So, about one mushroom species in five is poisonous. Why is the ratio so low, why are there lots of edible ones? Without hard-shelled seeds to spread, why be eaten? And the poisonous ones apparently don't use color as a warning signal, and don't smell all that bad, and some of the poisons have really mild effects, like "gives only some people diarrhea" or "makes a hangover worse". Meanwhile three of the deadliest species seemed to need their toxin (amanitin) so much that they picked it up through horizontal gene transfer. Why did just those ones need to be deadly? In addition to which we have these species that don't even make you sick, just make you trip out, a function which looks to have evolved three times over in different ways. What kind of half-assed evolutionary strategies are these? What do mushrooms want?
Its the same evolutionary patterns that plants went through.
Most mushrooms are edible because their spores can pass through the digestive system of most animals, thus allowing them to spread.
Other mushrooms developed toxins to protect their fruiting bodies - often the biggest threat isn't larger animals, but insects. Toxins that are neurotoxic to insect nervous systems, happen to cause mostly "harmless" psychedelic trips to our brains. Other toxin mechanisms happen to be deadly to both insects and humans.
As proof of this evolutionary arms race, there are fruit flies that have developed resistance to amatoxins.
They want the same thing as every other organism wants - maximal exploitation of a niche by a lineage. Each adaptation that survives overwhelmingly tends toward advantage in the exploitation of a niche - fending off predation, establishing control over resources, symbiotic support, parasitic drain, and a myriad other capabilities that are highly environment dependent.
Just look at antelope in north america - they evolved incredible speed and agility in order to outrun and evade megafauna predators, but there's nothing left nearly fast enough to be a threat to them. Environments can change, and leave an organism with features that are no longer necessary or even beneficial in terms of overall quality of life and energy efficiency. The slightest noise can disturb a herd of antelope into bolting as if there were prairie lions or sabertooth tigers on the prowl. They don't need to be hypervigilant in the same way, and it burns a lot of calories to move the way they do, so whitetail deer and other slower species that aren't quite as reactive or fast are better at exploiting the ecosystem as it is.
With mushrooms that have mysterious chemistry, there will be a lot of those sorts of vestigial features. Extinct species of insects and animals and plants will have been the target of specific features, or they might end up in novel environments where other features are particularly suitable, but some become completely counterproductive in practice.
As far as psilocybe mushrooms go, in lower quantities, they actually provide a cognitive advantage sufficient to make a symbiotic relationship plausible between mammals and the mushrooms, albeit indirect. Animals under low levels of psilocybin influence have better spatial perception, can better spot movement in low light conditions, and there's a slight reduction in the neural influence of trauma inspired networks. Large quantities can be beneficial in a number of abstract ways. Any animal that sought those mushrooms out could thereby gain adaptive advantage over competitors that didn't partake.
Having an extremely toxic substance might be useful for killing large organisms and their decomposition either feeding the fungi directly, or feeding the organisms beneficial to the fungi. This can be plants, other fungi, or the feces of scavengers. Horizontal transfer might occur if there's an initial beneficial relationship, animals like the smell and taste of a thing, and then the fungi picks up the killing poison, and the consequences are sufficiently beneficial to outbreed the safe ones.
If too many become deadly, animals get killed off, and the non-deadly ones tend to gain the upper ground, since they aren't spending any resources on producing any poisons. Where there's a balance of intermittent similar but poisonous mushrooms, they take down enough animals to optimize their niche.
There are dozens of such indirect webs of influences and consequences that spread from seemingly simple adaptations, and it's amazing that things seem so balanced and stable as they do. It's a constant arms race of attacks and temptations and strategies.
That’s also my thought. The seem to be inside some type of evolutionary gray area or dead-end, where mutations in the edibility axis do not seem to matter much for the survival of the specifies. So we end up getting species of all extremes: extremely poisonous, highly valuable for coursing, trippy, non-trippy, mildly poisonous, etc.
Incredible! A mushroom that bruises blue, but the visions are seemingly unlike traditional tryptamines, and there's no psilocybin found in the mushroom. Also no muscimol present (the thing in Fly Agaric, the 'other' type of hallucinogenic mushroom compound) yet there's definitely a consistent syndrome of hallucinations if you eat it undercooked.
Could this mean we're on the brink of discovering an entirely new class of hallucinogens?
> In 2023, Lanmaoa asiatica received international media attention after U.S. Treasury Secretary Janet Yellen was reported to have eaten a dish that contained it during an official visit to China. Yellen stated that the dish had been thoroughly cooked, and she experienced no ill effects (hallucinations).
It seems Rubroboletus sinicus, another bolete, is also suspected to have this effect. These hallucinogenic mushrooms are collectively known as "xiao ren ren" in China.
They seem to be relatively well known in parts of China, the Philippines, and Papua New Guinea but the ethnomycological work in English is just not really there.
It also seems like it's most likely something in the tryptamine class which could explain the blue bruising. The Wikipedia page has more info
xiǎo rén rén? Like “small people”? Okay, if the mushrooms are literally called little guy mushroom and you see little guys running around then surely this is an old discovery.
Well yes ofc this is an old discovery. Boletes are known choice edibles around the world so ofc people would discover that if they undercook this mushroom they would trip. We even have some written history about it:
> The Chinese Daoist Ge Hong wrote in Baopuzi (The Master Who Embraces Simplicity) around 300 CE that eating a certain wild mushroom raw would result in attainment of transcendence immediately, suggesting that the mushrooms may have been known for thousands of years.
What excites me as a chemist (and as someone who dabbled in psychedelics as a teenager) is the prospect of identification the active components... and it turning out to be an entirely new class of chemicals.
The great, late Alexander Shulgin made his fame through systematic tweaking of the tryptamine and phenethylamine backbones, giving rise to many interesting psychoactive, mostly psychedelic compounds. Nature has a few more classes of psychedelics, but it's very rare to come across an entirely new category of molecular compounds.
Because the hallucinations are seemingly distinct from the effects from traditional psychedelic, that's... pretty tantalizing. But the mushroom does bruise blue, which is what
tryptamine-containing magic mushrooms also do.
It's super exciting, all in all. It's either a cultural or mass psychological effect (but I doubt it personally), an as of yet unidentified tryptamine-like compound that's highly active (and thus difficult to isolate because theres relatively little mass of it) or an entirely novel chemical class.
I don’t think the article was insinuating that these mushrooms were a new discovery, they’ve been known not just in the region but to scientists for some time, though they did assert that this is the first time that the DNA had been sequenced.
The Wikipedia page ( https://en.wikipedia.org/wiki/Hallucinogenic_bolete_mushroom ) talks about effects lasting for days, even in animal studies. Some of the historical records claimed effects lasting even longer, from months to years, though this sounds like triggered psychosis.
So perhaps not very recreational as might be assumed given the topic.
The next step should be to send enthusiasts there, get samples of this mushroom from that market, and introduce it to the underground for personal research. That’s normally what happens when something interesting is discovered.
For example, members of a famous forum recently found, analyzed for alkaloid content, and re-cultivated a strain of Phalaris Aquatica because of its notable alkaloid content. Some other mushrooms became popular this way as well — for example, Psilocybe Natalensis, first found in Natal, Africa. Or the now famous Tamarind Tree British Virgin Islands (TTBVI) Panaeolus Cyanescens that’s widely cultivated at home.
So IMO it's not only scientists, but often enthusiasts who end up gifting these discoveries to everyone else!
It gets the visuals accurate, but the experience includes a lot of physical sensation that is very difficult to convey, e.g. the 'wind' that pushes you back and the discomfort of going into a chaotic dissociated state. You see those things but it feels very 'real'.
Lilliputian hallucinations are also common in mental illnesses with hallucinations. Definitely some kind of physical foundation for it in the human brain.
Yes, this was a common phrase in early psychedelic and other drug experience sharing forums. Like a verbal talisman people believe kept them from incriminating themselves. I haven't thought about it in years. Delightful.
In some online drug forums it was believed that if you used SWIM instead of I for all of your posts, the government was powerless to use any of the posts against you. You can still find threads on forums where everyone is saying SWIM did this and SWIM experienced that as if they have discovered a loophole to protect themselves from the law.
It always reminded me of those FTP servers in the early days of the internet that had big warning banners declaring the law enforcement was not allowed to connect.
Lived in Yunnan for over a decade, primarily as a vegetarian. Mushrooms there are indeed many and varied and quite tasty. Many poisonings annually but the government are pretty good at helping people to ID with warning posters. Personally ate many mushrooms that looked like this and never had hallucinations. Did have some others which made me feel a little ill, however. I suspect locals are unduly relaxed about types science would avoid due to hepatoxicity.
While occasionally FOAFs would get hallucinogenic effects from dining, I don't recall explicitly hearing of anyone seeing little people, or hearing the term he details in this writing. As such, I wonder where this guy gets his info from. Certainly, most Yunnanese would describe these mushrooms as 牛肝菌 ("bolete") and more specific Chinese common names for similar reddish species would include 桃红牛肝菌 ("peach-colored bolete"). As a general type, they are very common in markets across much of Yunnan.
Given the claims, the clearly infrequent effects, and the personal experience I can trust, I would conclude with three theories: perhaps either the compounds are rapidly degraded when non-fresh, safely broken down when cooking (traditionally these mushrooms are cut thinly before sauteeing or boiling in hotpot), or there are one or two "look alike" species which are more rarely found and contain additional compounds which are responsible for the occasional effects.
Most mushrooms are edible because their spores can pass through the digestive system of most animals, thus allowing them to spread.
Other mushrooms developed toxins to protect their fruiting bodies - often the biggest threat isn't larger animals, but insects. Toxins that are neurotoxic to insect nervous systems, happen to cause mostly "harmless" psychedelic trips to our brains. Other toxin mechanisms happen to be deadly to both insects and humans.
As proof of this evolutionary arms race, there are fruit flies that have developed resistance to amatoxins.
Just look at antelope in north america - they evolved incredible speed and agility in order to outrun and evade megafauna predators, but there's nothing left nearly fast enough to be a threat to them. Environments can change, and leave an organism with features that are no longer necessary or even beneficial in terms of overall quality of life and energy efficiency. The slightest noise can disturb a herd of antelope into bolting as if there were prairie lions or sabertooth tigers on the prowl. They don't need to be hypervigilant in the same way, and it burns a lot of calories to move the way they do, so whitetail deer and other slower species that aren't quite as reactive or fast are better at exploiting the ecosystem as it is.
With mushrooms that have mysterious chemistry, there will be a lot of those sorts of vestigial features. Extinct species of insects and animals and plants will have been the target of specific features, or they might end up in novel environments where other features are particularly suitable, but some become completely counterproductive in practice.
As far as psilocybe mushrooms go, in lower quantities, they actually provide a cognitive advantage sufficient to make a symbiotic relationship plausible between mammals and the mushrooms, albeit indirect. Animals under low levels of psilocybin influence have better spatial perception, can better spot movement in low light conditions, and there's a slight reduction in the neural influence of trauma inspired networks. Large quantities can be beneficial in a number of abstract ways. Any animal that sought those mushrooms out could thereby gain adaptive advantage over competitors that didn't partake.
Having an extremely toxic substance might be useful for killing large organisms and their decomposition either feeding the fungi directly, or feeding the organisms beneficial to the fungi. This can be plants, other fungi, or the feces of scavengers. Horizontal transfer might occur if there's an initial beneficial relationship, animals like the smell and taste of a thing, and then the fungi picks up the killing poison, and the consequences are sufficiently beneficial to outbreed the safe ones.
If too many become deadly, animals get killed off, and the non-deadly ones tend to gain the upper ground, since they aren't spending any resources on producing any poisons. Where there's a balance of intermittent similar but poisonous mushrooms, they take down enough animals to optimize their niche.
There are dozens of such indirect webs of influences and consequences that spread from seemingly simple adaptations, and it's amazing that things seem so balanced and stable as they do. It's a constant arms race of attacks and temptations and strategies.
Could this mean we're on the brink of discovering an entirely new class of hallucinogens?
> In 2023, Lanmaoa asiatica received international media attention after U.S. Treasury Secretary Janet Yellen was reported to have eaten a dish that contained it during an official visit to China. Yellen stated that the dish had been thoroughly cooked, and she experienced no ill effects (hallucinations).
It seems Rubroboletus sinicus, another bolete, is also suspected to have this effect. These hallucinogenic mushrooms are collectively known as "xiao ren ren" in China.
They seem to be relatively well known in parts of China, the Philippines, and Papua New Guinea but the ethnomycological work in English is just not really there.
It also seems like it's most likely something in the tryptamine class which could explain the blue bruising. The Wikipedia page has more info
https://en.wikipedia.org/wiki/Hallucinogenic_bolete_mushroom
> The Chinese Daoist Ge Hong wrote in Baopuzi (The Master Who Embraces Simplicity) around 300 CE that eating a certain wild mushroom raw would result in attainment of transcendence immediately, suggesting that the mushrooms may have been known for thousands of years.
did they found the schtroumpf village ?
The great, late Alexander Shulgin made his fame through systematic tweaking of the tryptamine and phenethylamine backbones, giving rise to many interesting psychoactive, mostly psychedelic compounds. Nature has a few more classes of psychedelics, but it's very rare to come across an entirely new category of molecular compounds.
Because the hallucinations are seemingly distinct from the effects from traditional psychedelic, that's... pretty tantalizing. But the mushroom does bruise blue, which is what tryptamine-containing magic mushrooms also do.
It's super exciting, all in all. It's either a cultural or mass psychological effect (but I doubt it personally), an as of yet unidentified tryptamine-like compound that's highly active (and thus difficult to isolate because theres relatively little mass of it) or an entirely novel chemical class.
So perhaps not very recreational as might be assumed given the topic.
For example, members of a famous forum recently found, analyzed for alkaloid content, and re-cultivated a strain of Phalaris Aquatica because of its notable alkaloid content. Some other mushrooms became popular this way as well — for example, Psilocybe Natalensis, first found in Natal, Africa. Or the now famous Tamarind Tree British Virgin Islands (TTBVI) Panaeolus Cyanescens that’s widely cultivated at home.
So IMO it's not only scientists, but often enthusiasts who end up gifting these discoveries to everyone else!
I wonder what the brain is doing…
It could be a subspecies of the "machine elves"...
And spook work for His Jolliness' Secret Service, to keep their Naughty and Nice databases current.
https://www.youtube.com/watch?v=Z2IRKuS3sSE
https://www.youtube.com/watch?v=65XfIpJdlEY
Doesn't say how, for some reason. I presume they are shocked to see tiny mice, but I would like to know what behaviors they exhibited.
(I know folks who read PiHKAL and thought "Hmm, this would be a nice ML training/prediction exercise")
It always reminded me of those FTP servers in the early days of the internet that had big warning banners declaring the law enforcement was not allowed to connect.
Funny, I saw “SWIM” and reasoned “Someone Who Is Me”, thinking “is not” would be represented as “Is Not” instead of the contraction. :)
https://en.wikipedia.org/wiki/Terence_McKenna
https://en.wikipedia.org/wiki/Hamilton_Morris
https://en.wikipedia.org/wiki/Hamilton%27s_Pharmacopeia
While occasionally FOAFs would get hallucinogenic effects from dining, I don't recall explicitly hearing of anyone seeing little people, or hearing the term he details in this writing. As such, I wonder where this guy gets his info from. Certainly, most Yunnanese would describe these mushrooms as 牛肝菌 ("bolete") and more specific Chinese common names for similar reddish species would include 桃红牛肝菌 ("peach-colored bolete"). As a general type, they are very common in markets across much of Yunnan.
Given the claims, the clearly infrequent effects, and the personal experience I can trust, I would conclude with three theories: perhaps either the compounds are rapidly degraded when non-fresh, safely broken down when cooking (traditionally these mushrooms are cut thinly before sauteeing or boiling in hotpot), or there are one or two "look alike" species which are more rarely found and contain additional compounds which are responsible for the occasional effects.
https://www.fractal-timewave.com/articles.php
You can get a free-libre Unix timewave generator there:
https://github.com/kl4yfd/timewave_z3r0
It's a bit pseudo-science but some Chinese wrote an article on the I-Ching and patterns and it can have a bit of truth on it.
https://vixra.org/abs/2409.0093 [ Chinese, use whatever tool you like to translate it]