Depleted Uranium And The Iraq War’s Legacy Of Cancer, Mint Press News, Depleted uranium was used in Iraq warzone weaponry, and now kids are playing in contaminated fields and the spent weapons are being sold as scrap metal. By Frederick Reese @FrederickReese | July 2, 2014 As instability in Iraq is forcing the United States to consider a third invasion of the Middle Eastern nation, the consequences of the first two invasions are coming into focus. For large sectors of the Iraqi population, American intervention has led to sharp spikes in the rates of congenital birth defects, premature births, miscarriages and leukemia cases.
According to Iraqi government statistics, the rate of cancer in the country has skyrocketed from 40 per 100,000 people prior to the First Gulf War in 1991, to 800 per 100,000 in 1995, to at least 1,600 per 100,000 in 2005.
The culprit behind all of these health issues is depleted uranium, a byproduct of uranium enrichment. With a mass fraction a third of what fissile uranium would have, depleted uranium emits less alpha radiation — up to 60 percent less than natural uranium, according to the U.S. Department of Defense. This “relative” safety offered a rationale for many nations — particularly, the U.S. — to put the waste material to use.
As depleted uranium is 1.67 times denser than lead, a depleted uranium projectile can be smaller than an equivalent lead projectile but produce similar results. This smaller size means a smaller diameter, less aerodynamic drag and a smaller area of impact, meaning that depleted uranium bullets can travel faster and inflict more pressure on impact, causing deeper penetration. Additionally, depleted uranium is incendiary and self-sharpening, making depleted uranium ideal for anti-tank ammunition. It is also used as armor plating for much of America’s tank fleet.
The problem with using depleted uranium, however, lies in the fact that depleted uranium is mostly de-energized. In practical terms, depleted uranium can have — at a minimum — 40 percent the radioactivity of natural uranium with a half-life that can be measured in millennia (between 703 million to 4.468 billion years). While the depleted uranium presents little to no risk to health via radiation due to its relatively weak radioactivity, direct internal contact with the heavy metal can have chemical toxicity effects on the nervous system, liver, heart and kidneys, with DNA mutations and RNA transcription errors being reported in the case of depleted uranium dust being absorbed in vitro.
While depleted uranium is not as toxic as other heavy metals, such as mercury or lead, pronounced toxicity is still possible through repeated or chronic exposure………http://www.mintpressnews.com/depleted-uranium-iraq-wars-legacy-cancer/193338/