Filed under: 1st amendment, army, chemical spraying, Chemical Warfare, CIA, Czech Republic, Darpa, Dissent, Donald Rumsfeld, free speech, health and environment, Human Experiments, Iraq, medical Experiments, militarized police, Military, Military Industrial Complex, MK ultra, moscow, nanotech, nanotechnology, nation building, neocons, nerve gas, occupation, Oppression, Pentagon, pepperspray, Police State, Posse Comitatus, Protest, riot, riots, Russia, tear gas, US Constitution, War Crimes, War On Terror, WMD, ww1 | Tags: fentanyl, ferrocene, General Dynamics, Jim Ketchum, vehicle area denial, XM1063
Army uses “Calmatives”, non-lethal Chemical Weapons
The US Army’s XM1063 projectile is designed to be ’non-lethal’ – but is it peaceful or hovering on the brink of illegality?
Guardian
July 10, 2008
Is the XM1063 a stink bomb, a banana skin, or a bad trip? It’s hard to know. XM1063 is the code name for the US army’s new secret weapon which will “suppress” people without harming them, as well as stopping vehicles in an area 100m square. But is it a violation of chemical weapons treaties, or a welcome move towards less destructive warfare using non-lethal weapons?
Exactly how it works is classified, but we have established some details. The first part of the weapon is an artillery round – or as the army puts it, “a non-lethal personal suppression projectile” – fired from a 155mm howitzer, with a range of 28km. It scatters 152 small non-explosive submunitions over a 1-hectare area; as each parachutes down, it sprays a chemical agent. Development was overseen by the US Army’s Armament Research, Development and Engineering Centre (Ardec).
A presentation by the makers, General Dynamics, says the XM1063 will “suppress, disperse or engage personnel” and “deny personnel access to, use of, or movement through a particular area, point or facility” (=see PDF).
Smelling it out
Experts suggest three possible payloads: an existing riot-control agent, malodorants or a new chemical agent. Existing agents include CS gas and a form of pepper spray. But these seem unlikely choices, because their effects only last minutes, and could wear off before friendly forces arrive. They could also face a legal challenge: the 1997 Chemical Weapons Convention prohibits the use of riot control agents in warfare
“The matter is further complicated if pepper gas was used as the irritant since this is a plant toxin,” says Steve Wright of Leeds Metropolitan University. “Such toxins are explicitly banned.”
The possibilities seem to boil down to anti-traction agents (which make the whole area impossibly slippery), a malodorant or some novel chemical agents.
Anti-traction agents are possible, but seem unlikely because research in this area (such as Darpa’s Black Ice program) still seems to be at an early stage. It would be unusual for an agency to still be doing basic research when another is about to field a finished product.
A malodorant is a super stinkbomb with a truly intolerable smell. The Pentagon has been working on such chemicals for years, and a recent US army briefing on future artillery concepts specifically mentions artillery-delivered malodorants. (see PDF)
This might sidestep the Chemical Weapons Convention with the argument that malodorants are not chemical weapons. However, Ralf Trapp, an independent disarmament consultant formerly with the Organisation for the Prohibition of Chemical Weapons, challenges this interpretation.
“That argument rests on the assumption that there are no other toxic effects of these chemicals, and that one can control the dose so that one never crosses into the dose range for toxic effects,” says Trapp. “It also is based a concept of toxicity that is centuries out of date – malodorants do have a physiological effect and toxicity is not limited to lethality.”
Finally, there is the possibility that the US has decided to ignore the convention and use new non-lethal chemical agents. This approach has supporters in high places. Before the Iraq war in 2003, Donald Rumsfeld pushed for rules of engagement that would allow US forces to use non-lethal chemicals.
Until the 1980s, the US maintained stockpiles of a chemical incapacitant known as BZ or Agent Buzz. BZ is a psychoactive chemical causing stupor, confusion and hallucinations lasting for more than 24 hours. It has an evil reputation, but this is based largely on rumour as few facts are available. Most people have only heard of BZ in connection with the film Jacob’s Ladder. This depicted soldiers exposed to a secret chemical weapon in Vietnam with terrible results, including permanent psychosis.
“We are reaping the whirlwind today because of government secrecy in the past,” says Jim Ketchum, who ran the BZ testing program in the 1960s. “It has allowed critics to make unsupportable claims about agents such as BZ without rejoinder from the government research community.” Although the US is known to have been active in this area since 2000, no comments are available from researchers on non-lethal chemical agents – now termed “calmatives”, whatever their chemical action.
Ketchum has written a book, Chemical Warfare Secrets Almost Forgotten, about his experiences of testing BZ on hundreds of volunteers. The effects are very different to those portrayed by Hollywood. None suffered physical harm, mental breakdown or any lasting after-effects. Rather than driving subjects berserk, it has a sedative action. But unlike the fentanyl used in 2002 by Russian police when they stormed a Moscow theatre where Chechen rebels were holding hostages, BZ does not rely on sedation for its effects and does not carry the same risk.
Clouding the issue
Ketchum is now retired, and his successors have had decades to develop more effective and safer agents. But strict secrecy is still in place and there is no information about current research. Ketchum argues that the use of incapacitants would save lives, especially in situations where insurgents are mixed with the civilian population. Others believe that such agents are not just illegal but a step towards unlimited chemical weapons.
“It shouldn’t be forgotten that the horrors of gas warfare in the first world war began with teargas, followed up with lethal firepower,” says Wright.
As a sideline, the XM1063 projectile also has a “vehicle area denial” component composed of nanoparticles. The US army has researched chemicals to interefere with engine combustion in the past, including work with ferrocene (normally used as an anti-knock additive) which prevent engines from working, with the idea is that this would stop any vehicle within the affected area. However, the potential health risks are unknown, especially when nanoparticles are involved.
Testing of the XM1063 was completed successfully last year and it is due for low-rate production from 2009. Ardec says that the production decision is on hold awaiting further direction from the program manager. It seems the decision on whether to enter a new age of chemical warfare now rests with the military rather then civilians. Unless put under pressure, the US Army seems unlikely to give any details of what’s in the surprise package until it is used. And maybe not even then.
http://globalresearch.ca/index.php?context=va&aid=9573
Filed under: Australia, big pharma, Britain, defense department, Department of Defense, DoD, drinking water, Europe, european union, genetically modified, GM, gm food, health and environment, Japan, medical industrial complex, nanotech, nanotechnology, tap water, United Kingdom
Nanotech: Why Something So Small Can Be So Dangerous
Alternet
June 23, 2008
“It’s green, it’s clean, it’s never seen — that’s nanotechnology!”
That exuberant motto, used by an executive at a trade group for nanotech entrepreneurs, reflects the buoyant enthusiasm for nanotechnology in some business and scientific circles.
Part of the slogan is indisputably true: nanotechnology — which involves creating and manipulating common substances at the scale of the nanometer, or one billionth of a meter — is invisible to the human eye.
But the rest of the motto is open for debate. Nanotech does hold clean and green potential, especially for supplying cheap renewable energy and safe drinking water. But nanomaterials also pose possible serious risks to the environment and human health — risks that researchers have barely begun to probe, and regulators have barely begun to regulate.
What’s more, the potential damage could take years or even decades to surface. So these tiny particles could soon become the next big thing — only to turn into the next big disaster.
Nano enthusiasts see it as the next “platform technology” — one that will, like electricity or micro-computing, change the way we do almost everything. While that prediction is still unproven, there’s no question that nanotech is booming. Universities, industry, and governments around the globe are pouring billions into creating and developing nanoproducts and applications. A range of nanotechnologies is already used in more than 600 consumer products — from electronics to toothpaste — with global sales projected to soar to $2.6 trillion by 2014.
Environmentalists, scientists, and policymakers increasingly worry that nanotech development is outrunning our understanding of how to use it safely. Consider these examples from last month alone:
- An animal study from the United Kingdom found that certain carbon nanotubes can cause the same kind of lung damage as asbestos. Carbon nanotubes are among the most widely used nanomaterials.
- A coalition of consumer groups petitioned the U.S. Environmental Protection Agency to ban the sale of products that contain germ-killing nanosilver particles, from stuffed animals to clothing, arguing that the silver could harm human health, poison aquatic life, and contribute to the rise of antibiotic resistance.
- Researchers in Singapore reported that nanosilver caused severe developmental problems in zebrafish embryos — bolstering worries about what happens when those antimicrobial products, like soap and clothing, leak silver into the waste stream.
- The U.S. Department of Defense, in an internal memo, acknowledged that nanomaterials may “present… risks that are different than those for comparable material at a larger scale.” That’s an overarching risk with nanomaterials: Their tiny size and high surface area make them more chemically reactive and cause them to behave in unpredictable ways. So a substance that’s safe at a normal size can become toxic at the nanoscale.
- Australian farmers proposed new standards that would exclude nanotechnology from organic products.
- The European Union announced that it will require full health and safety testing for carbon and graphite under its strict new chemicals law, known as REACH (for Registration, Evaluation, and Authorisation of Chemical Substances). Carbon and graphite were previously exempt, because they’re considered safe in their normal forms. But the U.K. study comparing carbon nanotubes to asbestos, along with a similar report from Japan, raised new alarms about these seemingly
Old Materials, New Risks
The EU’s move is a critical step toward recognizing nanomaterials as a potential new hazard that requires new rules and new information.
The raw materials of nanotechnology are familiar. Carbon, silver, and metals like iron and titanium are among the most common. But at the nanoscale, these well-known substances take on new and unpredictable properties. That’s what makes them so versatile and valuable. It also makes them potentially dangerous in ways that their larger-scale counterparts are not.
Filed under: Britain, Europe, genetically modified, GM, gm food, health and environment, nanotech, nanotechnology, United Kingdom
UK: 104 Products Contain Toxic ’Grey Goo’
Daily Mail
March 11, 2008
Some skin creams use nano particles but many are now concerned about the use of the technology in foods
Potentially toxic chemicals are being incorporated into food, packaging, health supplements and other products by stealth, it is claimed.
Manufacturers boast that nanoparticles can deliver drugs or vitamins more effectively, kill harmful bugs in food or create self-cleaning windows.
But scientists, consumer groups and green campaigners fear the technology is being introduced into the diet, body and environment without proper safety checks.
Nanoparticles are 80,000 times thinner than a human hair – so small they can cross membranes protecting the brain or a baby in the womb.
Critics say it is not known how such tiny particles will interact with the body and organs in the long term, whether they are toxic or how long they will persist in the body.
Doom-mongers have warned that nanoparticles could mutate and reproduce out of control, consuming all life on earth, a scenario often referred to as “grey goo”.
Yesterday a report by Friends of the Earth said current regulations are “ill-equipped” to deal with the unique properties of nanoparticles.
It said: “Despite concerns about the toxicity risks of nanomaterials, consumers are unknowingly ingesting them because regulators are struggling to keep pace with their rapidly expanding use.”
The study found at least 104 food and agricultural products available in Europe, including the UK, which use nanotech particles or technology.
This includes some nutritional supplements under the Solgar brand, cling wrap and containers, antibacterial kitchenware, processed meats, chocolate drinks, baby food and chemicals used in agriculture.
Friends of the Earth’s food and farming spokesman, Helen Holder, said: “Europeans should not be exposed to potentially toxic materials in their food and food packaging until proper regulations are in place to ensure their safety.
“In the absence of proper safety regulations or mandatory labelling, consumers are being left in the dark about the products they consume and are unknowingly putting their health and the environment at risk.”
A Government sponsored report, published before Christmas, said a shortage of money for research had created an absence of basic information about nanoparticle toxicology.
It said research into how long these tiny particles persist in the body is urgently needed.
The consumer group Which? has called on the Government to set up a task force to take immediate steps to establish how nanotechnologies are being used in the UK and to urgently address gaps in current regulations.
noworldsystem.com 