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Fukushima & Japan Tokyo Area Outside Tokyo Fukushima Reactors Status of Reactors Reactor No. 1 Reactor No. 2 Reactor No. 3 Spent Fuel Pools Spent Fuel Pool No. 1 Spent Fuel Pool No. 2 Spent Fuel Pool No. 3 Spent Fuel Pool No. 4 Common Spent Fuel Pool Radiation Releases Plutonium Uranium Longterm Chernobyl Comparisons Criticality US & Canada West Coast California Los Angeles San Francisco Bay Area Hawaii Seattle Canada Midwest East Coast Florida US Nuclear Facilities North Anna (VA) Calvert Cliffs (MD) World Europe France UK Germany Chernobyl Rest of Europe South America Russia Asia China South Korea Taiwan Rest of Asia Pacific Maps & Forecasts Radiation Maps Radiation Forecasts Rad. Facts Internal Emitters Health Testing Food Water Air Rain Soil Milk Strange Coverups? Children Video Home page_

Fukushima Reactors Status of Reactors Reactor No. 1 Reactor No. 2 Reactor No. 3 Spent Fuel Pools Spent Fuel Pool No. 1 Spent Fuel Pool No. 2 Spent Fuel Pool No. 3 Spent Fuel Pool No. 4 Common Spent Fuel Pool Radiation Releases Plutonium Uranium Chernobyl Comparisons Criticality Japan Tokyo Area Outside Tokyo U.S. & Canada West Coast California Los Angeles San Francisco Bay Area Hawaii Seattle Canada Midwest East Coast Florida US Nuclear Facilities Pacific Radiation Facts Internal Emitters Health Children Testing Food Water Air Rain Soil Milk Longterm Strange Coverups? Video Home Terms About Contact     Cooling system for reactors and spent fuel pools stopped working three times over 16-day period at Alabama nuke plant » NHK: TEPCO doesn’t know where melted fuel is at in reactors or actual level of radioactive particles still being released — About to start checking July 29th, 2011 at 06:43 AM POSITION: relative; BORDER-BOTTOM-STYLE: none; PADDING-BOTTOM: 0px; BORDER-RIGHT-STYLE: none; MARGIN: 0px; PADDING-LEFT: 0px; WIDTH: 336px; PADDING-RIGHT: 0px; DISPLAY: inline-table; BORDER-TOP-STYLE: none; HEIGHT: 280px; VISIBILITY: visible; BORDER

The operator of the Fukushima Daiichi nuclear power plant says it will extract air from troubled reactors at the plant to measure the amount of radioactive substances. [...] The operation is intended to obtain accurate data on what kind of radioactive substances are being released and in what quantity. The air extraction is expected to begin later on Friday for the No.1 reactor and in early August for the No.2 unit. No plans have been decided for the No.3 reactor due to high radiation levels in part of its building.

that TEPCO doesn’t know where the melted fuel is or the actual level of radioactive particles still being released: TEPCO hopes the findings may also help the company grasp the extent of leakage of nuclear fuels into the containment vessels. Up to around one billion becquerels of radioactive substances arebelieved to be released every hour from reactors No.1, 2 and 3. It isnot known how accurate this figure is because it was worked out bytaking readings of the air on the plant’s premises.

After the Chernobyl nuclear disaster in 1986, Soviet officials were vilified for hiding the impacts from the public. But when Japan’s Fukushima nuclear accident took place last March, public officials in Japan and Canada alike jumped straight into Chernobyl-style damage-control mode, dismissing any worries about impacts. Now evidence has emerged that the radiation in Canada was worse than Canadian officials ever let on. A Health Canada monitoring station in Calgary detected radioactive material in rainwater that exceeded Canadian guidelines during the month of March, according to Health Canada data obtained by the Georgia Straight.

Canadian government officials didn’t disclose the high radiation readings to the public. Instead, they repeatedly insisted that fallout drifting to Canada was negligible and posed no health concerns. In fact, the data shows rainwater in Calgary last March had an average of 8.18 becquerels per litre of radioactive iodine, easily exceeding the Canadian guideline of six becquerels per litre for drinking water. “It’s above the recommended level [for drinking water],” Eric Pellerin, chief of Health Canada’s radiation-surveillance division, admitted in a phone interview from Ottawa. “At any time you sample it, it should not exceed the guideline.”

Radioactive-iodine levels also spiked in March in Vancouver (which saw an average of 0.69 becquerels per litre), Winnipeg (which saw 0.64 becquerels per litre) and Ottawa (which saw 1.67 becquerels per litre), the data shows. These levels didn’t exceed the Canadian guidelines, but the level discovered in Ottawa did surpass the more stringent ceiling for drinking water used by the U.S. Environmental Protection Agency, which is 54 times less than the six becquerels per litre of iodine-131 (a radioactive isotope) allowed in this country.

After Japan's Fukushima catastrophe, Canadian government officials reassured jittery Canadians that the radioactive plume billowing from the destroyed nuclear reactors posed zero health risks in this country.

In fact, there was reason to worry. Health Canada detected massive amounts of radioactive material from Fukushima in Canadian air in March and April at monitoring stations across the country.

For 22 days, a Health Canada monitoring station in Sidney detected iodine-131 levels in the air that were 61 percent above the government's allowable limit. In Resolute Bay, Nunavut, the levels were 3.5 times the limit.

A Vancouver woman wants Canadian governments held more accountable for protecting public health in the wake of the Fukushima nuclear crisis. In an August 8 interview at the Georgia Straight office, Isabel Budke pointed out that citizens and nongovernmental organizations can exert a great deal more pressure on Health Canada and other regulators to improve monitoring, measuring, and reporting on radiation levels in water, soil, and food.

“I really think we need to have localized and regional testing because, from what I understand, the plumes that have drifted over the Pacific Ocean with this radiation are touching down on different areas in different ways, depending on where the jet stream is going and what weather conditions are,” Budke said. “We can’t rely on testing results from the United States or testing that has been done somewhere else in the country. I think we need to have our own testing in B.C.”

Budke, who has an SFU master’s degree in environmental and resource management, said that if governments won’t do this work, she wants the public to work collaboratively to have food, soil, and water tested. Her group has created a “Canadian Network for Radiation Awareness & Monitoring” website, which will post results from citizen-initiated laboratory tests.

Take NASA scientist James Hansen, who wrote (pdf) a public letter in June suggesting that the fate of the planet rests with the 1,700-mile Keystone XL project.

The climatologist said the proposal is a steppingstone to exploiting the entire oil sands region in Canada, where a vast amount of carbon dioxide sits underground in sand formations. Hansen asserted that its extraction would mean "game over" for the Earth when combined with emissions from coal. Canada holds the second-largest oil reserves in the world after Saudi Arabia.

, proponents of Keystone XL say that oil production in the Canadian region will continue no matter what, and that developers will find a way to transport the oil overseas if the United States declines to approve the pipeline.

After the Fukushima nuclear accident, Canadian health officials assured a nervous public that virtually no radioactive fallout had drifted to Canada.But last March, a Health Canada monitoring station in Calgary detected an average of 8.18 becquerels per litre of radioactive iodine (an isotope released by the nuclear accident) in rainwater, the data shows.

The level easily exceeded the Canadian guideline of six becquerels of iodine per litre for drinking water, acknowledged Eric Pellerin, chief of Health Canada's radiation-surveillance division."It's above the recommended level (for drinking water)," he said in an interview. "At any time you sample it, it should not exceed the guideline."

Canadian authorities didn't disclose the high radiation reading at the time.In contrast, the state of Virginia issued a don't-drink-rainwater advisory in late March after iodine levels in rain in a nearby city spiked to 3.4 becquerels per litre on a single day. That was less than half of the level seen in Calgary during the entire month of March.

Though nuclear power produces electricity with little in the way of carbon dioxide emissions, it, like other energy sources, is not without its own set of waste products. And in the case of nuclear power, most of these wastes are radioactive.1 Some very low level nuclear wastes can be stored and then disposed of in landfill-type settings. Other nuclear waste must remain sequestered for a few hundred years in specially engineered subsurface facilities; this is the case with low level waste, which is composed of low concentrations of long-lived radionuclides and higher concentrations of short-lived ones. Intermediate and high-level waste both require disposal hundreds of meters under the Earth’s surface, where they must remain out of harm’s way for thousands to hundreds of thousands of years (IAEA, 2009). Intermediate level wastes are not heat-emitting, but contain high concentrations of long-lived radionuclides. High-level wastes, including spent nuclear fuel and wastes from the reprocessing of spent fuel, are both heat-emitting and highly radioactive.

When it comes to the severity of an accident at a nuclear facility, there may be little difference between those that occur at the front end of the nuclear power production and those at the back end: An accident involving spent nuclear fuel can pose a threat as disastrous as that posed by reactor core meltdowns. In particular, if spent fuel pools are damaged or are not actively cooled, a major crisis could be in sight, especially if the pools are packed with recently discharged spent fuel.

Elements of success

The rainwater data is just one example of failings in how Canada monitored radiation from Fukushima. The accident has exposed a pattern of nonchalance and seeming willful ignorance on the part of Canadian health authorities when it comes to the dangers of nuclear power. Drinking water is another example. In Vancouver, the city did its first test of the drinking-water supply on March 16, a few days after the Fukushima accident on March 11. No radiation was detected in that day’s sample. But this was to be expected because it took until March 18 and 19 for the radioactive plume from Fukushima to first hit the west coast of Canada. Instead of continuing with frequent monitoring, the city didn’t do another radiation test until March 25—nine days after the first test. On March 25, testing detected alpha radiation at 0.11 becquerels per litre in the drinking water at the city’s Seymour-reservoir intake. Alpha radiation comes from isotopes like plutonium-238 and is the most dangerous form of radiation when ingested or inhaled. The level at the Seymour intake was lower than the current Canadian and World Health Organization guideline of 0.5 becquerels per litre in drinking water. On the other hand, the WHO guideline used to be 0.1 Bq per litre before it was adjusted higher in the mid-2000s.

That nine-day hole between March 16 and 25 is exactly when SFU prof Starosta found massive radiation spikes in rainwater in Burnaby. Did the alpha radiation ever surpass the ceiling? We can’t say for sure. Because of the long gap between tests, it’s not clear how high radiation levels may have gotten and for how long. When the city tested its drinking water again on March 28, the alpha radiation was no longer detectable. Food is another big question mark. The Canadian Food Inspection Agency briefly tested Japanese food imports from the area around Fukushima, but it dropped those measures in June. Canada now relies on Japanese authorities to screen contaminated food. But Japan’s food inspections have proven to be highly controversial since Fukushima. The country has no centralized food-inspection system, and poor monitoring after Fukushima allowed food contaminated with radiation to be sold to Japanese consumers.

Meanwhile, it’s becoming clear that the radiation has spread much farther across Japan than government officials have acknowledged. Citizen monitoring groups have found 22 “hot spots” in Tokyo where radiation levels are higher than the level at which zones were considered contaminated near Chernobyl, the New York Times reported on October 14. The CFIA also told the Straight it has no plans to monitor food products from the Pacific Ocean fishery. You’d think this would be a concern, because many fish caught in the Pacific still have large amounts of radiation months after the accident, according to data reported on the website of the Japanese government fisheries agency. In September, 21 Japanese fish catches exceeded the Japanese radiation ceiling—the same number as in August. Two catches in September exceeded the ceiling for radioactive cesium by more than four times.

SOURCE: Xenon-133 and caesium-137 releases into the atmosphere from the Fukushima Dai-ichi nuclear power plant, Stohl, A., Seibert, P., Wotawa, G., Arnold, D., Burkhart, J. F., Eckhardt, S., Tapia, C., Vargas, A., and Yasunari, T. J., October 20, 2011 Here are some excerpts concerning North America [Emphasis Added]:

“Already on 15 March, a first isolated 133Xe cloud reached western North America, followed by the arrival of high concentrations of both 133Xe and 137Cs on 19 March.” “The main part of the radioactive plume entered western North America on 17–18 March. On 18 March at 12:00UTC, the head of the plume had already arrived over the North Atlantic, but the main part was located over the eastern Pacific Ocean and western North America, where it could be detected at monitoring sites. This part of the plume was also rich in 137Cs, as it was still close to the surface south of 50 [Most of US/Canada border is 49°]. At the same time, the plume penetrated the subtropics and arrived at Hawaii on 19 March.”

“A map of the simulated surface concentrations of 133Xe for 22 March shows that all of western North America was engulfed by the FD-NPP plume, as well as parts of eastern North America and eastern  Asia.”

An unstoppable tide of radioactive trash and chemical waste from Fukushima is pushing ever closer to North America. An estimated 20 million tons of smashed timber, capsized boats and industrial wreckage is more than halfway across the ocean, based on sightings off Midway by a Russian ship's crew. Safe disposal of the solid waste will be monumental task, but the greater threat lies in the invisible chemical stew mixed with sea water.

This new triple disaster floating from northeast Japan is an unprecedented nuclear, biological and chemical (NBC) contamination event. Radioactive isotopes cesium and strontium are by now in the marine food chain, moving up the bio-ladder from plankton to invertebrates like squid and then into fish like salmon and halibut. Sea animals are also exposed to the millions of tons of biological waste from pig farms and untreated sludge from tsunami-engulfed coast of Japan, transporting pathogens including the avian influenza virus, which is known to infect fish and turtles. The chemical contamination, either liquid or leached out of plastic and painted metal, will likely have the most immediate effects of harming human health and exterminating marine animals.

Many chemical compounds are volatile and can evaporate with water to form clouds, which will eventually precipitate as rainfall across Canada and the northern United States. The long-term threat extends far inland to the Rockies and beyond, affecting agriculture, rivers, reservoirs and, eventually, aquifers and well water.   Falsifying Oceanography

The B.C. government says it will begin working with national and municipal officials this January to prepare for the massive wave of debris heading to Pacific Northwest shores because of the March 11 earthquake and tsunami in Japan.

Julianne McCaffrey, a spokeswoman for the Emergency Management B.C., part of the Ministry of Public Safety and Solicitor General, has confirmed the government is creating a Provincial Tsunami Debris Working Group. She said the arrival of the debris, which some experts have argued covers an area the size of California, has raised some “complex jurisdictional issues,” which the working group will clarify, so officials hope to identify key members by Jan. 6

Curtis Ebbesmeyer, an oceanographer from Seattle, Wash., said he has confirmed that as many as six fishing buoys have washed ashore between mid-Oregon and Alaska and are tied to the Japanese tsuna

Since a tsunami and earthquake destroyed the Fukushima Daiichi Nuclear Power Plant last March, radioactive cesium has consistently been found in 60 to 80 per cent of Japanese fishing catches each month tested by Japan’s Fisheries Agency.

In November, 65 per cent of the catches tested positive for cesium (a radioactive material created by nuclear reactors), according to a Gazette analysis of data on the fisheries agency’s website

In November, 18 per cent of cod exceeded a new radiation ceiling for food to be implemented in Japan in April – along with 21 per cent of eel, 22 per cent of sole and 33 per cent of seawee