerator was also written about in Our Stolen Future. BPA is also used in our water infrastructure throughout the United States.
“Researchers soon realized the estrogenic effect was due to a contaminant rather than a hormone that was causing the breast cancer cells to rapidly multiply. They determined that the contaminant was bisphenol-A – BPA and that the source of the contamination was the polycarbonate lab flasks used to sterilize the water used in the experiments….
In a 1993 paper, the Stanford team reported their discovery and their discussions with the manufacturer of polycarbonate, GE Plastics Company. Apparently aware that polycarbonate will leach, particularly if exposed to high temperatures and caustic cleaners, the company had developed a special washing regimen that they thought had eliminated the problem.
In working with the company, however, the researchers discovered that GE could not detect bisphenol-A in samples sent by the Stanford lab-samples that were causing proliferation in estrogen-responsive breast cancer cells. The problem proved to be the detection limit in GE’s chemical assay-a limit of ten parts per billion. The Stanford team found that two to five parts per billion of bisphenol-A was enough to prompt an estrogenic response in cells in the lab.” Our Stolen Future, pages 130 – 131
They even profit from the cancers they cause.
Astra Zeneca, the corporate founder, and editor of National Breast Cancer Awareness Month has no moral conscience.. just money on their minds.
Astra Zeneca co-owns Syngenta, the company that manufactures Atrazine. This popular pesticide acts as a chemical estrogen or aromatase enhancer, and pollutes rain water, rivers and produce across the United States. Many laboratory studies have shown that Atrazine, now banned in Europe, increases the risk of prostate, breast and ovarian cancers in lab animals and in humans.
Astra Zeneca also manufactures Arimidex, one of the aromatase inhibitor drugs, used to protect individuals against a recurrence of estrogen positive breast cancer. Arimidex works by blocking aromatase or future estrogen levels in the body.
This means that women who eat produce and grains and drink water tainted by Astra Zeneca’s Atrazine pesticide, increase their risk of developing breast cancer. But now women can also purchase Astra Zeneca’s Arimidex, to help them survive, once they actually develop estrogen positive breast cancer.
How do these corporate fathers and mothers of National Breast Cancer Awareness Month sleep at night come October, when it is time to bring out the pink ribbons?
Dr Tyrone Hayes, an award-winning tenured professor of biology at the University of California at Berkeley discovered Atrazine’s adverse hormonal effects on laboratory animals while working for Astra Zeneca as a research consultant. Hayes has now named Astra Zeneca a one-stop shopping experience.

Even chemotherapy is rooted in Nazi war technologies.

One of the first effective chemotherapy agents, not surprisingly, was valued not for its curative properties but for its efficacy as a killer chemical. We know this chemical today as a notorious agent of war—mustard gas. Deployed by the German Empire during the First World War on the battlefields of Europe, most infamously in Ypres, Belgium, mustard gas—a relatively simple combination of sulfur, carbon, and chlorine—killed hundreds of thousands of French and colonial troops. Over a million others were sickened or maimed for life.* (Side note – this figure is wrong. There were 15,000 and of those 1/4 were killed that’s according to Joseph Borkin, a Treasury investigator who wrote a book about IG Farben and his figures are aligned with others) Once it made its way into the body, the chemical also affected tissues with larger proportions of dividing cells. Wartime autopsies found the lymph nodes, spleens, and bone marrow of victims depleted of white cells…. Mustard gas may have been “gone” from the battlefield, but it was by no means forgotten—which ostensibly explains why, in 1943, the American Liberty ship John Harvey was carrying a load of mustard gas bombs. The bombs were intended for retaliation, just in case the Germans reneged on the treaty. Docked in the old port city of Bari, Italy, the cargo likely would have slipped through the war and evaded the history books had the Germans not raided the port. On December 2, as German planned bombarded Bari, sinking 28 cargo ships including the John Harvey, nearly 100,000 pounds of mustard gas spilled across the harbor and rose into the night sky. Thousands of soldiers and citizens were exposed. Hundreds were hospitalized with chemical burns and blindness. At least 83 died. The cause was a mystery to all but a few “in the know.” Upon autopsy, it was found that the victims’ white-blood-cell counts were oddly depleted.
By the time of the Bari incident, leukemia was fairly well characterized as a cancer of the white blood cells. And secretive studies into the effects of mustard-gas-derived chemicals on white blood cells were beginning to bear fruit. Experiments by pioneering pharmacologists Alfred Gilman and Louis Goodman revealed astonishing efficacy of one mustard-like chemical that targeted white blood cells in laboratory mice afflicted with lymphoma. Typically, laboratory mice with lymphoma lived about 21 days. The first mouse treated with the mustard agent lived a remarkable 84 days. After two doses its tumor regressed. The chemical agent seemed to target cancerous white blood cells. What Goodman and Gilman couldn’t have known then was how the mustard derivative worked—why it seemed to target white cells and not most others. Years later, studies revealed that the chemical slips into the DNA molecule, rendering it incapable of normal replication. Ultimately, the hobbled cells die. Since it targets cells in the process of replicating—those that reproduce most often, including cancerous white blood cells, are preferentially killed. Unfortunately, the chemical’s efficacy was fleeting. Cancer cells, observed Gilman, were remarkably resilient. When dosing stopped, the cancer bounced back. Worse, it became increasingly tolerant to drug exposure. Yet, even though cancer control was short-lived, the ability to melt away a tumor through chemical treatment was unprecedented. In 1942, the first human subject suffering from as advanced leukemia was injected with nitrogen mustard. The response, writes Gilman, “was as dramatic as that of the first mouse.” Exposure to the mustard-gas derivative had chased the cancer into remission within days. However, as with the mice, disease respite was temporary…. Still, chemotherapy derived from mustard gas and other chemicals granted cancer patients a reprieve from death: a few weeks, months, or years—sometimes long enough for the next drug.” – Unnatural Selection (portions from pages 62 – 64.)
Water infrastructure and our food system for our communities do not have to be rooted in fossil fuel-based products that destroy health. There are far better methods of supplying communities with water and food than our current infrastructure. We unfortunately did not learn the most important lessons from history. The ruling class have created an economic model rooted in fossil fuels that destroy the health of our communities. We have the ability to redesign our economic model and communities that do not sicken and destroy the health of our people and our environment. There are water and food infrastructure designs that restore health to our environment and ourselves. There are solutions but only if we destroy the ruling class cartel and their horrific economic and government model that makes profits from war and the suffering.

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Merchants of Death: A Study of the International Armament Industry by H.C. Engelbrecht, PhD, and F.C. Hanighan, 1934 (Excerpts)

“In 1930, as a result of the endeavors of disarmament advocates, a treaty was signed between the United States, Great Britain, and Japan. While it fell far short of disarming these powers, it did agree on a joint policy of naval limitation and so prevented for a time a costly naval building competition between these countries. President Hoover submitted the treaty to the Senate for ratification. At this point an organization called the Navy League entered the picture. It raised strenuous objections to the treaty on the ground that it “jeopardized American security.” The League failed to convince the Senate, however, and the treaty was ratified.
Presumably the Navy League was a collection of individuals who distrusted international efforts to disarm and who believed that a large navy would insure the safety of the United States and its citizens. Some might assail these conservatives for clinging to reactionary ideas, but their point of view was a recognized patriotic policy upheld by many who had no connection with the League. But what was the Navy League and who were its backers?
Representative Claude H. Tavener made a speech in Congress in 1916 which revealed the results of his investigation into the nature and character of the League. He cited the League’s official journal to show that eighteen men and one corporation were listed as “founders.” The corporation was the Midvale Steel Company from which the government had bought more than $20,000,000 worth of armor plate, to say nothing of other materials. Among the individual founders were Charles M. Schwab, president of the Bethlehem Steel Corporation, which makes armor plate and other material; J.P. Morgan, of the United States Steel Corporation, which would profit heavily from large naval orders; Colonel R.M. Thompson, of the International Nickel Company, which dealt in nickel, that metal so necessary in making shells; and B.F. Tracy, former Secretary of Navy, who became attorney for the Carnegie Steel Company. More than half the founders of this energetic League were gentlemen whose business would benefit by large naval appropriations. It is evident from this that American arms makers have employed the Navy League to prevent Naval disarmament.
In Europe their colleagues are even more active. Hitler has now become the symbol of the return of German Militarism. Even before he managed to obtain supreme power there was speculation as to his financial backers. Obviously they included German industrialists fearful of socialism, communism, and the labor unions, nationalists smarting under the “insults” of the Versailles treaty, and a host of other discontented folk. But on the list of contributors supplying funds to the Hitler movement were the names of two capitalists—VonArthaber and Von Duschnitz—directors of Skoda, the great armament firm of Germany’s neighbor and enemy, Czechoslovakia.
Interlocking directorates are a familiar phenomenon in the United States. The real controller of industries is frequently found in the most unexpected places. In Europe the same system prevails. And so it appears that Messrs. Von Arthaber and Von Duschnitz represent a firm which is controlled by yet another firm. The head of this holding company is neither German nor Czech. He is a French citizen., M. Eugene Schneider, president of the Schneider-Creusot Company which for a century has dominated the French arms industry and which through its subsidiaries now controls most of the important arms factories in Central Europe. Some of Hitler’s financial support, then, was derived from a company owned by a leading French industrialist and arms maker.
Arms merchants also own newspapers and mold public opinion. M. Schneider is more than just the president of Creusot. He is the moving spirit of another great combine, the Comite des Forges. This French steel trust through one of its officers has controlling shares in the Paris newspaper Le Temps, the counterpart of The New York Times, and the Journal des Debats, which corresponds to the New York Herald Tribune. These two powerful papers constantly warn their readers of the “danger of disarmament” and of the menace of Germany. Thus M. Schneider is in a position to pull two strings, one linked to Hitler and German militarism, and the other tied to the French Press and French militarism.
Arms merchants have long carried on a profitable business arming the potential enemies of their own country. In England today in Bedford Park there is a canon captured by the British from the Germans during the World War. It bears a British trademark, for it was sold to Germany by a British firm before the war. English companies also sold mines to the Turks by which the British men-of-war were sunk in the Dardanelles during the war. The examples of this international trade in arms before the war are legion, as will be shown.
Nor are they lacking today. Recently the trial of the British engineers in Soviet Russia brought up the name of Vickers, the engineering firm which employed the accused. But Vickers has other lines than building dams for Bolsheviks. It is the largest armament trust in Great Britain. For years relations between the Soviets and Great Britain were such that the Soviets were convinced that Britain would lead the attack of the “capitalist powers” on Russia. Yet in 1930 Vickers sold 60 of its latest and most powerful tanks to the Soviets.
Today Russia is less of a problem to England than is Germany. The rise of Hitler has reawakened much of pre-war British suspicion of Germany. Germany was forbidden by the Treaty of Versailles to have a military force. Yet in 1933, at a time at a time when relations between the two countries were strained, the Germans placed an order with an English aircraft manufacturer for 60 of the most efficient fighting planes on the market, and the order would have been filled had not the British Air Ministry intervened and refused to permit the British manufacturer to supply the planes.
Arms makers engineer “war scares.” They excite governments and peoples to fear their neighbors and rivals, so that they may sell more armaments. This is an old practice worked often in Europe before the World War and still in use. Bribery is frequently closely associated with war scares. Both are well illustrated in the Seletzki scandal in Rumania. Bruno Seletzki (or Zelevski) was the Skoda agent in Rumania. In March, 1933, the Rumanian authorities discovered that this Czech firm had evaded taxes to the extent of 65 million lei. In searching Seletzki’s files, secret military documents were sealed and Seletzki’s affairs were to undergo a thorough “airing.”
A few days after the seals were found broken and many documents were missing. Seletzki was now held for trial and his files were carefully examined. The findings at that time pointed to widespread corruption of important government and army officials. Sums amounting to more than a billion lei had been distributed among the “right” officials, hundreds of thousands had been given to “charity” or spent on “entertainment,” because the persons receiving these sums “will be used by us some day.” The war scare of 1930 was revealed as a device to secure Rumanian armament orders, for Russia at that time was represented as ready to invade Bessarabia, and Rumania was pictured as helpless against this threat; all the hysteria vanished over night when Skoda was given large armament orders by the Rumanian government. General Popescu who was involved shot himself in his study and other officials were exceedingly nervous about the revelations which might yet come. It was never revealed who Seletzki’s friends in the Rumanian government had been.
All these incidents took place in times of peace. Presumably arms merchants become strictly patriotic once their countries start warlike operations. Not at all! During the World War at one time there were two trials going on in France. In one, Bolo Pasha was facing charges of trying to corrupt French newspapers in the interest of the Central Powers. He was convicted and executed. In the other, a group of French industrialists were tried for selling war materials to Germany through Switzerland. Although the facts were proved, these industrialists were released because they also supplied French armies.” – Portions from pages 1 – 6

From Dye Stuff Industrialists to Chemical Weapon Makers.

“Wherever there is a chemical or dye-stuff industry, the possibilities are given for rapid production of poison gases for war.
It is not surprising, then, that the great chemical factories of the world are to be found within the borders of the great powers. The largest companies or combines are I.G. Farben Industrie in Germany, the Imperial Chemical Industries in England, Kuklmann in France, DuPont de Nemours, the Allied Chemical and Dye Corporation (Dow Chemical) in the United States.
The Germans have always been leaders in the chemical industry. In the industrial reorganization which followed the war, the great chemical trust, I.G. Farben Industrie, was formed in 1925, with headquarters at Frankfurt and factories in a dozen places. The board of directors is made up of various nationalities, all leaders of the chemical industry in their several countries. The capital of the trust, as noted, is owned, to at least 75 per cent, by the French. The German chemical trust has close connections with other chemical companies in Spain, Italy, France, England, and even in the United States. I.G. Farben has evolved more than a thousand poison gases for use in the next war.
The French Etablissements Kuklmann owes its origin to the Germans. Right after the war with the German industrialists agreed to establish a chemical industry in France. In 1923, during the Ruhr invasion, negotiations were completed and in the next year German experts came to France to train French chemists in the use of German chemical patents. Naturally they were well paid. Kuklmann maintains close industrial relations with the German chemical trust and with the Spanish dynamite companies. Financially it is tied to Dillon, Read of New York, the Credit Suisse of Zurich ,and Mendelssohn of Berlin.
In England the Imperial Chemical Industries (I.C.I.) monopolizes the chemical industry. It, too, owes its real importance to German patents which it secured after the war. It is very closely tied to the government and frankly acknowledges its readiness for war. …
The United States boasts of a flourishing chemical industry which also owes its present status to German patents. A number of giants with many international ramifications are dominant, above all Du Pont de Nemours and the Allied Chemical and Dye Corporation….
Fifteen years have lapsed since the “war to end all wars.” Yet the arms industry has moved forward with growing momentum as if the pacific resolutions of the various peoples and governments had never existed. All these technical improvements, all the international mergers, the cooperation between government and the industry bear an uncomfortable resemblance to the situation during the epoch preceding 1914. Is this present situation necessarily a preparation for another world struggle and what, if any, are the solutions to these problems.” – Portions from pages 255 – 256.

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