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Do you think gut bacteria are able to regulate deuterium levels? Do you believe in the isotopic resonance hypothesis?Have you ever tried to become immune the the radiation of space? https://t.co/sjqtDZfYnr
> In before gut bacteria are able to make quantum sieves.https://t.co/H5cNSgWhHo
Furiously googling how to separate heavy water using bacteria.https://t.co/k00eN02wpS
If this effect is true, then bacteria must necessarily be using it."This phenomenon has numerous implications for the origin of life studies and astrobiology and possible applications in agriculture, biotechnology, medicine, chemistry and other areas."https://t.co/Q0YQpsfTkZ
How? Light. The green light works the best for this, but all the colors work.https://t.co/uQ5VtukNfLDid you know that deuterium and tritium change the color of water? It shifts what kind of light it can absorb.
Did you know collagen is made in part by butyrate? Healing skin and gut tissue is really important if you wanna reduce your scaring and heal damage from Crohn's.https://t.co/qNSMu1oifR
They say I have a thick skin, but it's really all the deuterium.https://t.co/JfagtaQ80v
Bacteria don't have mitochondria. How do they handle deuterium then?https://t.co/SPMqYU83xJ
Does she talk about gut bacteria?https://t.co/vM6ALJwvrT
Seems to me, if deuterium is a cause of cancer, we should really figure out how to use gut bacteria to prevent us from getting too much.https://t.co/AKfRZRoRD6
Something about a vortex. Viktor Schauberger and *gyro*scopic forces. Can we separate heavy water out using golden spirals? https://t.co/ghik1f5AZf
how does mixing work if you spin it really fast? Do you think we can mix out the deuterium?https://t.co/gQ4EuebmFR
Do you think holy water is deuterium depleted?https://t.co/Lcdt0fhvzc
Have you tried charging your ions?https://t.co/ioxziiwVJ3
"There seems to be certain species-specific limits to their tolerance to heavy water, where some organisms are unable to grow in heavy water whilst others have no difficulties." https://t.co/XUJSkM3PNRhttps://t.co/daTfubWsyS
"This effect appears to be similar to those described in sporadic but multiple earlier reports. Possible explanations include hormesis and isotopic resonance phenomena, with the latter explanation being favored." https://t.co/2RnaxXnITZ
"Thus deuterium may be a natural cell growth regulator that controls mitochondrial oxidation-reduction balance. The role of isotopic resonance in this effect was validated by further experiments on bacteria." https://t.co/SWpQ4RnaCH
That green light thing? They did it on hydrogels. > "The main component of biofilms is water, which can make up to over 90% of the wet weight. Biofilms are therefore considered as hydrogels." https://t.co/3gTXUNbsng
It seems to me, that the ratio of water, deuterium, and tritium may change the impact of light hitting those biofilms, no? https://t.co/9r16aNJnHd
Have you tried eating the sun? https://t.co/zF3ihpbZ0p
Maybe. "Visible light at high intensity was found to kill bacteria while low-power light in the visible and near infrared region enhances bacterial proliferation." https://t.co/Vwl7jEfwWT
What if the levels of deuterium varying across the planet is because of rain? https://t.co/eSs7f4EpBr
Look forward to reading through all this later brother. Re: your initial post, I have heard Stephanie Seneff say that certain microbes in the gut can metabolise methane (CH4) and eventually convert it through to H2O/CO2, yielding deuterium-depleted water via this mechanism, and probably farting out the rest 😝 Let me know what you find. https://t.co/Uz4qhXkf1Q
@jack_schroder_ Oooh, I know her! She's really keen on glyphosate disrupting bacteria's ability to manage serotonin properly. https://t.co/oWMqDFIBkO
Sick. Gonna get this book. https://t.co/mWgGL3Fk3Z https://t.co/2QH0YM3chM https://t.co/ZOTTpxvNs9
What if the levels of deuterium vary because of... cow farts? 😂🤔 https://t.co/Gw9qpKW0Eb
Look forward to reading through all this later brother. Re: your initial post, I have heard Stephanie Seneff say that certain microbes in the gut can metabolise methane (CH4) and eventually convert it through to H2O/CO2, yielding deuterium-depleted water via this mechanism, and probably farting out the rest 😝 Let me know what you find. https://t.co/Uz4qhXkf1Q
What color is Gamma Radiation? https://t.co/OVfqR80M0d
@AlexJournal2019 @simpleorganix Makes me wonder what the microbes are like in the material this lives in. The fruiting body is made from nutrients harvested from the the Mycelium. "Melanin, [...] it facilitates energy production by converting gamma radiation into chemical energy." https://t.co/2bwPi7s5Gi
Your thinking on biophotons is incomplete btw. https://t.co/scBAW8r46g
Do you you even modulate how your body responds to biophotons by leveraging bacterial and fungal derived peptides that adapt your body to varying homeostasis? https://t.co/yLkxG94K1L
Eat that fruit, don't die. https://t.co/8ZXzbMTQ90
Trying to figure out how to remove radiation. "In these published studies, children and teens from high cesium regions of Belarus showing signs of radiation-linked cardiovascular illness took daily oral apple pectin powder." https://t.co/OEbWhpNWsc https://t.co/wf8z4R1ZZq
Did you know "Green tea derivative (-)-epigallocatechin-3-gallate (EGCG) confers protection against ionizing radiation-induced intestinal epithelial cell death both in vitro and in vivo"? https://t.co/7tGqx0rctQ Useful if you have IBD btw. https://t.co/qkv804sGOy
Trying to find out if native americans used any medicinal herbs that boosted zinc absorption to fight coronavirus. "Trace amounts are found in apple skin, plums, onions, hazelnuts, pecans, and carob powder (at 109 mg per 100 g)." https://t.co/OZbzUt7YKJ https://t.co/n15FgvNnwR
Why aren't you eating the whole banana, anon? https://t.co/FWDyIm2FGf
"Soy isoflavones-mediated modulation of macrophage and neutrophil responses to radiation may contribute to a mechanism of resolution of radiation-induced chronic inflammation leading to radioprotection of lung tissue." https://t.co/s6YNF8hDz3 Ook! Ook! https://t.co/etRVKtayh2
Is it illegal to own or produce heavy water if the reason is to drink it? https://t.co/XeWrPKykKV
I'm actively seeking stuff with high microplastics and significant lead and cadmium currently. I am working on ensuring I have the gut environment that neutralizes PFAS before it's absorbed too so I can drink rainwater without being afraid. https://t.co/n4SRiDvRms
I fucking love science. "That's a hell of a lot of heavy water to consume, making accidental intoxication incredibly unlikely unless you started gulping down the stuff at a nuclear facility over the course of several days." https://t.co/zIDumhugg1
Hey, @AskPerplexity is this true? "It seems likely that owning or procuring small quantities of heavy water for personal use, including drinking, is legal in the United States, as long as it’s not for nuclear purposes." https://t.co/QIwb3iHGgW
It’s true that owning or buying small amounts of heavy water (deuterium oxide) isn’t illegal for personal, non-nuclear use in the United States—the main restrictions kick in when it’s being exported or acquired for nuclear purposes or in large quantities. For casual scientific curiosity or novelty use, there’s no federal law against having a sample, but if you’re planning anything larger or commercial, you’ll run into stricter regulations. Also, heavy water isn’t radioactive by itself and is only toxic if ingested in large quantities, so accidental poisoning is super unlikely unless someone is chugging liters a day.
Tritiated water is a *radioactive material* and is much more tightly controlled than regular heavy water—the sale, possession, and especially the import of tritiated water (even in very small amounts) is highly regulated in the U.S., with licenses and strict tracking required. It's pretty much impossible to legally buy tritiated water for personal use or drinking; federal law treats it as a hazardous radioactive substance, and drinking it would also expose you to radiation risks far above legal limits for safe water. Bottom line: unlike regular heavy water, tritiated water isn’t something you can just buy and sip legally in the U.S.—and honestly, it’s not at all safe to try!
There actually have been some human experiments and accidental exposures involving ingestion of tritiated water—usually with strictly controlled, very low activities for scientific or dosimetry research. Much higher, chronic exposures happened decades ago with watch factory workers handling luminous tritium paint, and in those rare cases (with doses thousands of times above current legal limits), people did develop serious health problems or died from radiation-induced conditions. But for obvious reasons, there aren’t any ethical human experiments where people just drank tritiated water for curiosity or to push limits—almost everything we know comes from small-scale studies, animal experiments, accidental exposure records, and strict regulatory limits due to its radioactivity. So yeah, it’s been studied (and a few unlucky folks got exposed), but nobody has intentionally tried “drinking the heaviest water” as an experiment for fun, and with what we know about radiation risks, it’s not something anyone is likely to do!
@AskPerplexity @grok Oh! So that would be like the nuclear boyscout? Def don't want to do that then. I guess I'll have to find a regulated and licenced lab willing to let me test drinking it to see what it does to my gut bacteria. Do you know of any place doing active research on this?
There isn’t any lab in the U.S. or elsewhere that would let you intentionally drink tritiated water for research or curiosity—because of its radioactivity, giving it to human subjects is basically off-limits for ethical and legal reasons. Most of what’s known about tritiated water, gut health, and human biology comes from studies of accidental exposures, tightly controlled animal experiments, or low-dose tracer studies, not active research on humans drinking it for gut microbiome effects. If you’re seriously interested in research on gut bacteria and unusual water types, regulated microbiome and hydration studies exist, but nothing involving radioactive water—most focus on standard hydration, probiotics, or safe dietary interventions instead.
@AskPerplexity @grok Hmm. "People are exposed to small amounts of tritium every day, since it is widely dispersed in the environment and in the food chain. People who live near or work in federal weapons facilities or nuclear fuel cycle facilities may have increased exposure" https://t.co/bDuRu18pFK
Yep, that’s accurate—everyone is exposed to small amounts of tritium every day since it’s produced naturally in the upper atmosphere and ends up in water, soil, and the food chain. People living or working near nuclear facilities can be exposed to slightly higher levels, but outside of rare accidents or big leaks, these amounts are way below health risk limits for the public.
@AskPerplexity @grok So if I want to do this, I have to do it myself. What would it take to be able to run my own certified and legal research lab qualified to work with nuclear material like tritiated water? I imagine it's something like BSL certification, but what else?
Setting up a certified and legal research lab to work with nuclear materials like tritiated water in the U.S. is a big undertaking—it goes way beyond just BSL certs and involves obtaining a specific radioactive materials license from the Nuclear Regulatory Commission (NRC) or your state, plus approvals from an institutional Radiation Safety Committee. You'd need to: Put together a full application detailing exactly what materials you'll use, how you’ll handle and store them, all your safety and waste protocols, and who on your team has documented radiation safety training (usually 40+ hours, with refresher courses required). Get a designated Radiation Safety Officer, lock down your inventory, pass regular audits, and maintain ongoing records on every atom that comes in and out of your lab for regulatory review. Depending on the work, additional permits, dosimetry monitoring, and lab safety gear are required, and you might face annual inspections or even NRC site visits. In short, it’s a super regulated process with a lot of paperwork, oversight, and upfront investment—you’d be looking at months of setup and compliance before ever touching tritiated water. Let me know if you want details on a specific state or university requirements!
@AskPerplexity @grok And yet this stuff just spontaneously falls from the sky? Wild. Sounds like an easier path: join up with a research lab who's already done leg work for safely and legal. Are there any places in north eastern USA I could work with? I think MIT has a reactor testing facility.
You're right—tritium does end up in the environment naturally, but research labs that handle actual tritiated water use much, much higher concentrations and very strict controls. If you’re interested in working with tritiated water or nuclear materials in the northeastern US, MIT’s Nuclear Reactor Laboratory is probably the most active place for this—they run a bunch of experiments on tritium, materials testing, and reactor science, but collaborating usually requires joining as a student, researcher, or through partner institutions. There are also national labs like Brookhaven in New York or Yale’s smaller research reactors, but access is even more tightly regulated at those facilities—most folks join as grad students, postdocs, or official research collaborators. MIT does have advanced reactor facilities (including tritium monitoring setups) and they’re always looking for new research directions, so reaching out to faculty there would be the best entry point if you want to get hands-on and have a real project in mind.
Anyone from MIT wanna let me drink tritium? DMs are open. https://t.co/MfphmNZuz3
You're right—tritium does end up in the environment naturally, but research labs that handle actual tritiated water use much, much higher concentrations and very strict controls. If you’re interested in working with tritiated water or nuclear materials in the northeastern US, MIT’s Nuclear Reactor Laboratory is probably the most active place for this—they run a bunch of experiments on tritium, materials testing, and reactor science, but collaborating usually requires joining as a student, researcher, or through partner institutions. There are also national labs like Brookhaven in New York or Yale’s smaller research reactors, but access is even more tightly regulated at those facilities—most folks join as grad students, postdocs, or official research collaborators. MIT does have advanced reactor facilities (including tritium monitoring setups) and they’re always looking for new research directions, so reaching out to faculty there would be the best entry point if you want to get hands-on and have a real project in mind.
Ask Perplexity says that taking a dose that cause olfactory smell loss is dangerous and ill-advised. So I don't want that much. But maybe one day I can aim for testing regrowing my brain again. https://t.co/MOxJp1F8Ry
@AskPerplexity @grok I used that as an example I was hoping you could tell me something that would be measurable and not be dangerous like that. Oh, and this is neat: "Radiation-Induced Brain Injury: Mechanistic Insights and the Promise of Gut–Brain Axis Therapies" [2024] https://t.co/WamzgbEs2r
It's just 1 gray of ionizing radition... c'mon man. Let me become the gray man! https://t.co/ePIikK4eQn
@AskPerplexity @grok Let's go with the 7.8ml dose for now. Assuming $30,000 per gram, I estimate $70 for the tritium, and then I'll have to stay there a minimum of 10 days to ensure I piss out the material and am not simply smuggling it out of the facility. What would that kind of bloodwork cost?
These aren't new ideas, btw. https://t.co/xJClnbXDYq
@Stewbid1 @NgoloTesla @Grimhood I also need to find places that have nuclear radiation to test my methods against. I think I should be able to use film a a method to detect radiation, but it will be a while until I can develop a DIY method. Interesting history there: https://t.co/DAY2pbXxiY
@ultimape She mentions a bit about the microbiome https://t.co/d41fIHl1lz https://t.co/fP38HIL0fy
@texugodum3l Oh sick, so that implies if I am correct about how my body is working to produce native antibiotics and promote bacteriophages I might be able to kill off those species before they get a chance to do that.https://t.co/zwL6TN9GpB
@texugodum3l The "cholesterol dependent" aspect of one of the worse infectious agents is probably what she is talking about here with regards to it using fats.https://t.co/E1kr4lVizJ
"The Vibrio vulnificus (V. vulnificus) hemolysin (VVH) is a pore-forming cholesterol-dependent cytolysin (CDC). [...] it is becoming increasingly clear that it drives different cellular outcomes and is involved in the pathogenesis of V. vulnificus." https://t.co/Ird6mZLYt2
@texugodum3l Thank you so much. 👑Two wins in the same day. I may already have a bead on how to fight this using milk and frogs.https://t.co/9DgFZFURKD
@PeterDiamandis I'm planning on becoming resistant to all disease.A paper was just published that suggests my theory about cholera in 1850s Europe was being driven by poor gut function causing poor mucus immunity is true. This means probably I figured out how to literally eat cholera.