ER Editor: We just bumped into this tweet which, while not from a medical source, explains the energetic relevance of plastics/gels in the body as opposed to copper. It at least makes us think twice about why so much plastic has been put into our environment —
The article below makes the distinction between hard and soft water. An online search can indicate whether the water we are drinking is hard or soft. Boiling water for up to 5 minutes seems to make a bigger difference to removing plastics from hard water than soft.
According to information we’ve seen, it isn’t a question of whether we have plastics in our bodies but simply HOW MUCH.
********
Drinking Boiled Tap Water Reduces Human Intake of Nanoplastics and Microplastics
ANA MARIA MIHALCEA, MD, PHD
This is a hopeful article explaining the methodology to decontaminate drinking water. This is very important because we do know that all bottled water is contaminated. You can read that study here:
Morphology and composition of incrustants in different conditions. (a) Scanning electron microscopic (SEM) images of bare-polystyrene (PS, 1 μm, 1 mg L–1) and incrustant coprecipitates formed in tap water at different temperatures (180 mg L–1 of CaCO3, 40 mL, 25–100 oC); (b) SEM images of bare-PS (1 μm, 1 mg L–1) and incrustant coprecipitates in different water hardness upon boiling (60–300 mg L–1 of CaCO3, 100 oC); (c) SEM images of bare-PS and incrustant coprecipitates in different PS concentrations (1 μm, 0–5 mg L–1) upon boiling of tap water (180 mg L–1 of CaCO3, 100 oC); and (d) SEM images and (e) X-ray diffraction patterns of bare-, carboxyl-, and amino-PS and incrustant coprecipitates upon boiling of tap water (1 and 0.1 μm, 1 mg L–1, 180 mg L–1 of CaCO3, 100 oC).
Tap water nano/microplastics (NMPs) escaping from centralized water treatment systems are of increasing global concern, because they pose potential health risk to humans via water consumption. Drinking boiled water, an ancient tradition in some Asian countries, is supposedly beneficial for human health, as boiling can remove some chemicals and most biological substances. However, it remains unclear whether boiling is effective in removing NMPs in tap water. Herein we present evidence that polystyrene, polyethylene, and polypropylene NMPs can coprecipitate with calcium carbonate (CaCO3) incrustants in tap water upon boiling. Boiling hard water (>120 mg L–1 of CaCO3) can remove at least 80% of polystyrene, polyethylene, and polypropylene NMPs size between 0.1 and 150 μm. Elevated temperatures promote CaCO3 nucleation on NMPs, resulting in the encapsulation and aggregation of NMPs within CaCO3 incrustants. This simple boiling-water strategy can “decontaminate” NMPs from household tap water and has the potential for harmlessly alleviating human intake of NMPs through water consumption.
Contamination of water supplies with nano- and microplastics (NMPs), which can be as small as one thousandth of a millimeter in diameter or as large as 5 millimeters, has become increasingly common. The effects of these particles on human health are still under investigation, though current studies suggest that ingesting them could affect the gut microbiome. Some advanced drinking water filtration systems capture NMPs, but simple, inexpensive methods are needed to substantially help reduce human plastic consumption. So, Zhanjun Li, Eddy Zeng and colleagues wanted to see whether boiling could be an effective method to help remove NMPs from both hard and soft tap water.
The researchers collected samples of hard tap water from Guangzhou, China, and spiked them with different amounts of NMPs. Samples were boiled for five minutes and allowed to cool. Then, the team measured the free-floating plastic content. Boiling hard water, which is rich in minerals, will naturally form a chalky substance known as limescale, or calcium carbonate (CaCO3). Results from these experiments indicated that, as the water temperature increased, CaCO3 formed incrustants, or crystalline structures, which encapsulated the plastic particles. Zeng says that over time, these incrustants would build up like typical limescale, at which point they could be scrubbed away to remove the NMPs. He suggests any remaining incrustants floating in the water could be removed by pouring it through a simple filter such as a coffee filter.
In the tests, the encapsulation effect was more pronounced in harder water — in a sample containing 300 milligrams of CaCO3 per liter of water, up to 90% of free-floating MNPs were removed after boiling. However, even in soft water samples (less than 60 milligrams CaCO3 per liter), boiling still removed around 25% of NMPs. The researchers say that this work could provide a simple, yet effective, method to reduce NMP consumption.
From the paper supplemental information
Results. Boiling hard water can remove most PS, PE, and PP MPs, and PS, PE, and PP MPs precipitation efficiencies were 95 ± 4%, 81 ± 3%, and 90 ± 3%, respectively, at 100 oC. Increasing temperature accelerated the formation of incrustants on spherical, fragmented, and fibrous MP surfaces. MPs continued to be encapsulated by newly formed incrustants (Figure S2) and finally precipitated under gravity, confirming that spherical PS, fragmented PE, and fibrous PP MPs are able to coprecipitate with incrustants in tap water upon boiling. In concluding, the results with NPs in the main text were also applicable to MPs.
Here are the polymer plastics found in drinking water throughout the world:
Thank you to Karen Kingston, who brought this article to my attention.
The Liberty Beacon Project is now expanding at a near exponential rate, and for this we are grateful and excited! But we must also be practical. For 7 years we have not asked for any donations, and have built this project with our own funds as we grew. We are now experiencing ever increasing growing pains due to the large number of websites and projects we represent. So we have just installed donation buttons on our websites and ask that you consider this when you visit them. Nothing is too small. We thank you for all your support and your considerations … (TLB)
••••
Comment Policy: As a privately owned web site, we reserve the right to remove comments that contain spam, advertising, vulgarity, threats of violence, racism, or personal/abusive attacks on other users. This also applies to trolling, the use of more than one alias, or just intentional mischief. Enforcement of this policy is at the discretion of this websites administrators. Repeat offenders may be blocked or permanently banned without prior warning.
••••
Disclaimer: TLB websites contain copyrighted material the use of which has not always been specifically authorized by the copyright owner. We are making such material available to our readers under the provisions of “fair use” in an effort to advance a better understanding of political, health, economic and social issues. The material on this site is distributed without profit to those who have expressed a prior interest in receiving it for research and educational purposes. If you wish to use copyrighted material for purposes other than “fair use” you must request permission from the copyright owner.
••••
Disclaimer: The information and opinions shared are for informational purposes only including, but not limited to, text, graphics, images and other material are not intended as medical advice or instruction. Nothing mentioned is intended to be a substitute for professional medical advice, diagnosis or treatment.
Leave a Reply