Japan said on Tuesday it will start releasing more than 1 million metric tonnes of treated radioactive water from the wrecked Fukushima nuclear power plant on Aug. 24, putting into motion a plan that has drawn strong criticism from China.
So I googled what the background level of Tritium is in seawater. The general consensus is that this various based upon where in the world you are, but it's typically around 500 - 750 becquerels of tritium per m3. The amount they're releasing is 190 becquerels of tritium per m3, or in other words, they're reducing the average tritum radioactivity of the water...
So why is this news? Why haven't the journalists gone, "Stupid people don't understand how radioactivity and volumetrics work, and are complaining about the Japanese releasing water that is so highly treated it's cleaner than the ocean average."?
--edit--
Not going to edit the above, but @zifk@sh.itjust.works correctly pointed out I'd got my units wrong... and then they got their units wrong replying. And that's why we need good journalism who can actually look into this fucking stuff properly, and give reasoned responses!
Actually we both screwed up by a factor of 1000, the article states 190 becquerels of tritium per litre, not cubic meter.
Seems like you have the right order of magnitude, but the sources I've seen gives the ocean close to 0.5-2 TU, or "Tritium Units" which correspond to 180 Bq/m^3. So I wouldn't call the water being released as cleaner, just basically on average with the ocean already.
Ehhh, it's been as cleaned of radiation as possible. My dad did nuclear inspection for a living, including disposal, so I asked him about this when it first hit the news.
In theory, as long as they follow existing protocols, the water isn't going to be harmful. But that's the question, really; have they followed protocols? They have oversight, so it shouldn't be possible for then to half-ass it.
There really isn't a way to remove tritium though. The levels of that should be low enough to be unimportant.
It's going to be higher than background radiation, but well under international standards. It isn't something to be happy about, but it's as low risk as it gets. Tokyo pumps out way more dangerous things every day just by being a busy city.
It's sad that nowadays when we read about a limit considered safe by an organization, we have no way of knowing if it came from real studies and analysis or is it just a lobbied value that big players are using to weed out smaller competition because current technology can't get below the really safe limit anyway
That water will contain about 190 becquerels of tritium per litre, below the World Health Organisation drinking limit of 10,000 becquerels per litre, according to Tepco. A becquerel is a unit of radioactivity.
The biggest issue with these topics is the lack of trust toward the scientists, or even forgetting that there are any scientists working on the project. It's not as if the prime minister woke up to the idea of dumping nuclear waste into the ocean
That's a fair argument. Although I am against making a generalization, especially since the IAEA who greenlighted the operations seems to be fairly independent
TOKYO, Aug 22 (Reuters) - Japan said on Tuesday it will start releasing more than 1 million metric tonnes of treated radioactive water from the wrecked Fukushima nuclear power plant on Aug. 24, putting into motion a plan that has drawn strong criticism from China.
The plan, approved two years ago by the Japanese government as crucial to decommissioning the plant operated by Tokyo Electric Power Company (Tepco) (9501.T), has also faced criticism from local fishing groups, who fear reputational damage and a threat to their livelihood.
"I promise that we will take on the entire responsibility of ensuring the fishing industry can continue to make their living, even if that will take decades," Kishida said on Monday.
Foreign ministry spokesman Wang Wenbin said in July that Japan had shown selfishness and arrogance, and had not fully consulted the international community about the water release.
South Korean activists have also protested the plan, although Seoul has concluded from its own study that the water release meets international standards and said it respects the IAEA's assessment.
The water was used to cool the fuel rods of Fukushima Daiichi after it melted down in an accident caused by a huge tsunami in 2011 that battered Japan's eastern coast.
The original article contains 552 words, the summary contains 206 words. Saved 63%. I'm a bot and I'm open source!
They have to be doing this because of storage and safety costs.
Doesn’t tritium have a half-life of about 12.3 years? If they delayed the release until, say, after approximately 12 more years, surely half of the tritium in a given sample will have decayed.
Yeah, the article is FUD. They're releasing far less than most other reactors release, especially from their neighbor China. It's well below established limits and is highly unlikely to cause any real damage.
“Tritium emits weak beta-particles, i.e., electrons, with an average energy of 5.7 keV (kiloelectron-volts), which can penetrate about 6.0 mm of air but cannot penetrate the body through human skin. It may present a radiation hazard if inhaled or ingested but is only harmful to humans in very large doses.”
If a primary producer like phytoplankton is affected, isn’t it likely to impact impact all species that rely on them as a food source?
How about the real concern regarding the question of chronic exposure? If organisms are consistently taking in tritiated water over extended periods, does that constant exposure increases the chances of tritium being incorporated into critical molecules like DNA or proteins? Do we know the likelihood of that leading to long-term biological effects?
Can’t the tritium in tritiated water be incorporated into organic molecules during metabolic reactions? Have we observed the effects of tritium during biosynthesis, where water is a reactant or byproduct? During photosynthesis in phytoplankton, do we know the extent of tritium from tritiated water being incorporated into glucose or other organic molecules?
When marine organisms ingest or absorb tritiated water from their surroundings, it will circulate through their body just like regular water. Since tritiated water behaves chemically like regular water, it would surely be used in all physiological and biochemical processes within the organism.
Do we know the possibility for tritium to become incorporated into marine sediments, especially if it binds with organic matter? Could this create localised hotspots where tritium concentrations are higher than in the surrounding water? If so, won’t benthic organisms (those that live on the ocean floor) be exposed to these at those higher concentrations?
My biggest concern is the possibility of bioaccumulation in the food chain. Granted this would mostly impact small organisms to start, but they would then be consumed by larger predators, and how long before this leads to increased concentrations in apex predators?
I think it’s incredibly foolish for anyone to release water of this nature, Japan or otherwise.
Here's a hot take: fuck Japan and any country that does this kind of shit. Will it dilute? Yes. Does that make it safe? Absolutely not!
Build better nuclear power plants, ffs, or dump the toxins in Tokyo. Keep the bullshit on your soil.
Edit: 25 people think radiation is gonna give them superpowers or something. Why am I being downvoted for being against countries that pollute? Yes, there are worse ones than Japan, but come on, you tools. No one is in the right when they do that shit.