Why you should know:
Arsenic is a carcinogen and has various other negative health effects; enough to warrant exposure limits in various jurisdictions. A five minute boil-and-discard step before cooking is a simple way to reduce your exposure, especially if you eat a lot of rice.
Details are in the study, linked in the title of this post. Here’s a diagram from the abstract:
Scientists of discovered that saliva causes stomach cancer but only when swallowed in small amounts over a long period of time.
And bananas are radioactive. Best leave them a few halflives before scraping the mouldy gunky remains from your fruit bowl.
Oh boy, someone better go back and tell all of Asia for the last 10,000 years
Wow, lot to unpack here.
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“Ain’t nobody got time for that.”
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How much arsenic are we talking about here?
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“Saving time, water, and energy” is apparently short for boil water, stand around, drain, re-boil more water using more energy, and finish cooking rice. Where is all this time saving happening?
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“The margin of exposure [to arsenic] is increased to desired levels”. Hmmm I guess if you really think about it that is a true statement, but one heck of a roundabout way to say it.
- This seems to mainly be a concern in places where a lot of rice is consumed and there is no legal limit for arsenic in rice (many parts of Asia), not necessarily in the US where there is an FDA limit and most people don’t eat rice every day.
- It saves time, water, and energy compared to other ways of reducing arsenic, like using the excess water method with large excesses of water. Parboiling in with 4 times the water by weight and then cooking in 2 times the water by weight uses less water than cooking once in 10-12 times the water by weight (half the water). Heating half as much water to boiling reduces energy use and time (assuming constant heating power in W from the stove). Of course it’s still slower than cooking rice using the absorption method common in many places (this is not necessarily how people in some countries cook rice).
The article explains the infographic and adds a lot more context.
The amount of arsenic depends on location - if you’re in a region that has standards on arsenic levels, like the EU, UK, or the US, then you’re probably fine, but the levels may be higher than what’s considered safe for children. This method would allow you to reduce the levels by around 50%, and since the levels for children are a bit under half of what’s acceptable for adults, that’s likely to make it safe for them.
The time savings are relative to other methods for reducing arsenic content, like cooking it with excess water (like a 12:1 ratio) and then discarding the excess, as this method allows you to use a rice cooker for the remaining time and to cook with a much smaller water:rice ratio, even accounting for the discarded water.
Yeah, took me a while to get through that paper. Pretty detailed, but a little red flag kept waving when all the results are percentages. I finally got down to the meat of the science and was pretty confused on actual levels. I still don’t have a good grasp of exactly how much iAs they measured, as the findings are adjusted for relative exposure by body weight. I suppose that’s the point of the paper, but would have been nice to have some relatable baseline to put things in perspective.
There is also a pretty large margin of error as a exposure 2.75x greater than used to calculate the results was within the same exposure limits linked to the 0.1% risk. That’s easy to add to their charts. Would have been nice.
Give me the arsenic because there is no way I’m overcooking my rice to remove it
This is not suggesting the rice be overcooked, just cooked using a different process.