MIAMI’S NUCLEAR POWER PLANT IS LEAKING – do the presidential candidates notice?
AHEAD OF FLORIDA’S PRIMARY, MIAMI’S NUCLEAR POWER PLANT IS LEAKING, Newsweek, BY NINA BURLEIGH ON 3/10/16 As Republican presidential primary candidates gather in Miami on Thursday night for their final debate before the Tuesday primary, South Floridians are learning that radioactive material is seeping into Biscayne Bay, the 35-mile lagoon that stretches along the state into the Atlantic Ocean.
A county-ordered report released this week found levels of the radioactive isotope tritium in the bay to be 200 times higher than normal, leading to suspicions that the Turkey Point nuclear power plant in Homestead, Florida, which was built in the 1970s and supplies juice to 900,000 Floridians, is leaking.
While such a level of tritium is not harmful to humans, the problems at the power plant, on wetland that is vulnerable to rising sea levels, evokes the worst-case specter of another seaside nuke plant—Fukushima.
“I think the Fukushima scenario is very reasonable, and it terrifies me,” says Cindy Lerner, mayor of Pinecrest, Florida, which sits 14 miles north of the plant. “I was never anti-nuclear. But when Fukushima happened, the U.S. government issued an alert to all U.S. citizens, that if they were within a 50-mile radius to get outta Dodge.” Lerner says if a Fukushima-type event happened at Turkey Point, she’s concerned because the current evacuation plan is limited to a 10-mile radius.
The Turkey Point plant’s issues are hardly the only environmental concern troubling South Florida residents as they head to the polls next week, in what will be a decisive election for their junior senator, Marco Rubio, who has staked all of his campaign on his home state.
The four-county area around Miami is already seeing signs of the beginning of a nightmare scenario long predicted by climate scientists, in which rising waters increasingly affect roads and other infrastructure. The area’s water problems are only the beginning of a potential six-foot sea level rise by the end of the century. And, as Newsweek reported in January, local governments have been left largely alone by state and federal lawmakers to deal with it……..
Local Miami leaders say the elevated tritium is a sign that the plant’s system of cooling canals is degraded. In addition to tritium in the Bay (which includes a marine national park), warm saltwater from the cooling canals has been found in aquifers four miles west, threatening the already fragile Everglades freshwater system. The heated water is also believed to be harming wildlife.
They are boiling the North American crocodiles,” which nest in the area around the canals, says Lerner.
South Miami Mayor Phillip Stoddard, a biological sciences professor at Florida International University, says the nuclear power plant is simply in the wrong place, especially given higher waters.
“When sea level rises, the islands will be gone and there will be no more barriers to storm surge. It’s just a bad place to put a nuclear plant—between the Everglades and the bay, at the foot of a peninsula that will be very hard to evacuate,” he says.
Stoddard adds that other pollutants, related to the heated water, are going into the aquifer unchecked, and also threaten health and safety, including blooms of dangerous cyanobacteria, which shut down the water system in Toledo, Ohio, a few years ago. He also blamed the power plant for elevated levels of ammonia and phosphate in the bay. Taken together, Stoddard believes the problems represent violations of the federal Clean Water Act.
Lerner met with the EPA’s local government liaison on Wednesday in Washington to brief the agency on the two reports, one by Miami Dade County and another by the University of Miami, that found the problems……..
Rubio’s campaign did not respond to a request by Newsweek for comment. Stoddard and Lerner are among a group of 21 area mayors who have submitted questions about sea level rise and climate change to tonight’s debate moderators. http://www.newsweek.com/biscayne-bay-florida-nuclear-power-plant-leaking-435721
Nuclear power unsafe, too costly – Ex-Japan PM Naoto Kan
Ex-Japan PM: nuclear power remains unsafe and too costly Naoto Kan, who presided over country during Fukushima disaster in 2011, cautions over plans to build new UK plants, Guardian, Terry Macalister 12 Mar 16 Nuclear power is unsafe and too expensive to justify building new plants anywhere in the world, according to the Japanese prime minister at the time of the Fukushima nuclear accident. Speaking on the fifth anniversary of the disaster, Naoto Kan said he was against the idea of Japanese manufacturers such as Hitachi and Toshiba building plants in the UK.
“Nuclear power is not safe. In the worst case scenario up to 50 million people would have had to be evacuated. Nuclear power is not a suitable technology and renewable power is much better,” Kan told the Guardian.
The former prime minister insisted he did not want to tell other countries such as Britain what to do but he said he did not support the reactors being switched back on in Japan.
His warning came as Britain’s nuclear plans are hanging in the balance because of delays over the go-ahead for EDF Energy’s Hinkley Point C project in Somerset and concerns about the project’s financial viability.
While the French company EDF is at the centre of the Hinkley scheme, Hitachi and Toshiba are behind similar intiatives being developed for new reactors atWylfa on Anglesey, Oldbury in South Gloucestershire, and Sellafield in Cumbria.
Kan said it “did not make sense” to construct new atomic plants because of the cost, especially in those countries where there were no long-term storage facilities for high level radioactive waste. This includes Britain and Japan.
“What I experienced as prime minister made me feel that it does not make sense to rely on nuclear. New generation plant designs are supposed to increase safety but all these do is increase the cost.”………..The £18bn Hinkley Point C nuclear project was thrown into doubt this week after after EDF’s finance director, Thomas Piquemal, resigned after opposing the deal. He believes the costly agreement threatens the company’s future. http://www.theguardian.com/world/2016/mar/11/japan-naoto-kan-nuclear-power-unsafe-fukushima
“The Fukushima Nuclear Disaster is a Serious Crime”: Interview with Professor Koide
Introduction
Koide Hiroaki (66) has emerged as an influential voice and a central figure in the anti-nuclear movement since the nuclear meltdown at Fukushima Daiichi of March 11, 2011. He spent his entire career as a nuclear engineer working towards the abolition of nuclear power plants. His powerful critique of the “nuclear village” and active involvement in anti-nuclear movements “earned him an honorable form of purgatory as a permanent assistant professor at Kyoto University.”1 Koide retired from Kyoto University in the spring of 2015, but continues to write and act as an important voice of conscience for many who share his vision of the future free from nuclear energy and weapons. He has authored 20 books on the subject. Professor Kasai Hirotaka and I visited his office at Kyoto University’s Research Reactor Institute in Kumatori, Osaka, on December 26th, 2014 for this interview. We believe that the contents of the interview, which offer new information about the degree of radioactive contamination and invaluable insight into Koide’s ethical and political stance as a scientist, remain crucial for our critical reflection on ecological destruction, the violation of human rights, and individual responsibility. Professor Robert Stolz, the translator of this interview and the author of Bad Water (Duke University Press, 2015), provides a historical perspective on the interview in a separate article. KH
Interview
I The Fukushima Disaster and Government and Corporate Response
Hirano: How does the Fukushima accident compare with the bombing of Hiroshima or Chernobyl in its scale? What are the possible effects of this yet unknown exposure?
Koide: Let’s start with the scale of the accident: It was a core meltdown involving the release of various kinds of radioactive material. Radioactive noble gas isotopes were also released, as were iodine, cesium, strontium, and other radioactive material. The noble gas isotopes have a short half-life and so at this stage they are all gone. Iodine, too, is gone. So now four years since the accident the materials that are still a problem are cesium-137, strontium-90, and tritium; really, it’s these three.2
Now, as for the scale of the accident, I think it would be best to compare these three radionuclides. Today the main contamination of Japanese soil is the radionuclide cesium-137 [Cs-137 or 137Cs]. The ocean is largely contaminated with strontium-90 [Sr-90 or 90Sr] and tritium [T or 3H]. Right now the main culprit adding to the exposure of the people in Japan is Cs-137, so I think it’s best to use Cs-137 as a standard for measuring the scale of the accident.
But we simply don’t know with any precision how much Cs-137 was released. That’s because all the measuring equipment was destroyed at the time of the accident. How much Cs-137 was released into the air? How much was spilled in the sea? We just don’t know.
Still, the Japanese government has reported estimates to the IAEA [International Atomic Energy Agency]. According to those estimated levels, reactors 1, 2, and 3 had been in operation on March 11, 2011, and all three suffered meltdowns. Those three reactors released 1.5×1016 Becquerels of Cs-137, which would make it a release of 168 times more radioactive material than the Hiroshima bombing. And this is only material released into the atmosphere-at least according to Japanese government estimates.
But I myself think the government’s numbers are an underestimate. Various experts and institutes from around the world have offered several of their own estimates. There are those that are lower than the Japanese government’s numbers and those that are higher, some two or three times higher than the government’s numbers. According to these other estimates I think that the release of Cs-137 into the atmosphere could be around 500 times the Hiroshima bombing.
Now for what has been washed into the sea. That number is likely not much different from the levels released into the atmosphere. Even today we are unable to prevent this release. And so if we combine the amount of Cs-137 released in the air and the ocean together, we get an estimate several hundred times the Hiroshima levels. And some estimates suggest the Fukushima accident could be as much as one-thousand Hiroshimas.
Now to compare this with other accidents: The amount released into the atmosphere from the explosion during the accident at the Chernobyl nuclear plant was 800 to 1000 times the Hiroshima levels. Put simply, these estimates place Fukushima on par with Chernobyl.
Worse than any of these, however, is atmospheric testing. From the 1950s to the 1960s atmospheric testing of nuclear weapons had already released Cs-137 into the air more than sixty times the numbers released even by the Japanese government for Fukushima. Of course Fukushima is an incredible tragedy, but considered from the earth as a whole it is a rather small accident.
Hirano: I want to ask in more detail about the effect of Cs-137 on the human body and the environment.
Koide: Cesium is an alkaline metal. From the human body’s perspective, cesium closely resembles potassium. The body contains enormous amounts of potassium. It is essential for humans. It’s everywhere in our bodies. Especially our flesh and muscles are full of potassium. And because of this, when cesium is released into the environment, the body deals with cesium as it does with the alkaline metal potassium, which is to say that it is taken into the body and accumulates there.
Strontium is an earth metal. The body treats it like calcium. As you know calcium is a human body building block that accumulates in our bones. Strontium, too, is taken into and collects in the bones. Just as cesium is taken in and is transported to the flesh and muscle.
Hirano: Comparing the releases from nuclear tests by the US and the USSR during the Cold War period, you said that the Fukushima accident was small. So in what way should we think about Fukushima: is it best to consider it a Japanese problem, or to consider it from a global perspective?
Koide: The amount of products of nuclear fission released during atmospheric testing was enormous, and these particles continue to expose humans to radiation. I’m a bit older than you and I recall in my childhood being told not to let the rain fall on me at the time of the testing. In this way everyone on earth has been exposed (hibaku/ 被曝). And because of this testing, historically speaking, cancer rates have slowly risen; I believe this increase in cancer is due to the exposure suffered during the atmospheric testing. Now the radioactive material released from Fukushima has been dispersed across the globe and so once again everyone on earth has been exposed to additional radiation. I think we can expect cancer rates to rise once again.
Atmospheric nuclear testing released all of the radioactive material in the explosions, which entered the stratosphere. Between the stratosphere and the troposphere there is the tropopause, and every year come spring all that material dispersed in the stratosphere breaks through the tropopause and falls to earth. So that material, though initially dispersed in the stratosphere, eventually falls to earth evenly, everywhere. Actually, it might not be accurate to say that it falls evenly on the earth. The majority of the testing was done in the temperate regions of the northern hemisphere, such as Nevada and the Semipalatinsk test site [in Kazakhstan], so that the northern hemisphere-as the site of most of the testing-is heavily contaminated, and within that the temperate region is heavily contaminated. Still, I can say the atmospheric testing overall has caused global contamination.
My focus now is to figure out how to deal with the acute and heavy contamination from Fukushima. I know something needs to be done right there in that specific place. That contamination will disperse and be diffused across the globe. Once dispersed, the amount of radioactive material from Fukushima will be small when compared with the atmospheric testing. Which is not to say it is not harmful. An increase in cancer will be the result. I mention that for humanity as a whole; the atmospheric tests were worse.
Now, strontium-90 [Sr-90] has been leaking from Fukushima into the ocean, so it will eventually reach the United States, especially the west coast. This much we are sure of. But to answer your question, the amount of dispersed cesium and strontium released by the atmospheric tests is tens of times greater than the Fukushima levels. Because the west coast of the US is already contaminated from the atmospheric testing, though the dispersed contamination from Fukushima will reach US shores, for people living on the US west coast, the Fukushima accident―and this is perhaps awful to say―contamination from Fukushima is hardly worth considering. Historically a much greater event has already taken place.
Hirano: To put that another way, the current Fukushima accident gives us a chance to reconsider the enormity of the past contamination from US and Soviet atmospheric tests, which has not been openly discussed.
Koide: Yes, that’s exactly right. In fact, it is the masses of people who need to realize the impact of the contamination on them. In the case of the Fukushima disaster, for example, they need to be aware that some radioactive material is reaching the North American coast, and the prevailing westerly winds will carry anything released into the atmosphere to the US. Those earlier numbers from the Japanese government indicate that the levels for Cs-137 in the atmosphere are 168 times those of the Hiroshima bombing. I’ve been told that level is 1.5 x 1016 Becquerels [Bq]. These exponents can be a pain to process, so if we think of it in peta-units-which is 1015-we get essentially 15 petabecquerels [PBq].
That said, while we are not really sure this is the number, we do know that a portion of this material will ride the prevailing winds across the Pacific Ocean. On the other hand, closer to the ground, the winds will be east, south, and north, and therefore this other portion will fall on Japan―and we can investigate the actual levels here: how much fell on this town, on this prefecture? Adding these up, it seems to be only 2.4 PBq. Which is to say of the total fifteen PBq, 2.4, or roughly only 16%, fell on Japanese soil. If the totals are higher, still a smaller share of the total contamination will have fallen on Japan compared with the Pacific, with the largest portion falling on the west coast of the United States.
So why don’t we hear complaints from the US? Why are there no calls for compensation? Whenever someone asks me this, I simply say that there just aren’t any such complaints. Why is this so? Well the levels released by the US during the atmospheric testing were tens of times greater than Fukushima. They are the criminals, so they cannot ask for compensation from Japan. The U.S. government does not want to have to reflect on its own past, and I think they are eager to completely avoid bringing up anything like that conversation. That is why I believe it is so important that those who have been exposed to radioactive contamination realize what atmospheric testing has done to them.
Kasai: I’d like to get back to the moment of the accident in some detail. On March 11, 2011 we had the East Japan Disaster (meaning the earthquake and tsunami off Tohoku). You’ve already talked about the string of accidents at the nuclear plant. At the moment the accident was taking place, you were following the response by the Japanese government and the Tokyo Electric Power Company (TEPCO) in real time. What did you see in those initial moments?
Koide: It was truly a disastrous response. On the 11th I was in the laboratory in Kyoto as March was my month to work in the radiation-controlled area.3 It was normal workday hours and various tasks kept me busy working within the controlled area. Of course there is no TV or anything like that in the work space. That night there was a meeting so I came out to attend and that’s when I saw the images of the Sendai airport being swept away by the tsunami. The report said that there had been a devastating earthquake and tsunami. Then I wondered about the safety of the nuclear plants.
Right then, there really was no more information. We had scheduled a nuclear safety issues seminar for the 18th. I’ve participated in hundreds of these seminars. Participants from the Ukraine had just arrived on the 11th. We promised to go out drinking after they arrived and so that night I went out. There was no more TV, and while there was a vague unease among us, that’s how we spent the time.
The next day I learned that all power at Fukushima had been lost and I knew things were not going to be simple. Then at noon on the 12th the roof of reactor one was blown off; at that point any expert must have known there had been a reactor meltdown. So I was certain of a core meltdown and because once it has gone this far, there is no going back, it was time to call for anyone who could evacuate to do so. I thought we were at that stage on the 12th.
Yet neither the government nor TEPCO said a single word about a core meltdown; they announced that the incident merited a 3 or 4 on the International Nuclear Event Scale. I remember thinking “You’ve got to be kidding! There’s already been a meltdown. This is at least a level 6 or 7.” But neither the government nor TEPCO gave any indication of this and there was no word of it in the media either.
One by one there were explosions at reactors 3, 4, and 2. As an expert in nuclear power, I understood there was absolutely nothing that could be done. I thought people needed to be evacuating, but still the Japanese government didn’t make the call. Government officials had set up at an off-site center near a power plant in Fukushima―at first they announced evacuation inside two kilometers, then that expanded to three, five, ten, and finally twenty km. After that nothing was done. The offsite center was supposed to coordinate the emergency response in the event of an accident, but it turned out that every one of the officials fled. They left the employees behind and fled. The Japanese government’s response was indescribably cruel.
Kasai: It seems the very words “meltdown” (メルトダウン) and “core meltdown” (roshin yōyū/炉心熔融) were strictly forbidden.
Koide: Exactly.
Kasai: I was in Japan watching on TV. What shocked me was all the nuclear power experts explaining the incident in the studio. I suppose it was a satellite relay, but when reactor number three exploded on our screens they were giving their analyses of the explosion in real time. There were experts on TV saying that the reactor had a blast valve that was used successfully. Even hearing that, an average viewer might think something was amiss. But having physicists, experts on radiation, on TV saying these things, well, even the average viewer wouldn’t buy that explanation. In a broad sense, nuclear experts like yourself played several roles in the media and government.
Koide: Yes, that’s clearly true for pronuclear experts. They all tended to tell a story that underestimated the accident. Immediately after the accident public announcements and information were restricted. As a result individual opinions or statements were strictly forbidden and nearly all experts remained silent, so even basic information was not broadcast. Though I’d made statements from the nuclear lab beginning on the 12th, it is likely there were instructions from the Ministry of Science and Education to silence me. The head of the lab convened several meetings where he told each of us not to make any statement, that the lab would toe the official line when dealing with the mass media. I thought this was wrong and said that anyone who was asked a question by the media should answer it, further saying that if I were asked a question, I had a responsibility to answer. Since then I’ve continued to make statements in the media. Still the large majority of nuclear researchers were not able to do this.
As a result it was the pronuclear researchers who monopolized the interpretations – exactly. So as they went to the TV studios I think each was told: “Today, it’s your turn to go to the studio.” I think that’s how they played their part and handled the media.
Kasai: With respect to controlling information, would you say your experience with the head of the nuclear lab shows how the professional organizations exert pressure on the universities?
Koide: Yes, I would. The head of the lab opened a conference with all the other laboratories―even I went. There he said that any statements to the media should be on message and come only from the information office.
Kasai: So pressure came from academic conferences.
Koide: Yes, there was pressure coming from the academic conference side as well. Take for example something like a conference on nuclear power. From the very start it was never a real discussion; it was a meeting of powerful and vocal spokesmen for the nuclear community or village (genshiryoku kyōdōtai/原子力共同体 or genshiryoku mura/ 原子力村), which is to say the group of pronuclear government officials and private companies mainly centered around the LDP and Toshiba, Hitachi, Mitsubishi, and other pronuclear manufacturers of power plants―and of course their supporters in the media. Thus as an organization the conference was predisposed to underestimate the accident and to then promote that underestimation.
Hirano: Immediately after the accident you testified in the Diet presenting data indicating the seriousness of the disaster and demanding that the government terminate the operation of all the power plants.4
Koide: I did.
Hirano: After that it seems you weren’t again asked to speak publicly, or given the opportunity to offer more detailed thoughts on the situation.
Koide: By “speak publicly” you mean in the Diet or in some other official government setting?
Hirano: Yes, and also in the media.
Koide: With respect to the media, I’ve never really had any confidence in them. Since the accident, I’ve been overwhelmingly busy and haven’t accepted a single invitation from TV stations.
Hirano: I see. So there were invitations.
Koide: There have been many calls saying, “come down to the studio.” But I always tell them that I am too busy for this sort of thing. I’d say, if you come to my office, we could meet. Many did come by, even back then. But as everyone knows, in television you might talk for an hour and none of it makes it on air, or if it does, it’s maybe thirty seconds.
Hirano: Right, and only the convenient parts.
Koide: That’s it and there’s really nothing that can be done about it. There was, however, one outlet for which I was extremely grateful: the daily radio program called Tanemaki Journal (種まきジャーナル).5 There I could go on every day and offer my thoughts live. I wish it could have continued, but it was completely and totally smashed. What a world we live.
Kasai: So, on the subject of standards used for assessing the danger posed by radiation for the human body and the environment: What are your thoughts on how the government deals with this issue?
Koide: They are absolutely not dealing with it at all. I think you already know this but in Japan the average person is not supposed to be exposed to more than one milliSievert per year―that’s set by law. Why is that the level decided on? Because exposure to radiation is dangerous. If exposure weren’t dangerous, if low levels of exposure were safe, there’d be no problem even without that legal limit. But exposure to radiation is dangerous―this is the conclusion of all research. So every nation in the world has set legal limits for exposure.
For people like me who get paid to work with radiation, it’s not really possible to observe the 1mSv/yr limit [1mSv/yr]. We’re told that in exchange for our salaries, we accept exposure to twenty milliSieverts a year. That’s the standard I work under in my job. But the current Japanese government has now stated that if contamination is under 20mSv/yr somewhere, that place is safe to return to―safe to return to even for children. This is way beyond common sense.
Hirano: What is the basis of this claim? Why would the government announce these numbers and forcefully declare these areas safe to return to? What’s the basis for the government’s numbers?
Koide: The basis for those numbers…for example the government says that organizations like the IAEA or the ICRP [International Commission on Radiological Protection] suggest that in emergencies during which the 1mSv/yr standard cannot be maintained standards should be set between twenty and 100mSv/yr. The government seizes on this and declares that since the IAEA and the ICRP have said this, that 20mSv/yr is therefore a safe level-usually adding that membership in both the IAEA and the ICRP is voluntary anyway. But because these organizations have said this is no reason to break Japanese law. If Japan is a nation governed by the rule of law at all, surely this means that the very people who make the laws should also follow them―that should be obvious. But these guys have declared 20mSv/yr safe even for children. There is absolutely no way I can consent to this.
Hirano: So there is no scientific basis for these levels.
Koide: Well… the danger corresponds to the amount of exposure―you probably know this―so for a country that has declared its intention to maintain the 1mSv/yr standard to then turn around and ask people to endure twenty times that level, there is no scientific basis for that declaration. That’s a social decision.
But if you want to inquire as to why, as I’ve mentioned to you, some 2.4 petaBecquerels of radioactive material have fallen on Japan, that material has been dispersed, contaminating Tohoku, Kanto, and western Japan. So in addition to the law setting the legal limit for exposure at 1mSv/yr, there is another law that states that absolutely nothing may be removed from a radioactive management area in which the levels exceed 40,000 Becquerels per square meter.
So the question becomes how many places or how much area has been contaminated beyond 40,000 Bq/m2? And according to the investigations, that answer is 140,000 km2. The entirety of Fukushima prefecture has been contaminated to where all of it must be declared a radioactivity management area. Indeed, while centered on Fukushima, parts of Chiba and Tokyo have also been contaminated. The number of people living in what must be called a radiation-controlled area is in the millions, and could exceed ten million.
For me, if Japan is in fact a nation governed by the rule of law, I believe the government has the responsibility to evacuate these entire communities. Instead of taking a proper action to secure people’s livelihood, the government decided to leave them exposed to the real danger of radiation. In my view, Fukushima should be declared inhabitable and the government and TEPCO should bear a legal responsibility for the people displaced and dispossessed by the nuclear disaster. That’s what I think, but if that were to be done, it would likely bankrupt the country. I think that even though it could bankrupt Japan, the government should have carried out the evacuation to set an example of what the government is supposed to do. But obviously those in and around the LDP certainly didn’t agree. They’ve decided to sacrifice people and get by taking on as little burden as possible. So they’ve made the social decision to force people to endure their exposure. In my view, this is a serious crime committed by Japan’s ruling elite.
I would like people to know just how many thousands of people live in this abnormal situation where even nuclear scientists like me are not allowed to enter, not to mention, drink the water. It is strange that this issue has been left out of all debate over the effects of the radioactive exposure. We must be aware that contemporary Japan continues to operate outside the law in abandoning these people to their fate by saying it’s an extraordinary situation. Under such circumstances, I think, there are a multitude of symptoms of illnesses in contaminated areas. But if we’re talking about any given symptom, it’s hard to say since we just don’t have any good epidemiological studies, or even any good data. But there will surely be symptoms, namely cancer and leukemia.
However little exposure to radiation is, it causes cancer and leukemia―this is the conclusion of all current science. These symptoms are said to become visible 5 years after the initial exposure. But because radiation is not the sole cause of cancer or leukemia establishing a direct causal relationship is extremely difficult. For this very reason we need to continue to investigate the state of exposure by conducting rigorous epidemiological studies. But this government wishes instead to hide the damage so I’m afraid no such study is on the horizon. In addition, I have heard about many cases of nose bleeding, severe headaches, and extreme exhaustion. And I am truly concerned about small children and young people living in Fukushima as they are most vulnerable to exposure.
Hirano: So what is your view of the actual damages of radiation exposure on human health?
Koide: On the evening of the Fukushima dai-ichi reactor accident of March 11, 2011, a Radiation Emergency Declaration was announced. The Declaration suspended existing Japanese law concerning exposure to radiation. Though Japanese law sets the limit for exposure for the general population at one milliSievert a year [1mSv/yr], the new permissible level would be 20 mSv/yr. That Emergency Declaration is still in effect. It is common knowledge that even low levels of exposure are dangerous. Including even infants in this newly imposed 20mSv/yr standard will obviously lead to various diseases. Further, because the monitoring equipment was destroyed at the time of the accident we do not have accurate data on the exposure levels of the residents. Numerous cases of thyroid cancer have been found. The prevalence of thyroid cancer is dozens of times that of normal incidence. Pro-nuclear groups say those numbers are the result of the screening process itself, not the effect of radiation exposure. Which is to say that this was the first major screening of that population and so it was natural that many cases of thyroid cancer would be found. Put differently, what they are saying is that they have never conducted a thorough study of radiation exposure and its impact on human health. Science should acknowledge what it already knows and what it does not. If it is true that there is no established scientific data, a properly scientific approach would be to carry out a through investigation. To deny the damage to health by exposure to radiation without such an investigation is absolutely at odds with the scientific spirit. Prof. Tsuda at Okayama University has already conducted a detailed study on the outbreak of thyroid cancer, showing an epidemiological-like outbreak. Just as happened at Chernobyl, as time passes it is clear there will be more and more instances of all kinds of illnesses.
Hirano: In your books you’ve often stated that there is no uncontaminated food. But for most Japanese, such basic knowledge seems limited to food from Fukushima, and nearby parts of Ibaraki, Gumma, Chiba, Miyagi. For food produced outside these areas, do you think it’s necessary to have strict testing of food that is sold and consumed? What is to be done? Do you think food from outside these areas should also be subject to strict testing before being sent to market and consumed?
Koide: Right, as we discussed earlier, before the Fukushima accident the entire globe was already contaminated with radiation. This means that Tohoku or Kanto or Kansai food, all of it, has been contaminated with radiation―radiation from atmospheric tests. Beyond this, contamination from the 1986 Chernobyl accident reached Japan on the prevailing westerly winds, meaning that all Japanese food was contaminated. And on top of all this, with the Fukushima disaster, as I mentioned, it is not that a thick layer of contamination has dispersed to every corner of the globe from Fukushima, but that this thick layer of contamination is right now centered on Fukushima.
So if we were to carefully measure the levels of food contamination, we’d more or less find moving out from the highest levels in Fukushima to say western Japan or Kyushu, that the numbers would gradually decline to the lower levels received from the atmospheric tests. Right now the people of Fukushima have been abandoned in the areas of the highest levels of radiation. And abandoned people have to find a way to live. Farmers produce agricultural goods, dairy farmers produce dairy products, and ranchers produce meat; these people must do so in order to live. They are not the ones to be blamed at all.
As the Japanese state is absolutely unreliable in this matter, these people have no choice but to go on producing food in that place, all the while suffering further exposure. So I don’t think we can throw out the food they produce there under those conditions. Inevitably someone has to consume that food―I suggest it be fed to the pronuclear lobby (laughs). We should serve all of the most heavily contaminated food at say the employee cafeteria at TEPCO or in the cafeteria for Diet members in the Diet building. But that isn’t nearly enough. We must carefully inspect the food, and once we’ve determined what foods have what levels of contamination, once that is fully measured and delineated, then those who have the corresponding levels of responsibility should eat it, should be given it.
Now of course strict levels of responsibility cannot really be allotted one by one to individuals that way, so when it comes to this food, I would propose devising a “60 and over” system. The most contaminated foods could only be eaten by those 60 years old and older, and from there also have food for “50 and over,” “40 and over,” “30 and over” – giving the best food to children. For example, school lunches would get the most uncontaminated food available―there’d still be contamination from the atmospheric tests―but food with only those levels would be given to children and only adults would receive the contaminated food. That would be my proposal.
My proposal would first be a precise measurement, starting from Fukushima and then of course including western Japan and Kyushu, to sort out the levels and then determine the relative burdens. I am aware that this is a controversial proposal, but each one of us, especially those who built postwar Japan, bears responsibility for allowing our society to heavily dependent on nuclear energy without carefully reflecting on the risks and consequences of it. And more importantly, we have the responsibility for protecting children.
Kasai: Recently, that idea has been suggested in Nishio Masamichi’s Radioactive Archipelago (Hibaku retto/『被爆列島』). You’ve just stressed that though the first step must be a rigorous measurement, right now that is simply impossible.
Koide: Right, completely impossible.
Kasai: So, that’s true of water as well. First I don’t think most people know how to measure the levels in water. You’ve already said how the current minimum standards are worthless, that below a certain threshold it would be displayed as “ND” (Not Detectable). For example, for tap water, up to 20 Becquerels would be posted as “ND,” exactly as if there was no radiation detected at all. Yet even with all these doubts on measurement, we must start with it, though it’s a dizzyingly long road ahead. But what do you think can be done to change this situation for the better?
Koide: Right now Japan has a standard of 100Bq/kg for general foodstuffs. Before the Fukushima disaster, Japanese foodstuffs were contaminated―by the atmospheric tests―at a level of 0.1Bq/kg. Of course there were some foods with less contamination and some with more. Still, roughly speaking it was 0.1Bq/kg. So when you’re talking 100 Bq/kg that’s allowing 1,000 times the [pre-Fukushima] levels.
As I said before, any exposure is absolutely dangerous. And the dangers increase corresponding to an increase in levels of exposure; this is the conclusion of all research. 100 Bq/kg is dangerous, 99 is dangerous, as is 90, and 50, and 10―they are all dangerous. 10 Bq/kg is 100 times the pre-Fukushima levels.
So I think it’s necessary to precisely measure the levels of contamination. As many people are living in a state of anxiety, groups like consumers’ cooperatives and other sorts of organizations are trying to measure the contamination on their own. But the measuring devices that these groups are able to get, such as the ones called NAI, these devices can only measure levels above 20Bq/kg. While this means that they can measure levels as little as one-fifth of the national thresholds, from my perspective even this lower level is far too high.
And the worst thing that could happen is thinking that any contamination below the detectable limits of these machines, meaning below 20Bq/kg, would be misunderstood as being free of contamination, and then having the Fukushima prefectural government actively using this data as good news: “measurements below the detectable limits of the device must be clean; we can even serve this food in school cafeterias,” or PR campaigns announcing “Fukushima produce is safe.” Of course it would be totally outrageous and unthinkable and yes I think every effort should be made to serve the least contaminated food in school cafeterias―but the reality is that any food tested below detectable levels is distributed to schools as safe produce.
I think we need to stop this situation, and technically speaking, I think several germanium semiconductor detectors must be deployed instead. But a germanium detector would cost from $100,000 to $200,000. And in order to use it, the detector needs to be kept at 150 degree below zero Celsius. So these are not devices that the average citizen is going to be able to use.
So no matter how dedicated any individual citizen may be, there are real limitations when it comes to measuring radiation levels. If you ask me what should be done, for example when faced with Cs-137 or Sr-90, what should be done about these contaminants? Well these contaminants were produced in a nuclear reactor at TEPCO’s Fukushima Daiichi plant and it means that they are unmistakably TEPCO’s property. And if their private property is found to have contaminated other areas they have undeniable responsibility for it. So I think this is something that is required of TEPCO. I think it is TEPCO’s responsibility to precisely measure which foods have been contaminated, and to what extent, and then to report the results to the public. I think this is something the public should demand. After TEPCO the government also has responsibility―they gave their seal of approval to TEPCO after all. So the public should also demand that the government precisely measure the levels and publish the results.
Because there are limits to what one can do on one’s own, I think we need a movement that forces the government and TEPCO to take responsibility for the precise measurement of the contamination.
Hirano: Some have raised doubts over precisely this kind of rigorous measurement citing possible damage caused by rumors or misinformation (fūhyōhigai/風評被害), but to me this sort of criticism is tainted with a sort of “national morality” discourse (kokumin dōtokuron/国民道徳論).
Koide: Yes, I think so.
Hirano: There seems to be a very strong sense of dividing people into those who are seen as patriotic and those who are seen as un-Japanese (hikokumin/非国民).
Koide: For me, I’ve been making statements on the Fukushima contamination. These statements have been denounced and even made some angry with me. But the contamination is real. For a long time now I’ve been the kind of person who would rather hear the truth, no matter how awful, than to remain ignorant. I am absolutely not going to hide the truth; no matter how much criticism I have to take I am going to diligently report the truth. Yeah, a lot of people get angry with me. (Laughs).
Kasai: On this point, this year saw the publishing of Kariya Tetsu’s manga series Oi shinbo: Fukushima no shinjitsu (『美味しんぼ – 福島の真実』). 6 It would seem a kind of political campaign was developed to attack it. What is your take on this?
Koide: The editors sent me a copy and I’ve read it. It’s an awesome manga. In this day and age we just don’t have this kind of detailed manga on this problem and I am grateful for it. And more, Oi shinbo talks about the nosebleeds [caused by radiation]. The nosebleeds are real. Lots of Fukushima residents are said to be suffering from nosebleeds. Itokawa, the mayor of Futaba machi, has shown us proof. One of my acquaintances often talks about the nosebleeds.
It was true at Chernobyl, too. But nosebleeds have not been definitively and scientifically linked to exposure to radiation.7 Still there is no denying that it is real and happening. So even if current science is unable to explain it, it’s for science to ask just what is going on? Science has a duty to explain this, to tell the truth without obfuscation. No matter the reasons, we should be allowed to tell the truth. So for me I don’t think there is anything wrong with this part of Oi shinbo.
Kasai: I think Oi shinbo clearly exposed the politically constructed narratives “damage from rumor or misinformation” and “emotional bonds” (kizuna/絆) as fictions, and so for this reason it appears it had to be crushed.
Koide: Exactly. But Kariya, the author of Oi shinbo, is not one of the criminals responsible for the Fukushima disaster. Rather the government officials who caused the Fukushima disaster are the criminals. Yet it is these same government bureaucrats who now come out and complain that this manga is out of order. I say, “No, it’s you who are out of order. We need to send you to prison right now.”
But isn’t it always the case that a criminal who has committed a crime remains unquestioned and so starts bashing those who are telling the truth? When that happens I think the problem is precisely this word you just used “emotional bonds.” Since Fukushima, I have come to hate this word. (Laughs).
Hirano: “Bonds” seems to be the new nationalism, doesn’t it?
Koide: Yes, yes it does.
Hirano: You’ve often said that the Japanese economy and the people’s lifestyle would be fine even without a single nuclear power plant. In fact, since the government shut all the nuclear reactors down, the people have experienced no real trouble at all. In addition, considered in light of world standards we still have material riches and a lifestyle of surplus. Given this, what are your thoughts on the call to restart the reactors? For what purpose, what reason do you think the government has?8
Koide: First of all, the power companies don’t want to go bankrupt. In other words, the heads of the power companies do not want to take personal responsibility. For example, if the reactors are restarted and there’s an accident, are the heads of the power companies going to be punished? We already know that they will not be. Even after the Fukushima disaster neither the chairman, nor the CEO, nor anyone below―not a single person―was punished.9 It certainly looks as if the reactors are restarted and there’s an accident, the heads of the power companies would not be required to take any responsibility. The heads of the power companies, from Kyushu Electric to Kansai Electric, have received this message loud and clear.
What’s more, if the nuclear power plants are idled and not allowed to restart, then all the capital they represent becomes a non-performing asset. And of course this is anathema to anyone in management.
Hirano: If we could return to a technical discussion specifically how to decommission a reactor. As have others in your field you’ve already stated that a full end game cannot be envisioned yet. Still could you talk about what makes this issue so difficult?
Koide: By decommissioning you mean the endpoint of the Fukushima reactors?
Hirano: Yes, what does it mean for Fukushima dai-ichi?
Koide: When we say decommission we basically mean: How do we fully contain the radiation? At least I think that’s the main point. Now this is impossible if we don’t know the status of the melted core. Though it’s been four years since the disaster we simply do not know where the core is or in what state it is.
This is a situation that only happens in nuclear accidents. However large a chemical plant explosion may be there’d probably be an initial fire, but usually after several days, perhaps weeks you’d still be able to go on site and investigate. You’d be able to see just how things broke down. And in some situations might even be able to fix them. But with an accident at a nuclear plant you cannot even go on site four years later―probably not even ten years later.
Hirano: Because the contamination is so severe that no one can come close to it.
Koide: Yes. For humans going there means instant death, so the only way at all is to use robots. But robots are extremely vulnerable to radiation. Consider, robots receive their instructions through series of 1s and 0s, so should the radiation switch a 0 to a 1 you’d end up with completely different instructions. Essentially robots are useless. Even if you are able to send them in they can never return. Because this has been the case up to now, the only way left in the end might be to use robots that try to avoid exposure or that are built as much as possible to withstand exposure, but that is no simple thing.
So it means until we figure out what to do it would still take many years. Once you understand this fact you can start thinking about what can be done. And at the very least the “road map” devised by the government and TEPCO is the most absolutely optimistic road map that there could be. They are convinced that the melted core fell through the bottom of the pressure vessel and now lie at the bottom of the containment vessel―basically piling up like nuggets of the melted core. There’s no way this would be the case. (Laughs).
As the severity of the disaster became clear, water was repeatedly thrown on the reactors. This water would evaporate and dissipate continuously. That was the actual situation. There is no way that the melted core would have stayed as slimy liquid and then piled up like so many little nuggets. It should have been scattered all over the place. This is how the government and TEPCO’s roadmap goes: The buns would stay at the bottom of the containment vessel, above which is the reactor pressure vessel―a steel pressure furnace. With the furnace floor broken open, there is a hollow at the bottom through which the melted core must have leaked.
So at some point both the containment vessel and the pressure vessel would be filled with water and they’ll be able to see the nuggets of melted core by looking from above down into the water. They say the nuggets (the fallen material), yes, that they sit some thirty to forty meters below the water’s surface, that they’ll eventually be able to grab and remove them. This is all it takes, according to the government and TEPCO’s roadmap. Not a chance. This simply cannot be done.
Hirano: Obviously we can’t confirm or really say anything definitive about the situation in the reactors, but what do you think has happened?
Koide: I simply don’t know. But as I have mentioned, this whole “nugget” scenario is just not the case, and so I think the materials are scattered all over the place. Though the containment vessel is made of steel, if the melted core has come in contact with that steel, just as it ate through the floor of the pressure vessel, it could possibly have melted through the containment vessel. Depending on how things developed this, too, is a possibility. Unfortunately, I simply do not know.
Hirano: If that is in fact the situation, what steps are necessary?
Koide: First, as we talked about earlier, radiation must be prevented from being released into the environment. As I consider this task as “decommissioning” or the final containment of the accident, I think in order to prevent the release into the environment you must do whatever you can starting from the worst-case scenario.
There are situations in which the containment vessel can suffer a melt-through. I think this likely has already happened. And if it has happened what should be done? Outside the reactor there flows ground water. If the melted core were to come in contact with the ground water, the whole situation would be unmanageable. While this may have already have happened, in order to get any kind of control over the situation, some sort of barrier must be built to prevent the melted core from reaching the ground water. I’ve been saying this since May 2011―and they have not done a thing.
Kasai: This barrier would be an ice dam, a wall of super-chilled soil.
Koide: That’s the most recent idea. But it simply cannot be done successfully. It would cost billions of dollars. And it would fail. And when it did fail they’d say there’s nothing to be done but build a concrete wall. No matter how foolish an idea may be, they’ll just keep moving from failure to failure.
But really, for the construction companies that’s a good thing. I think Kashima would be the ones to build the super-chilled earth wall, for some billions of dollars. And if it doesn’t work―they wouldn’t have to take responsibility. Next they’d build an impermeable concrete wall. Several huge construction firms (zenekon/ゼネコン) would be contracted and would all make billions.
But considered from the perspective of actually ending the disaster, it would be a series of failures. Personally, I think an underground, impermeable wall needs to be built immediately. They are not going to be able to remove the material. All that can be done is to contain it. Underground the wall needs to be strengthened; above ground the only choice is some sort of sarcophagus like the one they built over Chernobyl. But even this would take dozens of years―I’ll probably be dead by then.
Kasai: There are temporary tanks sitting on land for this water, but they are starting to leak. What should be done about this contaminated water? There’s not enough space for all of it on land; it cannot be controlled; and every year the volume grows larger.
Koide: The radioactive water has penetrated the coastline around the Fukushima Daiichi. Underground water in the large area of Fukushima has been seriously contaminated. And at some point those contaminated water tanks will fail. I thought we must do everything that we possibly could. Already in March of 2011 there was some 100,000 tons of contaminated water. Even then I proposed moving it but didn’t get anywhere with it. Now there’s up-to 400,000 tons. In the near―meaning not too distant―future there will be nothing left but to release it into the sea.10 The water contains plutonium 239 and its release into the Ocean has both local and global impacts. A microgram of plutonium can cause death if inhaled.
Kasai: It appears that they are already moving toward that direction a little at a time aren’t they.
Koide: The Nuclear Regulatory Committee has been hinting at the possibility of releasing it into the ocean.
Kasai: They have been trying to persuade the fishing cooperatives and others to allow the release.
Koide: Yes, they have.
Kasai: Something that has not been much of a topic of discussion today is decontamination. It has become a rather large industry, in other words, “the exposure industry” (hibaku sangyō/被曝産業). Do you think decontamination is really meaningful and effective?
Koide: Yes, I do. And we must do it. But, to say that because we’ve decontaminated some area that the whole issue is resolved, or that people may safely live in a decontaminated place―I think that is a real problem.
First, fundamentally, people must not be forced to live in contaminated areas that must be decontaminated. First must come complete evacuation. The state must take on the responsibility to allow whole communities to evacuate. Of course, they did not do this.
Briefly, I use the word “decontamination” (josen/除染), which is a compound word written with the characters for “remove” and “stain.” But this is something that cannot be completed when it comes to radiation, so the original sense of the word “removal of contaminants” is impossible. But as long as people are abandoned in the contaminated areas, I believe all possible actions should be taken to lessen their exposure. It is essential that the contamination be removed as far away as possible, to be transported far from where people live. For this reason I prefer to call it “[toxic] relocation” (isen/移染).
But even if this is done, that does not mean that the radiation has been erased. This stuff contaminates everything from mountains to what have you, it gets into the space of people’s lives. When that happens it must be removed. But removal merely means moving it around―it does not mean eliminating it. It means another job is waiting to handle the contaminated materials that get moved around.
Right now the authorities say they want various prefectures and other local governments to build a temporary storage and bury the accumulated contamination there.
We talked about this before, but the contaminants themselves were clearly formerly in the reactor at TEPCO’s Fukshima Daiichi plant and are therefore also clearly TEPCO’s property. So while it is residents who are doing the hard work of collecting all these contaminants, I think it would be right and just for these contaminants to be returned to TEPCO. Earlier prof. Kasai told us the contaminants were being called “no-one’s property” (mushubutsu/無主物), but I say in all seriousness, the conclusion of my logic here is to say to TEPCO: “Hey, this is your crap” and return it to them. That way the residents are not forced to accept the stuff, TEPCO is. The best solution is to return all of the material back to the Fukushima Daiichi plant, but that is not possible. Right now that place is a battlefield between poorly paid workers and the radiation, so I don’t see this as a possibility.
What I would most like to do is have TEPCO’s headquarters buried under all the radiation, but whenever I say this people just laugh. (laughs)
I do have a second proposal. Fifteen kilometers south of Fukushima Daiichi [Fukushima 1] is the Fukushima dai-ni [Fukushima 2] nuclear plant. There is a lot of wide open space there. So first off we would return the Fukushima 1 contamination to TEPCO there. I think there would be enough space, but if there were not, the rest could be taken to TEPCO’s Kashiwazaki Kariya nuclear plant. It’s the world’s largest nuclear plant and so there is a lot of space. I think turning that place into a nuclear waste site is a good idea.
Lately I’ve been invited to Kashiwazaki11 and talked about it. I think I’ve become a hated man there. (Laughs). But I think taking full responsibility for various actions is the most important thing. And when it comes to this particular disaster no one has greater responsibility than TEPCO. As I think it important for one to take full responsibility, if Fukushima 2 doesn’t work out, then Kashiwazaki Kariya is the only other option.
Hirano: State expenditures for decontamination have supposedly reached one trillion yen.
Koide: It’s more than that.
Hirano: This summer I spent some time in Iitate village. Of course at the time the place was crawling with decontamination workers. It was a truly bizarre scene. I had the feeling of running around on a moonscape. Of course there were no residents there-just decontamination workers in strange gear, trucks running all over the place. Looking at that scene, being shown the actual work of decontamination, it seemed to be an excruciatingly slow―even endless―endeavor. I mean they were scrubbing everything with small brushes. I was able to ask the workers a few questions―off the record. Many were people from Hokkaido, Okinawa, and Fukushima who had lost their homes. It was a collection of modern day migrant workers and victims of disaster. They said that they work for just 15,000 yen a day.
I asked them if they thought their work was doing any good. They said they needed the money and honestly had no way of knowing if this sort of minute and delicate work would remove the contamination.
Was this a mistake? Is scrubbing everything by hand and then dumping it all in the ground really the only way to decontaminate an area?
Koide: Well I think both that it is and it isn’t effective. For example, when they first started the decontamination work, what they did was blasting everything with high-pressure water hoses. That’s bad. All that does is get all the contamination moving around. It’s really just dispersing it.
Some of my colleagues have said that is a bad method. Be it a roof or a wall, you shouldn’t just douse it with water. To really remove the contamination, you would first cover it with something that could prevent the escape of radioactivity then knock down the radiated structure, tear it all off, and then fold it up and collect it all. I think that’s probably true. But it takes a long time.
I think there are effective ways of doing it and I think there are ineffective ways. Still it is fundamentally impossible to erase the contamination and so it must be moved. The only thing we should be doing is thinking about the easiest way to relocate it all.
Hirano: That’s the meaning of “effective” in this situation isn’t it.
Koide: Right. So the current method may be rather small in scale. But for me even small-scale methods are necessary. As long as people are living there everything is necessary.
Of course, there’s legitimate criticism over the fact that this is a decontamination business and that the large construction companies are getting rich, but again, for me, as long as there are abandoned people still living there it all must be done.
Hirano: It was really a shock going there and seeing it. To see those workers and, honestly, their lack of conviction for the work. It was a really weird scene. No real enthusiasm, but rather one day after the other, contingent labor. The media has reported that the workers come from a few particular prefectures, but actually being there and talking to them, I could really get a true sense of the structure of economic inequality in Japan, that this sort of work found this kind of person, a person coming from economically precarious and socially marginalized backgrounds. In fact, you come to understand that decontamination work depends on these people.
For example, decontamination, or your preferred “relocation,” couldn’t those jobs be made more equitable―say by requiring TEPCO office workers, especially executives, to do it?
Koide: I’ve said that.
Hirano: You have? (Laughs).
Kasai: So…about the airborne radiation dosage and the soil contamination, there is a public entity that measures and publishes the airborne levels. But the soil contamination is not measured. I remember reading about Chernobyl that the soil contamination levels are the standard by which one gets the right to evacuation and refuge. But Japan only measures the air. And there are those who doubt the accuracy of the levels recorded. I thought the soil contamination had not been measured yet, but from what you mentioned earlier, we do know the extent of the contamination, don’t we?
Koide: Yes, we do.
Kasai: The actual levels?
Koide: With respect to soil contamination we more or less know the extent of it. We largely know which prefectures, which towns, and which villages―as well as how badly―have been contaminated. Four years after the disaster it has moved around. Radiation moves through the environment; it has a material existence and also does die out. I’m sure much has changed since immediately following the accident.
We have the data necessary to draw a map of the situation immediately following the accident, but we don’t have the data necessary to draw a map of the contamination today. That said, we basically know the extent of the soil contamination.
Kasai: Who is it that is making these measurements?
Koide: It is basically the Ministry of Education, Culture, Sports, Science and Technology. Some local governments took part as well. Some independent groups, as well as some local governments, took part in taking measurements back then. But for us the number one data source is the US military.
Hirano: I see; how is that?
Koide: They worked at truly amazing speed-and accuracy.
Hirano: Sorry if this next thought seems a bit of a tangent, but right after the accident both the US and Japan were looking at the same data. But their interpretations of it were extremely far apart. The US ordered all of its personnel to evacuate an area 80 km from Fukushima. While Japan’s largest evacuation zone was 20 km. Where does this disparity in evacuation zones come from? They are both looking at the same data. How do they arrive at such definitive and divergent judgments?
Koide: Well…and this was true for me, too, any nuclear specialist would have known on March 11th-March 12th at the latest-that there had been a meltdown. And this means, quite simply, that control had been lost. And once control is lost you simply don’t know what is going to happen next-or that’s what you must think at the time. Disaster preparedness must always imagine the worst-case scenario. If you don’t plan for the worst-case scenario it will be too late. What the US did was believe there had been a worst-case scenario-a meltdown-and so moved to take care of its people. That’s why they ordered an 80 km evacuation. I think this was the correct strategy. Japan didn’t do this. Japan was always thinking of the ideal, the best case scenario. They had to be thinking they could still get control and based their policy on that optimistic assumption. So they only declared a 20 km evacuation zone. I would say that from this conclusion two things may unfold: one is their desire to see this as a best-case scenario and the other is their inability to deal with it.
Hirano: What do you mean by their inability?
Koide: In a word, the Japanese state is incapable of functioning adequately when dealing with a disaster. That’s why they evacuated those within 20 km by bus but when it came to the 30 km zone they told those who could easily evacuate to do so and for all others to merely close their doors and windows.
Hirano: So there was no emergency management.
Koide: None. There simply is not a single person in the Japanese government who had thought an accident like this was possible. They all immediately fled the off-site center and so there was absolutely no emergency management―there couldn’t be. And because management was now impossible, there were no announcements. Even if they had declared an 80 km evacuation zone there were no emergency shelters. They had made no preparations, so there was nothing to be done.
Hirano: Last summer I interviewed Murakami Tetsuya 12 Just as the accident was happening he reached out to the government. But he got no response. He went to the prefecture. No response from them either. In the end he just used his own judgment. So really there was essentially zero emergency management in place. His thoughts at the time were to get the whole village to emigrate; that really there was nothing to do but to buy land and move to Hokkaido. He said these were his actual plans at the time. In fact, it would seem that the myth of safety has so totally permeated the bureaucracy that there really is no one who thinks about these things―wouldn’t you say?
Koide: That’s right. Not a single nuclear expert or policy maker ever seriously considered the possibility of an accident like this. I knew accidents were possible, and that when they happened the damage would be enormous; I had been commenting on the possibility, referring to some results of simulations. But still I would have thought the kind of disaster that happened at Fukushima was some kind of impossible nightmare―yet it actually happened. It was like the worse nightmare becoming a reality. And if even I thought this then all those pronuclear people surely never gave it a moment’s thought. And so when it actually happened, no one had thought about, let alone built a system to deal with it.
II The Responsibility of the Scientist and the Citizen
Kasai: In your books and lectures you often express strong respect for Tanaka Shōzō.13 Can you connect what you’ve just said to this as well?
Koide: Sure. I first became aware of Shōzō when I was in the student movement during the 1970s This was a time when there was close attention paid to Japan’s many pollution incidents, such as at Minamata. Personally I was working on nuclear power, but it was a time when, like it or not, we learned of all the harm that came along with building Japan into a modern nation. What I got from Shōzō was this epiphany that just like the Minamata disease right there before our eyes these sorts of pollution incidents went way back in Japanese history. With Japan’s decision to cast off Asia and follow the West after the Meiji Ishin of 1868 came these sorts of incidents, and the question within that was just how should one live? I learned the way Shōzō lived his life. I thought: Wow, it is possible to live that way; I must do it. Unfortunately I am completely unable to do so, but I never stop thinking that Shōzō’s was a wonderful way to live a life.
Hirano: Going back to an earlier discussion. You’ve repeatedly talked about the government’s responsibility, scientists’ responsibility, and individual responsibility. It would seem that this word “responsibility” is an extremely important keyword for you. You often emphasize it in your writing, too. What I want to ask concerns the issue of scientists’ special responsibility, a particular social responsibility. Scientists are often thought of as technicians, but this is not really the case. As a result, I feel you’ve pursued an intense interrogation of yourself as a scientist. As you’ve said you are not going to enter politics, could you connect this discussion of scientific responsibility to your earlier discussion of doing all that has fallen to you personally to do? How should we think about these two things?
Koide: I am in science and as such I have to take on the responsibility of a scientist-Just as a politician must take political responsibility. I think I mentioned this to you the last time, but I am an absolute individualist (tetteiteki na kojinshugisha/徹底的な個人主義 者). I don’t want to be constrained by anyone. I want to be able to decide my own life for myself. But because I’ve made this choice by myself I must also take full responsibility for that choice.
It’s two sides of the same coin. I don’t take orders from anyone. And this means that I alone bear the responsibility. It’s really as simple as saying: I’m a scientist and so I have the responsibility of a scientist.
Hirano: On this way of thinking about responsibility: “Who is the subject responsible?”―this way of thinking about it seems to be quite absent in contemporary Japan.
Koide: Right. People living in Japan today have not made decisions as individuals. They just “go with the flow;” as long as they follow the “authorities” whom they believe will guarantee the happiness of their individual selves. This seems true of education, too. Go to a slightly better school; get into a slightly better company; grow a bit more rich, a bit more grand. I think everyone is swept up in this current, and it’s really senseless.
I think it is extremely important that each and every individual live out their individuality. The absolute worst thing is for everyone to become blindly obedient to the “authorities,” yet this is the Japan we find ourselves in today. And so no one takes any responsibility. Living in such a society it is too easy to say, “It can’t be helped.” Everyone is thus able to blame the society as a whole; “It can’t be helped.” And so no one takes any individual responsibility.
The most extreme and obvious example was the war. Everyone would say: “It’s not my fault; I was deceived. The military were the culprits.” Saying this allows people to remain at a distance, indifferent. It is bad news for a nation when its citizens have only this view of responsibility.
Hirano: You’ve declared, “I am an absolute individualist.” Personally I am very interested in that statement. So could you speak a bit more concretely about the meaning of your individualism for how one lives a life? In other words, could you explain just what you mean by this “individualism?”
That is, in Japan being individualistic is more often a way to say egotistical; a sort of disregard of others. One should pursue one’s own interests―in English the word is “selfish” ― egocentric ― pursue your own egotistic advantage. Now this seems completely different from the way you use the term. Could you speak directly to this difference?
Koide: I think you’ve just done so.
Hirano: Did I? (Laughs). So that’s it then, just as I said? Still it’s clearly not selfishness.
Koide: No, I don’t think it’s about interests.
Hirano: It’s about values isn’t it?
Koide: Yes, it’s about personal values. You and I are different people. I am different again from Mr. Kasai. Why? Well our genetic information is different. I received a bundle of information from my parents. You and Mr. Kasai, too, are influenced by your genetic information. Every one of the over one hundred million Japanese is a unique human being; and every one of the over 7.3 billion people on earth are unique individuals.
History may keep moving on, and there is a big, wide world here on this planet earth. That said, right now, at this moment, and right now, in this place, I exist as an irreplaceable being. It is nothing but an absolute truth. You normally live in Los Angeles, but right now at this moment you are a person who is here. Mr. Kasai has come down from Tokyo. While acknowledging all the implications of being within the flow of history, we are all right here, right now.
In other words, every single individual human being has a different way of living a life; they are each unique. They have each lived a life that absolutely no one else could have lived. It is a real loss if they don’t live up to their full potential. Those are my thoughts.
So for my own unique self, and so for your own unique self, and Mr. Kasai’s own unique self, none of us should be compelled by someone else to do something (meirei o sarete/命令されて). If we don’t live our lives according to the will coming from deep within ourselves, that’s a real loss; we must all live with our values coming from within ourselves.
I am going to retire next March, but though I am the lowest ranked employee here― above me are assistant professors and professors ― because of the peculiar arrangements of working where I do, I am not compelled to take orders from anyone. I am the lowest ranked so of course there is also no one below me to order around. So I am in a position where I never take nor give orders. For me this is the ideal position to be in.
And so I can live out my own life according to my own values; I’m allowed to live a life that suits me. Now I found myself in this position largely by accident, and then chose to continue to live my life this way. Related to this, I am a human being and so will make mistakes, but these mistakes will be things that I have chosen, things that I have personally done so there is nothing to do but to take responsibility for them. This is what I mean when I say that responsibility is an extremely important word.
Hirano: Well, you’ve exhaustively criticized this competitive society. You’ve said that this competitive society has ruined Japan and destroyed life based on what you call responsibility.
Koide: Yes. Everyone is running towards the exact same goal. It’s ludicrous. You want to go that way; I want to go this way. I think this would be the ideal society. Full mutual recognition is a good thing.
Hirano: Does your view come from your personal experience? In your books you state that you were a really conscientious student when you were younger (laughs).
Koide: (laughs) Well, yes.
Hirano: You studied extremely hard. Did everything extremely hard. You continued this in your nuclear research in college believing that a new energy source was cheap and good for everyone. You must have thought this was a great thing.
Koide: That’s right.
Hirano: But you eventually noticed that it was all wrong. So on this, from deep in your own experience, it’s an individual history, an individual experience, in one sense it’s connected to your current individualism, to how you live your life focused on the important things to you.
Koide: I think that’s right. So, well, when I was young, in my late teens, I was consumed by the dream of nuclear power. I devoted my life to it. That was all a mistake―it did not take me too long to realize that.
Hirano: When did it happen? In graduate school?
Koide: My third year in university.
Hirano: Third year―so as an undergraduate.
Koide: Yes, I came to this realization in the latter half of my undergraduate studies. It was foolish and I curse myself for it, but I didn’t quit. To this day I’ve lived my life as someone who made that wrong choice, and there is nothing to do but make amends for that choice.
At a minimum I wanted to get rid of nuclear power before there was a bad accident. I guess I’ve lived with this wish for over forty years―but that wish stayed out of reach. And here we have had the accident so my life has been for nothing. You could say that thing I wanted most to do has been denied. Really, what have I lived for? I think about that from time to time.
As this was my choice I have to accept it. So while the meaning of my life may have been lost, still I was able to live my own life as I pleased, without submitting to the orders of others and without ordering others around―for this I am grateful. My hopes were never realized. History is full of that kind of thing. Likely very few people see their hopes fulfilled. And while in my case they were rejected, I was able to live the life I wanted and that is a life to be grateful for.
Hirano: In a way, it’s just how Tanaka Shōzō lived his life isn’t it?
Koide: Yes it is. That is what I like about Shōzō.
Hirano: On that point. His life, too, was a defeat.
Koide: Complete and total defeat.
Hirano: Still, he used all sorts of means, and followed all the way through on his beliefs.
Hirano: So getting back to Fukushima, it seems when it comes to the life choices of the so-called Japanese elites, they seem caught in a system in which they will succeed and become famous by crushing their individuality and subsuming it under some organization in order to get ahead in a society and achieve fame and status. And the education system seems to be promoting this lifestyle where these sorts of people are created through intense competition. I think the very end result of this social and educational system was revealed, and it exploded in an explicit and ugly manner through various problems the Fukushima disaster has posed.
Koide: Yes, I think so. You said it.
Hirano: I see. In one sense it would have been possible even for these Japanese elites to make their personal responsibility clear and take appropriate actions only if they had lived a life based on individualism as you suggested.
Koide: Yes I think such a possibility exists, but unfortunately in Japan today that possibility has been completely crushed. It was abundantly clear from the Fukushima disaster that no one in this country is going to take responsibility.
Hirano: You’ve already talked about how TEPCO and the government made huge mistakes in dealing with the problem immediately after the accident. What do you see as the definitive mistake that led to this disaster?
Koide: There’s a ton of them. Any specialist would have known right away there had been a meltdown, and that everyone needed to be evacuated immediately. And evacuating to 20 km away is totally inadequate. Iitate village some 40-50 km away received an enormous amount of contamination and was neglected for over a month.
Soma residents evacuated to Iitate, this kind of stupidity cannot stand, the government’s criminal mistakes.
Kasai: I’m deeply taken by your previous discussion on responsibility. It’s really a story of something with no owner. A golf course that has had to close because it is considered contaminated with radiation from TEPCO’s plant has recently sued. TEPCO’s top attorneys argued in defense that the radiation is not their property, which would make it no one’s property and therefore TEPCO is not responsible. It seems the opposite of what you’ve just said about responsibility, to be sure, yet this declaration of complete lack of responsibility, once passed through the logic and system of the courts, these lawyers have arrived at precisely this conclusion. It is not a question of individual responsibility; it is a problem of the social system. Lack of any responsibility is the basis of the entire social system. What are your thoughts on this?
Koide: It’s exactly as you say. This is what it has come to. I couldn’t care less about a country like that. But in order to overcome this situation, it’s something I mentioned earlier, but there is no way but for rather foolish citizens to get smarter. Only each individual standing up for his or her own way is going to do it.
Hirano: You’ve also talked about “responsibility for being fooled.” You’ve said that even the deceived are guilty and stressed that they too must take responsibility. How do you think about this at the individual level? For example, you’ve often stated that there should be a new food labeling system put in place by which especially the generation that agreed to build the reactors would be obliged to eat the contaminated food―would this be an example of taking individual responsibility for you?
Koide: Yes, that’s exactly what I mean. So, because I think that every Japanese adult has responsibility for both allowing the rampant development of nuclear power and the Fukushima disaster, I said that they should be the ones to eat the contaminated food. And so that this disaster may never happen again, nuclear power must be eliminated―of course there should be no question of restarting the reactors. Yet, what I’ve just said is not really a widespread idea. Slowly all the reactors are being restarted.
Hirano: So in that sense Japanese citizens’ responsibility is increasing in that they are allowing the restart of the reactors.
Koide: I think the nuclear power issue is precisely analogous to the war.
Hirano: Indeed, as with the damage of misinformation and national morality discourse we talked about and the pressure that comes from those hints of someone being somehow “un-Japanese,” it seems to really resemble the war.
Koide: I think so, yes.
Hirano: I’d like to ask more about the responsibility for being misled. Up to now the reason most would say that nuclear power has been allowed is the myth of safety―a myth invented by the coordination of the government, TEPCO, and the media. So Japanese citizens have been robbed of being told the truth, of having the chance to know the truth.
Koide: That’s true.
Hirano: So the likely response to your position would be that it’s unjust to blame those who were robbed of the chance to know the truth. How would you answer this challenge?
Koide: I also said that the current situation is just like during the war. Then, too, the media only reported the information coming from imperial headquarters: The Japanese military enjoyed nothing but a string of victories. We were all told that because of the emperor Japan was a divine country and therefore could not lose. You would go to school and there would be the emperor’s portrait hanging on the wall. There was a place where the emperor was enshrined right there on school grounds. Every child was taught that the emperor was present there.
In such a country it wasn’t strange to think that Japan would win the war. But those who knew more about the world, including of course those in the military, knew that Japan could not win. Still they said nothing. And so everyone was swept along with the current.
But history is harsh, and in the end Japan was battered. And people at that time said, “Ah, we’ve been misled. The military are the culprits.” But even within all of this there were those who resisted the war. The number of people tortured and killed by the Special Higher Police was huge. And those people, too, were labeled as “un-Japanese” and ostracized from society by the majority of the population. Whole families, whole groups of people were obliterated.
So those who lived then were duped, they were given false information. But should they say that’s where their responsibility ends? I would respond that even if they were duped, the duped still bear the responsibility of the duped. How did each and every one of them live their lives during the war? How did they deal with the information they were being given? I think we need to include these kinds of questions when we interrogate ourselves over taking responsibility. Now if you say this people get angry but I think without question the emperor has absolute responsibility for the war. We ended up moving on without trying to pursue the emperor’s war responsibility.
Even today you’ll see people happily shouting “Tennō heika banzai,” Long Live the Emperor. At midnight NHK will broadcast the Japanese flag flapping in the wind. I can’t stand that and so don’t watch TV. Most Japanese get happy when they hear ‘honorable’ addresses by His Majesty the Emperor or news about the imperial family. From the bottom of my heart I think we should have pursued his war crimes and punished him with whatever it takes, including execution. I have been saying this and people get very angry.
I am told not to criticize the emperor. They say if I do I’ll harm the anti-nuclear movement.
Hirano: Even people in the anti-nuclear movement warn you about things like that? A critical reference to the emperor’s wartime responsibility could be fatally divisive for the movement?
Koide: Those roots are that strong when you talk about war responsibility. But as I have mentioned to you, I feel at the bottom of my heart that each and every individual must take personal responsibility for how he or she lived his or her life. That’s the reason why I wanted the emperor to take his responsibility as a person.
We must build such a country. Even the duped and the lied to have responsibility as individual human beings. It’s true for those who lived through the war, and it’s true for those who promote nuclear power in Japan today―indeed it’s true for everyone on earth. Each one, should they be deceived, is responsible for being deceived.
Hirano/Kasai: Well we’ve gone on long today and heard some really important things. Thank you very much.
Katsuya Hirano is Associate Professor of History at UCLA. He is the author of The Politics of Dialogic Imagination: Power and Popular Culture in Early Modern Japan (Chicago). This interview is the second installment of his oral history project on Fukushima in The Asia-Pacific Journal: Japan Focus. The first interview was with Murakami Tatsuya: “Fukushima and the Crisis of Democracy: Interview with Murakami Tatsuya”, The Asia-Pacific Journal, Vol. 13, Issue 20, No. 1, May 25, 2015.
Hirotaka Kasai is Professor of Political Thought at Tsuda College in Tokyo, Japan. He has published articles and book chapters on Maruyama Masao and radical democracy in Gendai Shiso and others.
Robert Stolz is Associate Professor of History at University of Virginia. He is the author of Bad Water: Nature, Pollution, and Politics in Japan, 1870-1950 (Duke). He has published an article on Tanaka Shozo in The Asia-Pacific Journal: “Remake Politics, Not Nature: Tanaka Shozo’s Philosophies of ‘Poison’ and ‘Flow’ and Japan’s Environment”, Vol. 5, Issue 1, January 2, 2007.
Akiko Anson is a freelance translator who lives in Iowa City, Iowa. Anson obtained a BA degree in English Literature from Gakushūin University in Tokyo, Japan and an MA degree in Asian Studies from the University of Iowa.
Recommended citation: Katsuya Hirano and Hirotaka Kasai interview Koide Hiroaki, “The Fukushima Nuclear Disaster is a Serious Crime”, The Asia-Pacific Journal, Vol. 14, Issue 6, No. 1, March 15, 2016.
Notes
15,000 Abandoned Uranium Mines – Dirty, Deadly Front End of Nuclear Power —
The Dirty, Deadly Front End of Nuclear Power — 15,000 Abandoned Uranium Mines Truth Out Friday, 11 March 2016 00:00By Josh Cunnings and Emerson Urry, EnviroNews | Video Report Editor’s Note: The following news piece represents the first in a 15-part mini-series titled, Nuclear Power in Our World Today, featuring nuclear authority, engineer and whistleblower Arnie Gundersen. The EnviroNews USA series encompasses a wide span of topics, ranging from Manhattan-era madness to the continuously-unfolding crisis on the ground at Fukushima Daiichi in eastern Japan. The transcript follows the video below:
TRANSCRIPT:
Josh Cunnings (Narrator): Welcome to the EnviroNews USA news desk. I’m your host Josh Cunnings. In this first episode of a unique 15-part mini-series of short-films, we are going to explore Nuclear Power in Our World Today.
Our journey extends outward from a bombshell interview conducted by EnviroNews Editor-in-Chief Emerson Urry, with the esteemed nuclear expert, whistleblower, and expert witness Arnie Gundersen. Gundersen is a nuclear engineer, as well as a former power plant operator, and trade executive, whose own life, for a good amount of time, was ruined by the nuclear industry after he exposed radioactive safety violations. So to get this series rolling, here’s what Gundersen revealed to Emerson Urry……..
The educational short serious we’re about to bring you spans a plethora of nuclear-related topics, but maintains a special focus on the myriad nuclear problems still festering right here in the US In this series, we will also explore with Gundersen, critical and downright disturbing details from the ongoing, ever-unfolding, nuclear crisis at Fukushima Daiichi in eastern Japan.
Some of the segments in this series are very short and feature raw interview excerpts, while in other episodes we dive deeper into the content discussed between Gundersen and Urry.
But before going around the world to talk about the incredible state of despair, still palpable on the ground in Japan, we’re going to start this series right here on US soil — at the beginning where all nuclear complexities commence — we begin with the aftermath from the mining and extraction of the naturally occurring radioactive element uranium — a mineral with a four-and-a-half-billion-year half-life that presents very little harm when safely sequestered in the earth — but all that changes when it’s mined and brought to the surface……….
While for many years nuclear power rode under the guise of the so-called “peaceful atom,” the industry has been chastised for being a friendly cover for the bomb fuel business……….
In the 40s and 50s, America was pillaging uranium out of the earth as fast and furiously as possibly in a rush for both electricity and bombs — but it turns out that many of those mining messes weren’t cleaned up very well — if at all.
The perplexing problem of these open, deadly, toxic messes was discussed between Urry and Gundersen. Take a listen.
To our understanding there are about 15,000 abandoned uranium mines that have been left in complete ruin with very little cleanup or remediation at all, just in the western United States. This has happened, by-and-large, because of an antiquated mining bill — the 1872 Mining Bill — still affecting these situations today — that kind of allowed miners to just walk away from these situations — but yet, they remain in the open leaching off tailings — blowing around radioactive dust. I think there’s about 4,500 of these exposed mining sites just in Navajo country — another 2,500 or so in Wyoming. How do we deal with that situation? What does the future hold in those regards, and quite frankly, are we all being poisoned by these mines?…..
Gundersen: The way our system is set up is that you take the profit early, and then when everything is done you walk away and the government takes the risk. So, we’ve socialized the risk, and the capitalists make the profit early on and the rest of us pick up the cost afterward. And that’s historically true on the Navajo reservation especially — but you get in the Black Hills and the Lakota Sioux… We had a member of our board go out to South Dakota and sample a dried riverbed, and the bottom of the riverbed had as much uranium in it as a mine — from runoff from uphill mines. We have a legacy that we’re really not admitting exists. Thousands and thousands of these mines — mainly on the Native American property, but not entirely………
Charmaine White Face (excerpt from Defenders of the Black Hills video): Dr. Lilias Jarding in her research that she completed in 2010 calledUranium Activities’ Impacts on Lakota Territory talked about, not only what was happening on the Northern Great Plains, but also in Colorado. All of these are abandoned open-pit uranium mines. 397 in Montana, 2103 in Wyoming, 113 in North Dakota, 272 in South Dakota, and 387 in northern Colorado, for a total of 3272………
Dr. Kearfott with her students came out and started doing some readings in our treaty territory, and this is what they found: “The radiation levels in parts I visited with my students were higher than those in the evacuated zones around the Fukushima nuclear disaster.” Higher. Fukushima radiation levels were higher than Chernobyl. The Northern Great Plains’ levels are higher than Fukushima — and these are not from nuclear power plants or from an atomic weapon, or atomic bomb being exploded. These are from 2,885 abandoned open-pit uranium mines and prospects, and we are subject to that radioactive pollution constantly. We, the people of the Great Sioux Nation, we are the miner’s canary. We are the miner’s canary for the rest of the United States. We have the highest cancer rates now. We never gave permission for uranium mining to occur in our treaty territory. It’s not just the nuclear power plants that people have to be afraif. All of these abandoned open-pit uranium mines in the Northern Great Plains are affecting everyone, but they are genocide for the Great Sioux Nation — for my people. This is genocide……….
Tune in tomorrow for the second part of fifteen in this EnviroNews special — Nuclear Power in Our World Today. For EnviroNews USA — Josh Cunnings. http://www.truth-out.org/news/item/35179-nuclear-power-in-our-world-today
Uranium price – even further down the drain!
Nuclear power market still suffers from Japan’s Fukushima disaster -5-year disaster anniversary shows little nuclear power progress in Japan Market Watch, By MYRAP. SAEFONG MARKETS/COMMODITIES REPORTER 11 MAR 16 “……“Unfortunately, the uranium [and] nuclear market is still suffering significantly as a result of the Fukushima aftereffects,” said Jonathan Hinze, executive vice president of international operations at the Ux Consulting Company, the world’s leading nuclear-fuel consultancy.
In the wake of the nuclear accident, nuclear power became somewhat of an outcast……
Uranium supply ‘overhang’ Back in September, Jim Ostroff, senior editor of Platts Nuclear Publications, estimated that Japanese utilities had around 120 million pounds of uranium stockpiled, which was likely enough to have supplied all of Japan’s pre-Fukushima needs for six years.
Today, there remains an “overhang of excess supply to demand,” he said.
With such few active reactors, the Japanese are not buying uranium to make nuclear fuel and the companies that make the fuel from uranium, known as converters, are selling excess amounts because prices are so low, said Ostroff.
“With little, if any, demand to purchase [uranium] right now on the spot market, utilities are leery to buy any material because they are looking for a bottom” in prices, he said.
As of March 7, weekly spot uranium prices stood at $31.10 a pound, down from the March 7, 2011 weekly price of $66.50, according to data from UxC Consulting. UxC uranium futures UXM6, -1.60% are traded on Globex, with the June contract at $29 Friday, but volume is small.
The “bottom is falling out on prices again,” said Ostroff, noting that daily spot prices had stabilized at around $34.75 a pound earlier this year before its recent retreat.
In response to the low prices, it’s “fair to say that most of the world’s producers have abandoned any expansion plans and have curtailed their existing operations,” said Ostroff.
Year to date, shares of uranium producer Cameco Corp. CCJ, +2.69% has lost around 2.5%, while the Global X Uranium exchange-traded fund URA, +1.96% is down about 3.5%. But the losses pale in comparison to last year’s declines of nearly 25% for Cameco shares and more than 38% for the ETF……..http://www.marketwatch.com/story/nuclear-power-market-still-suffers-from-japans-fukushima-disaster-2016-03-11
Fukushima misery continues – thyroid cancer epidemic, and more
Fukushima: The misery piles up https://pursuit.unimelb.edu.au/articles/fukushima-the-misery-piles-up
Five years on from the Fukushima nuclear disaster there is now an emerging thyroid cancer epidemic and 174,000 people are still displaced By Associate Professor Tilman Ruff, Nossal Institute for Global Health, University of Melbourne
Five years on, the Fukushima nuclear disaster is far from over – the dispersed fallout continues to irradiate and move around the environment; in the water, in the plants and animals, and blown on the wind.
Every day 300 tons of contaminated water leak from the wrecked nuclear plants into the soil and eventually the ocean. The Reconstruction Agency estimates 174,000 people remain displaced, with many families disrupted having lost their land and livelihoods and now facing an uncertain future.
Despite inadequate health monitoring of exposed people, ultrasound screening of almost 370,000 children in Fukushima has yielded clear evidence of an emerging thyroid cancer epidemic among children and adolescents in Fukushima.
Whereas across Japan three cases of thyroid cancer per million per year would be expected in children, a total of 166 have been identified in Fukushima children. Rates are up to 50 times the national average in the most contaminated regions. Nor are these cases of little long-term consequence, detected earlier than usual because of an active screening program. Post-operative findings indicate that over 90 per cent had spread outside the thyroid gland, to local lymph nodes, or with distant metastases.
It is highly likely that this emerging thyroid cancer epidemic will be the harbinger of increases in other cancers and chronic illness. However, there is regrettably no register of people exposed from the disaster or of the doses they are likely to have received to enable long-term follow-up of health outcomes and appropriate targeting of health screening services.
The Japanese government is acting as if it wishes the Fukushima nuclear disaster could be quietly swept under the carpet before the 2020 Tokyo Olympics. It has announced cuts to housing and other assistance for displaced people by this time next year, and plans to clear the public evacuation orders for areas still contaminated at more than 20 times the internationally recommended and previous Japanese radiation limit.
Along with limited subsidies for those who choose to return to evacuated areas, these measures serve to push those whose lives have already been disrupted and health harmed by the disaster back into areas that remain significantly contaminated. No other government has failed in its first duty to protect its citizens by accepting such a high level of radiation exposure in the long term, including for pregnant women and young children.
We should not be at all surprised about emerging evidence of human health damage from a disaster which most Japanese and some international agencies, like the United Nations Scientific Committee on the Effects of Atomic Radiation – but not the World Health Organisation – claimed would have no discernible adverse radiation-related health impacts. Extensive evidence from a large number of plant and animal species in Fukushima confirm earlier findings from the region of the Chernobyl nuclear disaster in Ukraine showing high rates of genetic damage and a wide variety of illnesses and abnormalities in direct proportion to the level of contamination in essentially every species studied. In none of these studies was a threshold identified below which no damage occurred.
In Fukushima, malformations have been demonstrated in fir trees, butterflies, reduced diversity and numbers of birds and mammals, and reduced diversity of a wide variety of intertidal marine species, including anemones, worms, sponges, crustaceans and bivalves. Since 2012 rock shells within 30 km of the damaged reactors have completely disappeared.
Australians bear a special responsibility to ensure that the consequences of the Fukushima nuclear disaster and its victims are not forgotten or neglected. The fallout contaminating Japan comes in part from uranium mined in our country. Once mined and processed, there are only three ways that uranium can end up: as nuclear waste, in nuclear weapons, or as radioactive fallout.
The most important lesson from Fukushima is that sustaining global health demands a renewable energy future, not a radioactive one. Along with prohibiting and eliminating nuclear weapons, this is the only way to ensure that massive radioactive releases spreading around the world causing indiscriminate harm to present and future generations are prevented.
Nuclear expansion in Asia – sounds great – BUT
it’s unclear whether such plans will ever see the light of day. “It will be very difficult to find people willing to invest billions of dollars in this area, especially given the likelihood of another accident taking place in another part of the world,”
Nuclear energy booming in Asia, DW 12 Mar 16 Five years after the Fukushima nuclear disaster, India and China have embraced nuclear power. Other countries in the region also want to build more plants – even in high-risk areas prone to earthquakes and tsunamis…..
China: on track to becoming number 1 Following the Fukushima disaster, China’s government initially suspended the construction of additional nuclear power plants. Instead, comprehensive security policies were adopted. But in the autumn of 2012, Beijing lifted the moratorium on future development – and since then, has pursued a more ambitious nuclear program……….
Nuclear power is considered a relatively “clean” alternative to coal. In daily congressional meetings, the Communist Party has been discussing plans for a massive expansion of nuclear energy. By 2030, a total of 110 nuclear power plants will be in operation.
China would overtake the US as the country with the most nuclear power plants connected to the grid. Greenpeace nuclear expert Heinz Smital views the speed at which the reactors are being developed as problematic: “The Chinese safety authorities do not have the capacity to examine the buildings properly,” said Smital. “They will likely wave things through, rubber-stamp everything and not mess with the state-run construction consortiums. There is a big security risk.”……..
India. Delhi is planning a far-reaching expansion of nuclear power. Prime Minister Narendra Modi wants to build dozens of new reactors in the next 15 years.
The technical know-how is sourced internationally. Over the past decade, India has reached civil nuclear agreements with the United States, Canada, France and Russia. 21 nuclear power plants are already in operation. Two of the plants are in Kudankulam and Kalpakkam, located on the southeast coast of the country – areas prone to tsunamis. In December 2006, a tsunami hit Kalpakkam causing extensive damage, but not to the nuclear power plant, according to its operator.
Pakistan: Reactors in flood-prone areas
India’s neighbor, Pakistan, is also struggling with blackouts and outdated infrastructure. The country currently operates three small reactors, with the nuclear plant west of Karachi – located in a flood-prone area – being one of the oldest in the world. The remaining two reactors are situated in an earthquake-prone area some 300 kilometers (186.4 miles) south of the capital Islamabad. The government is planning to build two other reactors in the same area. According to Pakistan’s Atomic Energy Commission, Islamabad wants to build a total of seven new reactors by 2030 – with assistance from China.
South Korean expansion Although South Korea is about the size of the former German Democratic Republic (GDR), the country boasts 25 active nuclear plants. Three additional ones are under construction, while two others are set to be completed by 2029. The government plans to increase the share of nuclear power in the country’s overall energy mix from currently 30 to 40 percent.
Still, South Koreans are becoming increasingly skeptical about nuclear energy – and not just because of the 2011 Fukushima disaster. In 2012 and 2013, a scandal related to the use of fake safety certificates rocked the country’s nuclear industry lobby. State-owned (KHNP) had thousands of small components featuring falsified certificates fitted into the country’s nuclear plants. As it turns out, large amounts of bribe money changed hands between KHNP employees, construction firms and politicians.
This led not only to Korean media speaking of a “nuclear mafia,” but also to a massive drop in the approval ratings for nuclear energy – from 70 percent before the Fukushima disaster to 35 percent. In spite of this, Seoul is sticking to its plans to expand the use of nuclear power in the East Asian country.
Southeast Asia pigeonholes nuclear plans
In Southeast Asia, the production of nuclear energy is a hotly debated issue. For instance, while Vietnam wants Russian assistance to build eight nuclear plants, Hanoi has yet to make a final decision. Thailand is planning to build five reactors, whereas Malaysia and the Philippines each want a nuclear reactor to go online.
However, it’s unclear whether such plans will ever see the light of day. “It will be very difficult to find people willing to invest billions of dollars in this area, especially given the likelihood of another accident taking place in another part of the world,” said Greenpeace nuclear expert Smital.
“The costs related to the production of nuclear energy are only likely to increase, whereas renewable energy is becoming increasingly affordable. This is why the free market can only barely manage to finance nuclear plants at the moment,” Smital added. http://www.dw.com/en/nuclear-energy-booming-in-asia/a-19110848
Major leak shuts down India’s Gujarat Nuclear Plant
Gujarat Nuclear Plant Shut Down After Major Leak, All Workers Safe http://www.ndtv.com/india-news/gujarat-nuclear-plant-shut-down-after-major-leak-workers-isolated-but-safe-1286198 NDTV, All India | Written by Pallava Bagla March 12, 2016 NEW DELHI:
An emergency has been declared within the nuclear plant at Kakrapar in Gujarat after a major heavy water leak in a nuclear reactor. No worker has been exposed to radiation, said officials, adding that the employees remained sequestered till their shift ended, which is standard operating procedure for a crisis.
The workers were allowed to go home after they had been counted and accounted for as officials checked to ensure that no radioactivity was reported outside the plant.
Officials at India’s nuclear operator, Nuclear Power Corporation of India Limited (NPCIL), told NDTV “The reactor has shut down safely and no radiation has leaked out”. According to Nalinish Nagaich a senior official at NPCIL, no worker was stationed in the affected area.
The nuclear reactor is slowly cooling down and is in a “safe stage” confirmed Dr Sekhar Basu, Chairman of the Atomic Energy Commission.
The heavy water leak affected the reactor’s cooling system. If emergency cooling systems do not kick in after this sort of glitch, the temperature can rise so much that the core of the reactor can melt down completely.
Heavy water, formed with a hydrogen isotope, is used in Indian reactors as a preferred cooling agent.
Comprehensive report on Chernobyl – 30 years on
TORCH, Ian Fairlea, March 10, 2016 First of all, apologies to the many readers who have written complaining about the lack of new blogs/information on this website.
The explanation is that I’ve been busy for the past 5 months writing a new report on the health effects of the 1986 Chernobyl nuclear disaster -TORCH-2016. This is an update of the 2006 TORCH report. (TORCH means The Other Report on Chernobyl.)
The report (120 pages) was commissioned by Global 2000/Friends of the Earth Austria and funded by the Vienna City Council Environmental Ombuds Office.
The report updates the new health evidence which has been published in peer-reviewed journals during the 10 year period 2006-2016.
In a nutshell, the report finds
- 5 million people in Belarus, Ukraine and Russia still live in highly contaminated areas
- 400 million people in less contaminated areas
- 37% of Chernobyl’s fallout deposited on western Europe; 42% of western Europe contaminated
- 40,000 fatal cancers predicted
- 6,000 thyroid cancer cases to date, 16,000 more expected
- increased radiogenic thyroid cancers now seen in Austria
- increased radiogenic leukemia, cardiovascular disease, breast cancers confirmed
- new evidence of radiogenic birth defects, mental health effects and diabetes
- new evidence that children in contaminated areas suffer radiogenic illnesses https://www.global2000.at/sites/global/files/TORCH%20-%20The%20other%20Report%20of%20Chernobyl.pdf
Further nuclear tests, threats, from North Korea’s Kim Jong-un
North Korea’s Kim Jong-un orders further nuclear tests, threatens to turn US, South Korea ‘into ashes’ North Korean leader Kim Jong-un has ordered further nuclear tests, state media says, adding to military tensions on the Korean peninsula., ABC News 11 Mar 16
Key points:
- North Korea orders more nuclear tests
- Pyongyang talking up nuclear capabilities as US, South Korea hold joint military exercises
- The North carried out a nuclear test in January
Pyongyang has issued daily warnings and statements talking up its nuclear strike capabilities since US and South Korean forces began joint military exercises on Monday.
In one statement, it threatened to turn Seoul and Washington into “flames and ashes”.
Just days after he was photographed posing in front of what state media described as a miniaturised nuclear warhead, Mr Kim said the weapon required further testing.
Overseeing a ballistic missile launch, Mr Kim ordered “more nuclear explosion tests to estimate the destructive power of the newly produced nuclear warheads”, the North’s official KCNA news agency said.
Experts are divided as to just how far the North may have gone in shrinking warheads to a size capable of fitting on a ballistic missile ……..http://www.abc.net.au/news/2016-03-11/north-korean-leader-orders-further-nuclear-tests/7240344
A Jewish Law insight on the ethics of keeping crumbling Indian Point nuclear power plant
What Jewish Law Says About Crumbling Indian Point Nuclear Plant, Forward, Jay Michaelson 11 Mar 16, What does an ox’s propensity for violence have to do with a leaky nuclear reactor? One is an ancient, Jewish example of negligence; the other is a very contemporary one. But the ethical imperative is the same:
When there’s an imminent risk of danger to the public, it’s morally wrong to do nothing.
Let’s start with the present. Twenty-five miles north of New York City, the crumbling Indian Point nuclear power plant is leaking radioactive water. And yet what has been the government’s response? Forge ahead with a 42-inch natural gas pipeline right underneath that power plant.
Although The New York Times published an excellent op-ed on the plant this week, that article omitted the pipeline entirely, focusing only on the need to close Indian Point………
New York Governor Andrew Cuomo, to his credit, believes that it’s time to retire the Indian Point plant and, among other things, invest in renewables. So did that New York Times op-ed.
But it seems that one of those “other things” is Spectra Energy’s Algonquin Incremental Market project, a web of natural gas pipelines that stretches from New Jersey to Boston.
In other words, fracking. The AIM pipeline, if completed, will pipe fracked natural gas (that is, methane) from the Appalachians to New England. Cuomo has so far been silent on the AIM pipeline, giving it his tacit approval. FERC, the federal agency responsible for the pipeline, approved it in 2015.
Now, common sense would seem to disagree. Natural gas pipelines rupture all the time; there were 119 pipeline accidents in 2014. Right now, a gas storage leak outside Los Angeles is spewing 62 million cubic feet of methane into the atmosphereevery day. And the AIM pipeline would run just 105 feet away from the Indian Point plant. Twenty million people live within 50 miles.
The icing on the cake? Both the plant and the pipeline lie less than a mile from a fault line.
How is any of this possible?
First, for all the common-sense objections to a huge natural gas pipeline passing underneath a crumbling nuclear power plant on a fault line 25 miles north of the largest city in America, the fact is that both the pipeline and the plant have continually obtained regulatory approvals. And Spectra, the company building the pipeline, points out that it has older, smaller pipelines across the Indian Point property already, and they’ve operated without incident for decades……..
Here’s where that goring ox comes in. Jewish law is clear, in general and in detail, that it is negligent to create a risk to the public. If you let an ox loose, and it gores someone, you are responsible, because you placed the risk in the public domain.
The Indian Point plan is a modern-day ox. But as long as it remains open, or its waste remains on site, so is the Spectra Pipeline.
Indeed, the Pipeline-plus-Plant risk gets even worse. Perversely, the NRC includes terrorism in its purview, but only for the plant itself. The pipeline, meanwhile, has not been deemed a terrorist target at all, even though if you can blow up the pipeline, you might be able to blow up the plant……..
We need religious, as well as environmentalist, voices on this issue. We need to reframe our public discussion of environmental risk to include ethical, moral and religious traditions within it. And if we don’t, we may not be legally liable for what might happen, but I wouldn’t be able to sleep at night. http://forward.com/opinion/335647/what-jewish-law-says-about-crumbling-indian-point-nuclear-plant/#ixzz42dEdxuQo
Research into nuclear strikes – considering possibility of terrorism
Surprise nuclear strike? Here’s how we’ll figure out who did it, Science By Richard Stone Mar. 11, 2016 “……..The most likely nuclear terrorism scenario, experts say, is a bomb set off on a city street. Past experience offers only a sketchy picture of the resulting devastation. The atomic bombs the United States dropped on Hiroshima and Nagasaki in 1945 detonated about 500 meters above those cities. During the subsequent half-century, while the United States refined its atomic arsenal, nearly all tests were in the air or underground, not in citylike environments. …….http://www.sciencemag.org/news/2016/03/surprise-nuclear-strike-heres-how-well-figure-out-who-did-it
Russia to disarm huge aging nuclear ballistic missile submarine
Russia to disarm world’s largest nuclear ballistic missile submarine Rt.com 11 Mar, 2016 In 2016 Russia is set to disarm the missile system of the Typhoon-class Arkhangelsk submarine, the largest in the world. The disarmament will be carried out in accordance with the New START agreement between Moscow and Washington.
Working in accordance with the New START treaty between Russia and US, the country’s leading Zvezdochka shipyard in the northern Russian city of Severodvinsk will disarm the missile system of the Arkhangelsk submarine, the shipyard’s press service told TASS news agency on Friday.
“We will remove the covers of the submarine’s missile launchers and seal them, thus making it impossible to use the vessel’s missile weapons,” the press service said. “We are not talking yet about dismantling the submarine itself. The tender for this procedure has not yet been announced.”
According to the data published by the Russian nuclear agency Rosatom, the sub’s disarmament is estimated to cost some 28 million rubles (about US$ 400,000).
The nuclear-powered ballistic missile submarine Arkhangelsk TK-17 was designed in 1987 under the Project 941 ‘Shark’ (or ‘Typhoon’ according to NATO classification). The project was aimed to equip the Soviet Navy with nuclear-powered ballistic missile submarines, and resulted in the creation of the largest class of submarines ever built – large enough to accommodate decent living facilities for the crew of 179 when submerged for months on end, and to stock an arsenal of 20 intercontinental ballistic missiles.
Three of the six Typhoon-class submarines built in the 1980s have already been dismantled at the shipyards in Severodvinsk. Of the three that remain, Arkhangelsk and Severstal are set to be dismantled. Dmitri Donskoi just recently underwent a modernization procedure and is now equipped to test the latest sea-based missile system Bulava.
The New START treaty (on Measures for the Further Reduction and Limitation of Strategic Offensive Arms), which was designed to reduce American and Russian nuclear stockpiles, came into force in 2011. It replaced the previous 1991 agreement, introducing lower ceilings for the numbers of warheads and delivery systems deployed……….https://www.rt.com/news/335300-russia-disarms-nuclear-sub/
Cities can thrive nuclear free – Seoul shows the way
Seoul’s success provides testimony that a nuclear free energy supply can be a reality for a densely populated city, through innovative measures in terms of policy making and public land use.
Seoul’s initiative shows that it is possible to mobilise communities within a short period of time and achieve significant results. It demonstrates that even one city can fulfill the vision of energy self-reliance.
Can Hong Kong become nuclear-free? https://www.hongkongfp.com/2016/03/11/can-hong-kong-become-nuclear-free/ 11 March 2016 10:27 Greenpeace By Frances Yeung, Greenpeace Senior Campaigner
Today marks the 5th anniversary of the Fukushima nuclear disaster and with it, five years of struggle by Japan to improve energy efficiency as it strives to go nuclear-free. As the repercussions of Fukushima were felt around the world, making governments and communities re-evaluate their dependency on nuclear power, here in Hong Kong we’ve spent the past five years stuck in the same nuclear debate. Nuclear-free naysayers continue think going nuclear-free in Hong Kong is meaningless if the Chinese government is pro-nuclear in its energy policy.
To those who have thrown up their hands and turned their backs on safe, sustainable energy solutions, I urge them to look to Seoul and the solution one city government successfully rolled out in opposition to national energy interests. South Korea’s central government actively develops nuclear power, yet the Seoul Metropolitan Government (SMG) has been exploring a sustainable energy solution as a nuclear alternative since the immediate aftermath of the Fukushima nuclear accident.
To better understand South Korea’s reliance on nuclear energy one must only look at the numbers. There are 25 reactors in South Korea supplying 30 per cent of the country’s demand; and the government is planning to build 14 more in the next 20 years, arguing that it is necessary in order to meet growing power consumption. To encourage and promote a nuclear-free environment after the Fukushima disaster, Seoul citizens initiated energy-saving campaigns in their communities. That same year, , a human rights lawyer and an independent candidate, became mayor of Seoul, winning against the ruling party’s campaign. Shortly after taking office, Park and the SMG pushed forward the ‘One Less Nuclear Power Plant’ initiative, opposing the national government’s policy. It is important to note that Seoul accounts for 10 per cent of national nuclear energy consumption.
The first phase of ‘One Less Nuclear Power Plant’ was implemented in 2012 and ran through 2014, to boost renewables production in Seoul and achieve energy conservation of 2 million TOE (tonnes of oil equivalent), an amount equal to the average annual electricity production of one nuclear plant. The goal was achieved six months ahead of schedule. During the three-year implementation of the first phase of the initiative, the overall electricity consumption in South Korea rose by 5%, even as it dropped by 4% in Seoul. The SMG, led by Park, then launched the second phase, to reduce energy consumption by a further 4 million TOE by 2020.
Seoul’s success shows that energy conservation and renewable electricity production can replace nuclear power while meeting energy demand. Regardless of these results, the South Korean government continues to build new reactors to meet the “continued increase in national electricity demand”.
Seoul’s anti-nuclear policy has created interest both at home and abroad. The heads of local governments from Seoul, Gyeonggi, and Jeju released a joint statement in November to reaffirm their commitment to stepping up the development of renewable energy. At the same time, Taiwan’s newly-elected president, Tsai Ing-wen, announced last year that the nation’s Democratic Progressive Party would initiate a similar plan in the cities and counties it governs.
Seoul’s initiative shows that it is possible to mobilise communities within a short period of time and achieve significant results. It demonstrates that even one city can fulfill the vision of energy self-reliance. The SMG launched 23 measures and 71 programmes over three years including offering vacant public space to businesses and community groups at low rents to build solar power stations; introducing the Energy Self-reliant Community movement to provide funds to residents to promote energy efficiency and installing small renewable energy facilities; and cooperating with enterprises to assist property owners to improve energy efficiency in buildings, by means of LED lights, insulated windows, and other energy-saving equipment, as well as low-interest government loans.
Seoul’s success provides testimony that a nuclear free energy supply can be a reality for a densely populated city, through innovative measures in terms of policy making and public land use. For instance, the SMG installed steel structures in water treatment plants to support solar panels on top of water pools. It also implemented the Eco-Mileage programme in which citizens who save energy can receive mileage points for buying eco-friendly products, cinema tickets, and recharging transportation cards. So far, 42% of the city’s households (1.48 million) have taken part in the programme.
As we mourn the Fukushima disaster we also note that the Hong Kong government has shirked its responsibility to create a proactive renewable energy strategy and chosen instead to highlight land issues and cost effectiveness. We have an immediate opportunity, however, since the electricity supply contract with the Daya Bay nuclear plant ends in 2034. The plant will have been operating for over 40 years and will reach the end of the average lifespan of a nuclear plant by then. The plant should be closed for the sake of safety.
We can also make great strides towards nuclear free safety by carrying out the Hong Kong government’s plan to replace coal with natural gas. Along with reducing electricity use by 20% in the coming 20 years and boosting renewable energy use to 10%, Greenpeace calculates that a halt in the use of nuclear energy is achievable.
When he met with Greenpeace, Seoul mayor Park Won-soon said firmly that nuclear power is far from safe and is expensive, especially in regard to the cost of nuclear waste disposal. The underlying stance of ‘One Less Nuclear Power Plant’ might differ from the energy policy of the South Korean government, yet he suggested that it is the responsibility of the city government to reduce the use of nuclear power to safeguard the wellbeing of its citizens. Hong Kong enjoys no lesser degree of autonomy than Seoul in energy policy making. As long as the government is willing to step outside of its comfort zone and take action on behalf of its communities, a nuclear free Hong Kong will immediately become a real and vivid possibility.
Japan’s anti nuclear movement still in there, but it’s not easy
Down but not out: Japan’s anti-nuclear movement fights to regain momentum, Japan Times, BY MIZUHO AOKI STAFF WRITER , 11 Mar 16 Five years after the horrific nuclear meltdowns at the Fukushima No. 1 power plant stunned the nation as a result of the March 2011 earthquake and tsunami, Japan’s once highly motivated anti-nuclear movement is struggling to maintain momentum.
The disaster prompted tens of thousands of people who had never participated in demonstrations to take to the streets demanding that the government shut down the nation’s nuclear reactors over safety fears.
That public anger and energy, however, seems to have lost steam over the past few years, especially after the pro-nuclear Liberal Democratic Party returned to power in December 2012.
The anti-nuclear rallies held every Friday in front of the Prime Minister’s Office staring in March 2012 once were able to draw some 200,000 protesters, according to the organizer, Metropolitan Coalition Against Nukes. The crowds were comprised of people of all stripes and ages, including students and young mothers with little children.
But these days, to see the face of a newcomer is a rarity, with most people having simply stopped coming. In “Friday rallies” held in February, there were less than 1,000 people each time, according to data provided by the organizers.
On Friday, as the nation marked the fifth anniversary of the Great East Japan Earthquake and tsunami and subsequent nuclear disaster, anti-nuclear civic groups held rallies nationwide, hoping to reignite public interest and momentum to bring about a tangible change in energy policy.
But at a gathering in Tokyo on Friday to remember Fukushima, which was organized by the anti-nuclear, non-governmental organization Friends of the Earth Japan (FoE), some of the more than 300 participants voiced their concerns over the fading interest in nuclear energy policy.
“I have a sense of crisis about the current state of things,” said Chie Otake, 50. “I guess people are tired of speaking up, as nobody (in the government) seems to listen to them,” she added.
Eisuke Naramoto, 74, who lives in Kanagawa Prefecture, agreed, saying he understood that it is tiring to participate in anti-nuclear rallies when no visible progress can be seen.
“If you look at media polls, a majority of people are still against restarting Japan’s idled nuclear reactors,” he said. “But such opinions didn’t seem to be reflected in the elections………
I’m not pessimistic about the situation,” Mitsuta of FoE said. “I don’t think the movement is dead.
“We should never forget that people are still suffering from the disaster.” http://www.japantimes.co.jp/news/2016/03/11/national/not-japans-anti-nuclear-movement-fights-regain-momentum/#.VuMhtn197Gh
1 This Month
petition to oppose the rapid increase of space-military industry threatening Jeju Island and the region.
[Petition by April 19th (KST)] Stop the joint military-Hanwha Systems-Jeju Provincial Government Sea Launch!
World Nuclear Power. Reactors 1951-2026, 75 Years of Nuclear Power.
Interactive Map– https://dv.worldnuclearreport.org/
Chernobyl: The Lost Tapes – A good documentary on Chernobyl on SBS available On Demand for the next 3 weeks– https://www.sbs.com.au/ondemand/tv-program/chernobyl-the-lost-tapes/2352741955560
of the week–London Campaign for Nuclear Disarmament
Tell the Ukrainian Government to Drop Prosecution of Peace Activist Yurii Sheliazhenko
To see nuclear-related stories in greater depth and intensity – go to https://nuclearinformation.wordpress.com
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