Years ago, in a pool of improperly disposed of motor oil in the corner of my ex-girlfriend's parent's yard, I was amazed to discover mushrooms that started growing in the oil and looked like they were consuming the oil. Each winter, when mushroom conditions were ripest, they returned until the stump the pool of oil gathered around sprouted new branches and started growing again. Turns out there are species of mushrooms that consume oil on the surface of the planet.
So this doesn't shock me at all, its an example of how regardless of humanity's arrogance, life on Earth will be around long after our species and its descendants cease to exist, to think otherwise is to prove one's ignorance.
CSMastermind 567 days ago [-]
The biology and evolutionary history of fungi is incredibly fascinating.
To my (admittedly layman) understanding, they're sort of life's premiere resource extractors. Their whole thing is breaking down things that other life can't, so it's not surprising at all that some species can consume oil.
We know they co-evolved with plants, and one theory suggests that fungi allowed plants to make the jump from water to land by using their hyphae to act as a proto-root system, unlock nutrients like phosphorus from the soil, and transport water, while early land plants provided sugars produced from photosynthesis in return.
One of the main differentiations that might have led to the split between proto-fungi and proto-animals is their nutrient acquisition strategy. The organism that would become fungi had extracellular digestion, while the organism that would become animals captured and ingested other organisms.
This split led to different approaches to cellular adhesion along with different developmental and signaling pathways (different strategies for achieving homeostasis for instance).
---
If you want to read about some really wild stuff, look up the Late Paleozoic era in the Carboniferous period. Basically plants evolved Lignin (wood) but there was nothing in the world that could break it down so it rapidly accumulated along with a hyperoxgenated atmosphere due to the extensive growth. This meant there were 8 foot long millipedes and dragonflies that size of crows flying around. There were also massive forest fires spanning the globe since fire was one of the only ways to get rid of the lignin until, eventually, some fungi evolved to take care of the problem.
maxmalkav 566 days ago [-]
> Basically plants evolved Lignin (wood) but there was nothing in the world that could break it down so it rapidly accumulated along with a hyperoxgenated atmosphere due to the extensive growth.
That was my understanding too until recently, when I have read in a couple of places that things might not have been like that. Checking the Wikipedia article about Carboniferous [1] it seems there is not consensus yet:
"There is ongoing debate as to why this peak in the formation of Earth's coal deposits occurred during the Carboniferous. The first theory, known as the delayed fungal evolution hypothesis, is that a delay between the development of trees with the wood fibre lignin and the subsequent evolution of lignin-degrading fungi gave a period of time where vast amounts of lignin-based organic material could accumulate. Genetic analysis of basidiomycete fungi, which have enzymes capable of breaking down lignin, supports this theory by suggesting this fungi evolved in the Permian. However, significant Mesozoic and Cenozoic coal deposits formed after lignin-digesting fungi had become well established, and fungal degradation of lignin may have already evolved by the end of the Devonian, even if the specific enzymes used by basidiomycetes had not. The second theory is that the geographical setting and climate of the Carboniferous were unique in Earth's history: the co-occurrence of the position of the continents across the humid equatorial zone, high biological productivity, and the low-lying, water-logged and slowly subsiding sedimentary basins that allowed the thick accumulation of peat were sufficient to account for the peak in coal formation."
One way or another, I find fascinating how different the planet has been along its geologic periods.
> Mycoremediation (from ancient Greek μύκης (mukēs), meaning "fungus", and the suffix -remedium, in Latin meaning 'restoring balance') is a form of bioremediation in which fungi-based remediation methods are used to decontaminate the environment.
> Fungi have been proven to be a cheap, effective and environmentally sound way for removing a wide array of contaminants from damaged environments or wastewater. These contaminants include heavy metals, organic pollutants, textile dyes, leather tanning chemicals and wastewater, petroleum fuels, polycyclic aromatic hydrocarbons, pharmaceuticals and personal care products, pesticides and herbicides in land, fresh water, and marine environments.
We are killing species at 100-1,000 times the background rate. The damage can never be undone. The Earth may recover, on geological time scales, but 99.9% of those species aren't ever coming back. It's extremely unwise to be committing mass murder on the biosphere like this, and not a matter of "frugality".
wolverine876 567 days ago [-]
Personally, I think it's very important, and I think most people would agree, to prevent harm and cost to humans, and to enable them to be free, live long, and prosper. [0] I don't think there's a higher moral or practical imperative - if you don't care about that, what do you care about? The GGP said "life on Earth will be around long after our species and its descendants cease to exist", implying that the extinction of humans was not an issue!
Damage to nature, as a general concept, can often shorten lives, cause great harm to the living (warfare, starvation), and cost enormous amounts of money - climate change is very expensive. One reason is that we have enormous amounts of fixed capital - 10,000 years worth, in a way - invested in the ecosystems as they currently are, including all our agriculture, ports, cities, infrastructure, borders, food and water supply, etc. etc. It will be very expensive and pointless to rebuild it all for new ecosystems instead of just retaining what we have.
Also, most people agree that harming animals is also wrong, though not nearly on the level of harming humans. If you physically abuse your dog, for example, people will be angry and there are laws against it in most places.
And I think most people value what is 'natural' to some degree; it seems like a common value of humanity across time and cultures. They prefer the natural hill to the strip-mined one, the green field to the parking lot. They also like coal and parking their car, so there are competing values too.
[0] :)
bbarnett 566 days ago [-]
Personally, I think it's very important, and I think most people would agree, to prevent harm and cost to humans, and to enable them to be free, live long, and prosper. [0] I don't think there's a higher moral or practical imperative - if you don't care about that, what do you care about?
Believe it or not, I have met many people which have a belief system close to "humans are scum and deserve to go extinct" along with "but we're hurting rabbits, and they're cute!".
These people prattle on extensively about how our activities are "hurting the planet", without caring that we're actually hurting ourselves. We aren't part of the equation. Mostly, these sorts just repeat things they've heard without ponderance or thought.
I've had conversations with people about how mosquitoes are important, not to be a food source for things, but instead, because "poor mosquitoes". It doesn't matter to them that mosquitoes are the number on killer of humans, AND the same can be said for the harm caused to animals.
I often wonder if this sort is just a troll. Trolls existed way before the internet ever existed, they can be found at town meetings.
Ah well.
Re: mosquitoes. I absolutely think we should genetically engineer methods which result in the extinction of all blood sucking animals. Leeches, mosquitoes, all flies, bed bugs, you name it. The pain and misery that humans and animals alike suffer from such horrors, is immense.
Animals have been seen to run off of cliffs, due to biting flies swarming them.
They spread disease, they cause infection, and frankly if 10% of birds of extinct as a result, well I will be sad but call it a fair price.
We need to start geo-engineering our own biosphere. This seems like a very good start.
(NOTE: before replying, people should consider. Do they live in a nice city, with almost none of the above parasites? Or do you have great experience of going outside in the spring, in a rural area, with quite literally mosquitoes so thick that you have a hard time seeing through them?
Have you lived in an area where you're being attacked by 100s of insects simultaneously? That's not an exaggeration, even remotely, I can walk outside my door in May and have literally more than 100 insects trying to suck my blood in under a minute.
If these things aren't true, if you don't know what life is actually living in nature, and not just inside a city, then I submit that your opinion has far less value.)
ceejayoz 566 days ago [-]
Yep. These sorts of thing can’t possibly go wrong. Maybe next we can take out those pesky sparrows.
Yes indeed, if you work on a thing, any thing, mistakes can be made.
That does not mean you stop working towards a goal, or you drop the concept of modifying the universe around you. If that were so, we'd still be in the stone age.
Instead you observe those mistakes, consider the lesson of those mistakes, and then apply them towards further efforts. Anything else means we may as well give up all science, and cower in caves.
ceejayoz 566 days ago [-]
One of those lessons learned is we now look askance at people who say things like:
> I absolutely think we should genetically engineer methods which result in the extinction of all blood sucking animals. Leeches, mosquitoes, all flies, bed bugs, you name it.
We know better now.
bbarnett 566 days ago [-]
We know better now.
If by this you mean "We should be afraid to do things, because once someone made a mistake", then I guess yes.
As per my prior comment, the sort of logic you are employing is "A bad thing happened once, so we MUST stop all efforts along this tact". Such thought processes are akin to "Let's curl up into a ball and cower". If we took this tact, literally every scientific improvement we've ever had would be out the window, because literally everything we've done has killed people.
Instead what we "know better now", is that we know that we absolutely must look at the entire food chain. We know that we must examine potential ramification with greatest care. We know "better now", to take great care, and move with great deliberation.
The answer is not to go back to the caves. Or to halt progress. The answer is to do better.
To speak to the posted wikipedia article?
In as with many things, it is incorrect.
Here is what it says:
The resulting agricultural failures, compounded by misguided policies of the Great Leap Forward, triggered a severe famine from 1958 to 1962.
Here is what the discovery article says:
The mass deaths of sparrows and nationwide loss of crops resulted in untold millions starving and 20 to 30 million people dying from 1958 to 1962. A 1984 article on the mass famine put it simply: “China suffered a demographic crisis of enormous proportions”
Here is what the paper summary says:
The largest famine in human history occurred in China in modern times and passed almost unrecognized by the outside world. Demographic evidence indicates that famine during 1958-61 caused almost 30 million premature deaths in China and reduced fertility very significantly. Data on food availability suggest that, in contrast to many other famines, a root cause of this one was a dramatic decline in grain output that continued for several years, involving in 1960-61 a drop in output of more than 25 percent. Causes of this drop are found in both natural disaster and government policy. The government's responses are reviewed and implications of this experience for Chinese and world development are considered.
Note how the Wikipedia states 20 to 30 million died directly from starvation. The discovery article states that "untold millions" died from starvation, and as well, "20 to 30 million dying", which of course can be "related". EG, mass migration, unrest, civil disobedience, and more.
Note how the paper itself says, that it was caused by "natural disaster and governmental policy", with "natural disaster" listed first.
I cannot access the paper, but I presume there was not just locust, and not just governmental policy, but a myriad of things happening at the same time, of which governmental policy was one of them. Otherwise, governmental policy would be the primary discussion, not one of the events.
In short, I dispute the numbers presented. I suspect this is a tale that has grown more and more dire, with each retell.
However! I absolutely agree that unplanned efforts, and mistakes, can indeed be disastrous. There are other examples of how dire, messing with an ecosystem can be. Yet that does not mean we stop!. If anything, we'll have to do more work in this regard, as global warming changes things faster than evolution and species migration can happen naturally.
ceejayoz 566 days ago [-]
> As per my prior comment, the sort of logic you are employing is "A bad thing happened once, so we MUST stop all efforts along this tact". Such thought processes are akin to "Let's curl up into a ball and cower". If we took this tact, literally every scientific improvement we've ever had would be out the window, because literally everything we've done has killed people.
No; you're fighting a strawman.
Interventions of this nature must be carefully planned, tested, and understood. I support, for example, efforts to eradicate Aedes aegypti because the due dilligence has been done. We have a reasonable understanding of its position in the food chain, smaller-scale test efforts have been done in a variety of places, etc.
"We should eradicate everything that eats blood" is... not the same.
bbarnett 566 days ago [-]
That isn't reasonable. The goal does not invalidate the method, nor caution.
Without the goal (eg, get rid of those damned bloodsuckers), the amount of diligence required isn't going to even start.
You need a goal, and then, you need to assess.
The bloodsuckwrs must go.
adammarples 567 days ago [-]
Yeah, ecosystems are fragile, they're equilibria. Of course if you disrupt them you eventually get another one, but I'm quite fond of the ones we have and not looking forward to a cool fungi and jellyfish locust swarm ecosystem or whatever comes next.
ceejayoz 567 days ago [-]
“Save the planet” is a short slogan for “not have sentient cockroaches wondering what happened to the folks who dug up all the coal”.
No one asserts climate change is gonna crack the planet in half.
Shekelphile 567 days ago [-]
We are actually in the last 20% of time remaining for life on earth to exist. Multicellular life will likely go extinct within a few hundred million years.
whutsurnaym 567 days ago [-]
That's not information I'd heard before. Do you have a source?
philipkglass 567 days ago [-]
Not a "few" hundred million years, but less than a billion years:
500-600 million years: The Sun's increasing luminosity begins to disrupt the carbonate–silicate cycle; higher luminosity increases weathering of surface rocks, which traps carbon dioxide in the ground as carbonate. As water evaporates from the Earth's surface, rocks harden, causing plate tectonics to slow and eventually stop once the oceans evaporate completely. With less volcanism to recycle carbon into the Earth's atmosphere, carbon dioxide levels begin to fall. By this time, carbon dioxide levels will fall to the point at which C3 photosynthesis is no longer possible. All plants that use C3 photosynthesis (≈99 percent of present-day species) will die.
...
800-900 million years: Carbon dioxide levels will fall to the point at which C4 photosynthesis is no longer possible. Without plant life to recycle oxygen in the atmosphere, free oxygen and the ozone layer will disappear from the atmosphere allowing for intense levels of deadly UV light to reach the surface. Animals in food chains that were dependent on live plants will disappear shortly afterward. At most, animal life could survive about 3 to 100 million years after plant life dies out. Just like plants, the extinction of animals will likely coincide with the loss of plants. It will start with large animals, then smaller animals and flying creatures, then amphibians, followed by reptiles, and finally, invertebrates. In the book The Life and Death of Planet Earth, authors Peter D. Ward and Donald Brownlee state that some animal life may be able to survive in the oceans. Eventually, however, all multicellular life will die out.
rad_gruchalski 567 days ago [-]
We better find the Planet B.
MikeTheGreat 566 days ago [-]
At least we have a long runway?
DANmode 567 days ago [-]
Any evidence, here or elsewhere, that it completely consumed the toxic compounds?
Neat evidence either way, that they thrive in that condition.
Log_out_ 567 days ago [-]
So encode human genomes into mushrooms, so we rise again? Great idea
hypercube33 567 days ago [-]
Wasn't that an episode of SG1 with the mushroom humanoids?
justrealist 567 days ago [-]
I like the idea in principle but I would love a more clear analysis of where the lead paint from old dismantled houses ends up. I wouldn't want to use mycelium bricks in my house, if I thought they were going to leach toxins into everything they touch...
dkbrk 567 days ago [-]
This is a good question and you shouldn't have been downvoted for it. I had a similar concern.
I think the answer is this [0]:
> Many fungi are hyperaccumulators, therefore they are able to concentrate toxins in their fruiting bodies for later removal.
And the linked article alludes to that:
> Heavy metals and other toxins are extracted and captured in the mushrooms that grow, while the substrate leftovers, including the mycelium, are compacted and heated to create clean bricks for new construction.
Presumably they validate that the process results in the substrate having an acceptably low level of toxins before using it as material for new construction.
Please explain how something as inert as lead "leaches".
lightedman 567 days ago [-]
Simple warm pH-imbalanced water is all you need. I can make cerrusite artificially with older lead-plumbed copper pipe and a moderate temperature (50C) pH-imbalanced hard water source, run that whole discharge through a water carbonation system and let the results evaporate under pressure. Bam. In a day I've leached lead out and crystallized it into another form that you would find in volcanic fields.
Note: The leaching takes almost no time, the evaporation is the majority of time needed for forming the cerrusite. Lead is nowhere near as inert as you imagine it to be. It oxidizes readily.
hypercube33 567 days ago [-]
I never see anyone mention plastic mini blinds when lead gets brought up but they use lead as a uv stabilizer and there were some studies showing it sheds the lead as a dust over time. I'm mobile otherwise I'd dig them up for links.
bongodongobob 567 days ago [-]
So as long as you don't kick them it's fine.
patmorgan23 567 days ago [-]
If lead never leached into anything, I'm sure you won't have a problem with installing lead pipes in your home.
bongodongobob 567 days ago [-]
Tons of homes have lead pipes. It's not a problem unless your water supply gets fucked up aka flint. The dangers of lead are over stated. As long as you don't vaporize, dissolve, or eat it, it's as harmful as any other metal.
bongodongobob 567 days ago [-]
From a brick?
DonHopkins 567 days ago [-]
Maybe he gets his dangerously false and ignorant opinions about science from Kansas Republican Attorney General Kris Kobach.
Pete Buttigieg Schools Republican Who Claimed Lead Poisoning Is Just 'Speculative'.
After Kansas Republican Attorney General Kris Kobach claimed studies about how lead is poisonous for humans are 'entirely speculative,' Buttigieg sounded off on X, formerly Twitter, to lay out some basic science.
>"Biden wants to replace lead pipes. He failed to mention that the unfunded mandate sets an almost impossible timeline, will cost billions, infringe on the rights of the States and their residents – all for benefits that may be entirely speculative." -Kris Kobach, science denier
>"The benefit of *not being lead poisoned* is not speculative. It is enormous. And because lead poisoning leads to irreversible cognitive harm, massive economic loss, and even higher crime rates, this work represents one of the best returns on public investment ever observed." -Secretary Pete Buttigieg, science schooler
>Readers added context: Lead is a highly poisonous metal and can affect almost every organ in the body and the nervous system.
Study: More than 60% of Kansas, 80% of Missouri kids have lead in their blood.
The findings of massive national study were published in JAMA Pediatrics this week.
>KANSAS CITY, Mo. — Children in Kansas had elevated levels of lead in their blood at a greater rate than almost any other state, according to a massive national study published this week.
>And more than 80% of Missouri children had some level of lead in their blood.
>The study, authored by doctors at Boston Children’s Hospital and Quest Diagnostics, was published this week in JAMA Pediatrics, a peer-reviewed journal published by the American Medical Association. It included 1.1 million tests conducted by Quest Diagnostics nationwide between 2018 and 2020.
>There is no safe level of lead in a child’s blood. Exposure to the metal can cause brain and nervous system damage, slow a child’s growth and development and lead to learning, behavior, hearing and speech problems.
>But the study focused on both detectable blood lead levels, one microgram per deciliter, as well as elevated levels, 5 micrograms per deciliter.
>In Missouri, 4.5% of children had elevated levels of lead in their blood. In Kansas, that figure was 2.6% of children, both far ahead of the 1.9% national average.
>And the proportion of children with any detectable level of blood lead was higher in both states than the national average of about 50%. In Kansas 65% of kids had detectable levels of blood lead compared to 82% in Missouri.
>According to the study, elevated blood levels were once ubiquitous but had fallen over the last 40 years because of policies limiting lead and eliminating it from gasoline, paint, plumbing pipes and consumer products.
>But exposure is still possible and disproportionately affects children in families living at or below the poverty line, in older housing or communities with high concentrations of poverty.
>“There has been significant progress in reducing lead exposure throughout the country,” the study says. “This study demonstrates, however, that there are still substantial individual-and community-level disparities that have important implications for addressing childhood lead exposure.”
>Missouri and Kansas also have some of the highest numbers of lead service lines, the pipes running from water mains into homes and buildings, of any state.
>Missouri ranked 6th for the most lead service lines — 4th if calculated per 100,000 residents. Kansas had the third most per capita.
Kobach leads coalition demanding Biden drop "unnecessary" EPA rule that would require the replacement of more than 9 million lead pipes across the country.
>“It sets an almost impossible timeline, will cost billions and will infringe on the rights of the States and their residents – all for benefits that may be entirely speculative,” the joint letter reads.
Kris Kobach's foolishly false and dangerously ignorant letter to the EPA:
Kris Kobach leads effort to keep poisoning our drinking water.
No one disputes that eliminating lead from drinking water is a needed but expensive undertaking. Rather than oppose the effort, the attorneys general should use their political influence to persuade their congressional delegations to fund it.
Famously, human beings never have children, who definitely do not explore the world around them through their mouths, and who definitely are not especially sensitive to early lead exposure.
Like, do you just deny the past century of brain damage from lead? It's physically measurable in our bodies. Where did that lead come from if it's so inert as to be safe?
DonHopkins 566 days ago [-]
Idiot.
klyrs 567 days ago [-]
Unless the lead is transmuted into something benign (spoiler: nope), one must account for where it's going.
justrealist 567 days ago [-]
It literally contaminates into the soil. This happens with all sorts of lead pipes, cables, etc.
This is not me making things up, it's a huge concern when urban gardening.
Anotheroneagain 567 days ago [-]
If somebody tells you that the vegetables from their garden taste 100 times better than those from the store, this is why.
adammarples 567 days ago [-]
2Pb(s)+ O2(g) + 2H2O(l) -> 2 Pb(OH)2(s)
bongodongobob 567 days ago [-]
And how is the lead from that brick going to get into your body? Brick licking?
ok_dad 566 days ago [-]
Do you work for a lead mining company or something? We have better materials for nearly every use of lead which don’t cause any sort of poisoning. Why even take the risk?
mikewarot 567 days ago [-]
In nearby East Chicago, Indiana, the lead level in some tested soils reached 9.1% (91,000 ppm) [1] If this could be used to capture that lead, and separate it out, you could mine the soil, while you treat a superfund site at the same time.
For a contrarian take on mycoremediation here is a quote from noted mycologist Alan Rockefeller:
"Mycoremediation barely works, most times I think it is better to save the time and energy and let nature do the remediation. Particularly with regards to mycofiltration, eating oil and heavy metal removal. If you do nothing at all, natural bacteria and fungi in the environment will do the remediation - so maybe just mix in some substrate, turn the soil and let nature do the rest.
Regarding mycofiltration, doesn't really work and even if it did, wouldn't take long for the mycelium to go anarobic and die. One idea I heard is to just dump a truck load of wood chips in the stream, and let nature do the rest. At least that way you are not wasting energy making spawn. No idea if this works at all.
You can eat oil with oyster mushrooms, but it has to be at really low concentrations, and you probably burn more oil than you eat making the spawn. Natural bacterias eat oil too and they are everywhere.
Regarding Paul, he is a great salesman and ambassador, and he has gotten a lot of people into mushrooms. For that he deserves to be held in high regard. He is pretty cool in person. I do think he probably oversells his products, and that medicinal mushrooms shouldn't be sold as medicine until they are proven to work. Turkey tails have been proven to work (but not very much), and the rest of them are pretty much untested in large clinical trials. Mushrooms do make excellent placebos.
If you ask professional mycologists about Stamets or mycoremediation or medicinal mushrooms, they typically change the subject pretty quick, if they are feeling polite.
There are a ton of people doing mycoremediation trials, but almost no one scaling it up to solve real world problems. Every idealistic first year college mycology student wants to save the world with mushrooms, but by the time they get a PhD they are thinking very differently.
Tradd Cotter and Peter Mccoy are doing a lot of work with mycoremediation, but I notice that they are mostly making their money writing books and giving workshops/lectures rather than actually doing it. But they probably answer their emails and would be excellent people to talk to about details and new ideas."
thfuran 566 days ago [-]
>heavy metal removal. If you do nothing at all, natural bacteria and fungi in the environment will do the remediation - so maybe just mix in some substrate, turn the soil and let nature do the rest.
And where exactly will the bacteria send the heavy metal?
Pine_Mushroom 565 days ago [-]
This is beyond my expertise, but here is a quote from a paper on the subject:
"Bacteria have several methods of processing heavy metals through general resistance mechanisms, biosorption, adsorption, and efflux mechanisms. Bacillus spp. are model Gram-positive bacteria that have been studied extensively for their biosorption abilities and molecular mechanisms that enable their survival as well as their ability to remove and detoxify heavy metals. This review aims to highlight the molecular methods of Bacillus spp. in removing various heavy metals ions from contaminated environments."
He say mycoremediation barely works and then literally describes mycoremediation. "so maybe just mix in some substrate, turn the soil and let nature do the rest"
>Regarding mycofiltration, doesn't really work and even if it did, wouldn't take long for the mycelium to go anarobic and die.
Then a sentence later.
>I have no idea if this works.
You know why that is? Because he hasn't done it.
>medicinal mushrooms shouldn't be sold as medicine until they are proven to work
They do work. Very well. 1000s of years of human history and 1000s of clinical trials have proven it. I had never heard of Alen Rockefeller
before now, but with that one statement makes me think he's either retarded or disingenuous in his opinion.
Pine_Mushroom 559 days ago [-]
Alan is quite well known and respected in the field. Fair enough pointing out he has no experience with mycoremediation, but I still find his opinion worth considering.
echelon 567 days ago [-]
I'm worried of breathing in fungi. They're already known carcinogens. If these shed spores, they could establish a latent infection. This is what fungi do.
We're already all encountering this on a day to day basis at a background level. No reason to increase exposure.
Uptrenda 567 days ago [-]
I think I heard somewhere that if not for a few degrees in temperature human beings would be plagued by many fungal diseases. But because of our body temperature (and immune system) they find it very hard to live in our bodies. I'm wondering if global warming will accelerate the adaption of fungi to higher temperatures and therefore potentially allowing a new species to invade us. The future is fun and holds many things to look forward to. Perhaps we can become one with the mushrooms some day.
Nux 567 days ago [-]
It was a film :) .. wouldn't let that in serious conversation.
In more worried about what is lurking in permafrost…
CyberDildonics 567 days ago [-]
You realize there are already a lot of different climates on earth right?
hypercube33 567 days ago [-]
I think they may be confused with body temperature which is fairly consistent but that also doesn't make a lot of sense either.
offtrail 561 days ago [-]
>I'm worried of breathing in fungi
I have some bad news for you. You do with every breath.
>They're known carcinogens
Depends on the mushroom. Many are actually anti cancer, but I'm going to to assume you meant breathing the spores. It's only a concern if you're in an enclosed space. Like a fruiting room full of oyster mushrooms.
>they could establish a latent infection. This is what fungi do.
Having a fungal infection isn't necessarily bad thing. YOU have a fungal community in and on you right now. They're protecting you even as you read this. It's been shown that inculating trees with chaga mushrooms can prevent infections from other more aggressive parasites and blights.
Fungi are your friends.
Oyster mushrooms aren't going to infect you. If anyone would, I'd put my money on cordyceps. And those aren't used for mycorestoration.
>We're already all encountering this on a day to day basis at a background level. No reason to increase exposure.
Gonna have to disagree. Humans are responsible for completely fucking the mycelial mass of earth. We knocked a big cog out of the carbon cycle through mass development of the land, mass use of pesticides, fungicides, and fertilizers. Pavement everywhere. And we absolutely need to fix it. Good news for you though, people are working on sporeless strains of fungi used in mycorestoration. Soon your worries will be irrelevant.
mikeweiss 567 days ago [-]
Curious... do you eat mushrooms?
lossolo 567 days ago [-]
There are mushrooms that "eat" radiation from nuclear waste.
Maybe with a little research and genetic manipulation we can engineer the world of Nausicaä, where an entire ecosystem of fungi purge the world of toxins from man’s prior technological civilizations.
hypercube33 567 days ago [-]
I was thinking more of the world of Command and Conquer where we engineer Tiberium to do mining for us
ildon 566 days ago [-]
This is the missing prequel to "The last of us"
nitwit005 567 days ago [-]
Presumably, if the fungus takes in toxic metals, someone has to go through the wood and collect the body of the fungus, and do some significant chemistry later to extract it out?
Sharlin 567 days ago [-]
Apparently they’re able to concentrate absorbed contaminants in their fruiting bodies. Very convenient. At least as long as we’re talking about species that are nonedible in the first place.
nitwit005 567 days ago [-]
That still means a fairly low concentration overall. It's not as if it's going to make a solid lead mushroom.
Anotheroneagain 567 days ago [-]
I suppose it's to motivate animals to eat them. Even people prefer food high in heavy metals by taste.
Sharlin 567 days ago [-]
I think it’s more that the mushroom parts are expendable, they die anyway after they’ve done their job. I don’t think fungi in general benefit much from animals eating them, not the way many plants do.
Anotheroneagain 567 days ago [-]
They want animals to ingest their spores.
bdd8f1df777b 566 days ago [-]
It's my understanding that spore generating vegetables just spread their spores around by wind or other natural means. Unlike angiosperms that often spread their seeds with the help of animals.
ginko 567 days ago [-]
> Effectively what we're doing is diverting tonnage from landfill
Wouldn’t digesting the house release more co2 to the atmosphere than just burying it in an anaerobic landfill?
offtrail 561 days ago [-]
About half the mycelial mass will be released as co2.* With oysters anyway. The rest will ideally become healthy top soil for plants that off set the co2. They also remediate toxic chemicals within the house. In the landfill, all that matter is locked away from the flow of matter and energy that make for a healthy world. We should really only be using anaerobic landfills for plastics and things that need a lack of oxygen to be broken down. Even then, large scale bioreactors might be more effective and take up less land. I bet old mines would work great for that.
CarRamrod 567 days ago [-]
If you go inside, you get to choose from one of three treasure chests.
black_13 566 days ago [-]
[dead]
t1c 567 days ago [-]
.......only in Ohio
567 days ago [-]
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So this doesn't shock me at all, its an example of how regardless of humanity's arrogance, life on Earth will be around long after our species and its descendants cease to exist, to think otherwise is to prove one's ignorance.
To my (admittedly layman) understanding, they're sort of life's premiere resource extractors. Their whole thing is breaking down things that other life can't, so it's not surprising at all that some species can consume oil.
We know they co-evolved with plants, and one theory suggests that fungi allowed plants to make the jump from water to land by using their hyphae to act as a proto-root system, unlock nutrients like phosphorus from the soil, and transport water, while early land plants provided sugars produced from photosynthesis in return.
One of the main differentiations that might have led to the split between proto-fungi and proto-animals is their nutrient acquisition strategy. The organism that would become fungi had extracellular digestion, while the organism that would become animals captured and ingested other organisms.
This split led to different approaches to cellular adhesion along with different developmental and signaling pathways (different strategies for achieving homeostasis for instance).
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If you want to read about some really wild stuff, look up the Late Paleozoic era in the Carboniferous period. Basically plants evolved Lignin (wood) but there was nothing in the world that could break it down so it rapidly accumulated along with a hyperoxgenated atmosphere due to the extensive growth. This meant there were 8 foot long millipedes and dragonflies that size of crows flying around. There were also massive forest fires spanning the globe since fire was one of the only ways to get rid of the lignin until, eventually, some fungi evolved to take care of the problem.
That was my understanding too until recently, when I have read in a couple of places that things might not have been like that. Checking the Wikipedia article about Carboniferous [1] it seems there is not consensus yet:
"There is ongoing debate as to why this peak in the formation of Earth's coal deposits occurred during the Carboniferous. The first theory, known as the delayed fungal evolution hypothesis, is that a delay between the development of trees with the wood fibre lignin and the subsequent evolution of lignin-degrading fungi gave a period of time where vast amounts of lignin-based organic material could accumulate. Genetic analysis of basidiomycete fungi, which have enzymes capable of breaking down lignin, supports this theory by suggesting this fungi evolved in the Permian. However, significant Mesozoic and Cenozoic coal deposits formed after lignin-digesting fungi had become well established, and fungal degradation of lignin may have already evolved by the end of the Devonian, even if the specific enzymes used by basidiomycetes had not. The second theory is that the geographical setting and climate of the Carboniferous were unique in Earth's history: the co-occurrence of the position of the continents across the humid equatorial zone, high biological productivity, and the low-lying, water-logged and slowly subsiding sedimentary basins that allowed the thick accumulation of peat were sufficient to account for the peak in coal formation."
One way or another, I find fascinating how different the planet has been along its geologic periods.
[1] https://en.wikipedia.org/wiki/Carboniferous#Coal_formation
> Fungi have been proven to be a cheap, effective and environmentally sound way for removing a wide array of contaminants from damaged environments or wastewater. These contaminants include heavy metals, organic pollutants, textile dyes, leather tanning chemicals and wastewater, petroleum fuels, polycyclic aromatic hydrocarbons, pharmaceuticals and personal care products, pesticides and herbicides in land, fresh water, and marine environments.
https://en.wikipedia.org/wiki/Mycoremediation
Also, there are mushroom species that can breakdown plastics in effect getting rid of stuff that woulf take hundreds/thousads of years to decompose.
Mushrooms are amazing
Lichens are incredible. Check out the book Entangled Life, which Paul Stamets proclaims is "a must-read!"
Who says otherwise?
https://en.wikipedia.org/wiki/Holocene_extinction
We are killing species at 100-1,000 times the background rate. The damage can never be undone. The Earth may recover, on geological time scales, but 99.9% of those species aren't ever coming back. It's extremely unwise to be committing mass murder on the biosphere like this, and not a matter of "frugality".
Damage to nature, as a general concept, can often shorten lives, cause great harm to the living (warfare, starvation), and cost enormous amounts of money - climate change is very expensive. One reason is that we have enormous amounts of fixed capital - 10,000 years worth, in a way - invested in the ecosystems as they currently are, including all our agriculture, ports, cities, infrastructure, borders, food and water supply, etc. etc. It will be very expensive and pointless to rebuild it all for new ecosystems instead of just retaining what we have.
Also, most people agree that harming animals is also wrong, though not nearly on the level of harming humans. If you physically abuse your dog, for example, people will be angry and there are laws against it in most places.
And I think most people value what is 'natural' to some degree; it seems like a common value of humanity across time and cultures. They prefer the natural hill to the strip-mined one, the green field to the parking lot. They also like coal and parking their car, so there are competing values too.
[0] :)
Believe it or not, I have met many people which have a belief system close to "humans are scum and deserve to go extinct" along with "but we're hurting rabbits, and they're cute!".
These people prattle on extensively about how our activities are "hurting the planet", without caring that we're actually hurting ourselves. We aren't part of the equation. Mostly, these sorts just repeat things they've heard without ponderance or thought.
I've had conversations with people about how mosquitoes are important, not to be a food source for things, but instead, because "poor mosquitoes". It doesn't matter to them that mosquitoes are the number on killer of humans, AND the same can be said for the harm caused to animals.
I often wonder if this sort is just a troll. Trolls existed way before the internet ever existed, they can be found at town meetings.
Ah well.
Re: mosquitoes. I absolutely think we should genetically engineer methods which result in the extinction of all blood sucking animals. Leeches, mosquitoes, all flies, bed bugs, you name it. The pain and misery that humans and animals alike suffer from such horrors, is immense.
Animals have been seen to run off of cliffs, due to biting flies swarming them.
They spread disease, they cause infection, and frankly if 10% of birds of extinct as a result, well I will be sad but call it a fair price.
We need to start geo-engineering our own biosphere. This seems like a very good start.
(NOTE: before replying, people should consider. Do they live in a nice city, with almost none of the above parasites? Or do you have great experience of going outside in the spring, in a rural area, with quite literally mosquitoes so thick that you have a hard time seeing through them?
Have you lived in an area where you're being attacked by 100s of insects simultaneously? That's not an exaggeration, even remotely, I can walk outside my door in May and have literally more than 100 insects trying to suck my blood in under a minute.
If these things aren't true, if you don't know what life is actually living in nature, and not just inside a city, then I submit that your opinion has far less value.)
https://en.wikipedia.org/wiki/Four_Pests_campaign
That does not mean you stop working towards a goal, or you drop the concept of modifying the universe around you. If that were so, we'd still be in the stone age.
Instead you observe those mistakes, consider the lesson of those mistakes, and then apply them towards further efforts. Anything else means we may as well give up all science, and cower in caves.
> I absolutely think we should genetically engineer methods which result in the extinction of all blood sucking animals. Leeches, mosquitoes, all flies, bed bugs, you name it.
We know better now.
If by this you mean "We should be afraid to do things, because once someone made a mistake", then I guess yes.
As per my prior comment, the sort of logic you are employing is "A bad thing happened once, so we MUST stop all efforts along this tact". Such thought processes are akin to "Let's curl up into a ball and cower". If we took this tact, literally every scientific improvement we've ever had would be out the window, because literally everything we've done has killed people.
Instead what we "know better now", is that we know that we absolutely must look at the entire food chain. We know that we must examine potential ramification with greatest care. We know "better now", to take great care, and move with great deliberation.
The answer is not to go back to the caves. Or to halt progress. The answer is to do better.
To speak to the posted wikipedia article?
In as with many things, it is incorrect.
Here is what it says:
The resulting agricultural failures, compounded by misguided policies of the Great Leap Forward, triggered a severe famine from 1958 to 1962.
Here is what the discovery article says:
The mass deaths of sparrows and nationwide loss of crops resulted in untold millions starving and 20 to 30 million people dying from 1958 to 1962. A 1984 article on the mass famine put it simply: “China suffered a demographic crisis of enormous proportions”
Here is what the paper summary says:
The largest famine in human history occurred in China in modern times and passed almost unrecognized by the outside world. Demographic evidence indicates that famine during 1958-61 caused almost 30 million premature deaths in China and reduced fertility very significantly. Data on food availability suggest that, in contrast to many other famines, a root cause of this one was a dramatic decline in grain output that continued for several years, involving in 1960-61 a drop in output of more than 25 percent. Causes of this drop are found in both natural disaster and government policy. The government's responses are reviewed and implications of this experience for Chinese and world development are considered.
Note how the Wikipedia states 20 to 30 million died directly from starvation. The discovery article states that "untold millions" died from starvation, and as well, "20 to 30 million dying", which of course can be "related". EG, mass migration, unrest, civil disobedience, and more.
Note how the paper itself says, that it was caused by "natural disaster and governmental policy", with "natural disaster" listed first.
I cannot access the paper, but I presume there was not just locust, and not just governmental policy, but a myriad of things happening at the same time, of which governmental policy was one of them. Otherwise, governmental policy would be the primary discussion, not one of the events.
In short, I dispute the numbers presented. I suspect this is a tale that has grown more and more dire, with each retell.
However! I absolutely agree that unplanned efforts, and mistakes, can indeed be disastrous. There are other examples of how dire, messing with an ecosystem can be. Yet that does not mean we stop!. If anything, we'll have to do more work in this regard, as global warming changes things faster than evolution and species migration can happen naturally.
No; you're fighting a strawman.
Interventions of this nature must be carefully planned, tested, and understood. I support, for example, efforts to eradicate Aedes aegypti because the due dilligence has been done. We have a reasonable understanding of its position in the food chain, smaller-scale test efforts have been done in a variety of places, etc.
"We should eradicate everything that eats blood" is... not the same.
Without the goal (eg, get rid of those damned bloodsuckers), the amount of diligence required isn't going to even start.
You need a goal, and then, you need to assess.
The bloodsuckwrs must go.
No one asserts climate change is gonna crack the planet in half.
https://en.wikipedia.org/wiki/Timeline_of_the_far_future#Ear...
500-600 million years: The Sun's increasing luminosity begins to disrupt the carbonate–silicate cycle; higher luminosity increases weathering of surface rocks, which traps carbon dioxide in the ground as carbonate. As water evaporates from the Earth's surface, rocks harden, causing plate tectonics to slow and eventually stop once the oceans evaporate completely. With less volcanism to recycle carbon into the Earth's atmosphere, carbon dioxide levels begin to fall. By this time, carbon dioxide levels will fall to the point at which C3 photosynthesis is no longer possible. All plants that use C3 photosynthesis (≈99 percent of present-day species) will die.
...
800-900 million years: Carbon dioxide levels will fall to the point at which C4 photosynthesis is no longer possible. Without plant life to recycle oxygen in the atmosphere, free oxygen and the ozone layer will disappear from the atmosphere allowing for intense levels of deadly UV light to reach the surface. Animals in food chains that were dependent on live plants will disappear shortly afterward. At most, animal life could survive about 3 to 100 million years after plant life dies out. Just like plants, the extinction of animals will likely coincide with the loss of plants. It will start with large animals, then smaller animals and flying creatures, then amphibians, followed by reptiles, and finally, invertebrates. In the book The Life and Death of Planet Earth, authors Peter D. Ward and Donald Brownlee state that some animal life may be able to survive in the oceans. Eventually, however, all multicellular life will die out.
Neat evidence either way, that they thrive in that condition.
I think the answer is this [0]:
> Many fungi are hyperaccumulators, therefore they are able to concentrate toxins in their fruiting bodies for later removal.
And the linked article alludes to that:
> Heavy metals and other toxins are extracted and captured in the mushrooms that grow, while the substrate leftovers, including the mycelium, are compacted and heated to create clean bricks for new construction.
Presumably they validate that the process results in the substrate having an acceptably low level of toxins before using it as material for new construction.
[0]: https://en.wikipedia.org/wiki/Mycoremediation
Note: The leaching takes almost no time, the evaporation is the majority of time needed for forming the cerrusite. Lead is nowhere near as inert as you imagine it to be. It oxidizes readily.
Pete Buttigieg Schools Republican Who Claimed Lead Poisoning Is Just 'Speculative'. After Kansas Republican Attorney General Kris Kobach claimed studies about how lead is poisonous for humans are 'entirely speculative,' Buttigieg sounded off on X, formerly Twitter, to lay out some basic science.
https://www.comicsands.com/buttigieg-schools-kobach-lead-poi...
>"Biden wants to replace lead pipes. He failed to mention that the unfunded mandate sets an almost impossible timeline, will cost billions, infringe on the rights of the States and their residents – all for benefits that may be entirely speculative." -Kris Kobach, science denier
>"The benefit of *not being lead poisoned* is not speculative. It is enormous. And because lead poisoning leads to irreversible cognitive harm, massive economic loss, and even higher crime rates, this work represents one of the best returns on public investment ever observed." -Secretary Pete Buttigieg, science schooler
>Readers added context: Lead is a highly poisonous metal and can affect almost every organ in the body and the nervous system.
CDC: Health Effects of Lead Exposure
https://www.cdc.gov/nceh/lead/prevention/health-effects.htm
Mayo Clinic: Lead poisoning
https://www.mayoclinic.org/diseases-conditions/lead-poisonin...
>EPA estimates that lead in drinking water can be 20% or more of a person’s lead exposure.
Clean Water Action: Lead and Drinking Water
https://cleanwater.org/lead-and-drinking-water
Study: More than 60% of Kansas, 80% of Missouri kids have lead in their blood. The findings of massive national study were published in JAMA Pediatrics this week.
https://kansasreflector.com/2021/09/30/study-more-than-60-of...
>KANSAS CITY, Mo. — Children in Kansas had elevated levels of lead in their blood at a greater rate than almost any other state, according to a massive national study published this week.
>And more than 80% of Missouri children had some level of lead in their blood.
>The study, authored by doctors at Boston Children’s Hospital and Quest Diagnostics, was published this week in JAMA Pediatrics, a peer-reviewed journal published by the American Medical Association. It included 1.1 million tests conducted by Quest Diagnostics nationwide between 2018 and 2020.
>There is no safe level of lead in a child’s blood. Exposure to the metal can cause brain and nervous system damage, slow a child’s growth and development and lead to learning, behavior, hearing and speech problems.
>But the study focused on both detectable blood lead levels, one microgram per deciliter, as well as elevated levels, 5 micrograms per deciliter.
>In Missouri, 4.5% of children had elevated levels of lead in their blood. In Kansas, that figure was 2.6% of children, both far ahead of the 1.9% national average.
>And the proportion of children with any detectable level of blood lead was higher in both states than the national average of about 50%. In Kansas 65% of kids had detectable levels of blood lead compared to 82% in Missouri.
>According to the study, elevated blood levels were once ubiquitous but had fallen over the last 40 years because of policies limiting lead and eliminating it from gasoline, paint, plumbing pipes and consumer products.
>But exposure is still possible and disproportionately affects children in families living at or below the poverty line, in older housing or communities with high concentrations of poverty.
>“There has been significant progress in reducing lead exposure throughout the country,” the study says. “This study demonstrates, however, that there are still substantial individual-and community-level disparities that have important implications for addressing childhood lead exposure.”
>Missouri and Kansas also have some of the highest numbers of lead service lines, the pipes running from water mains into homes and buildings, of any state.
>Missouri ranked 6th for the most lead service lines — 4th if calculated per 100,000 residents. Kansas had the third most per capita.
Kobach leads coalition demanding Biden drop "unnecessary" EPA rule that would require the replacement of more than 9 million lead pipes across the country.
https://web.archive.org/web/20240308080847/https://ag.ks.gov...
>“It sets an almost impossible timeline, will cost billions and will infringe on the rights of the States and their residents – all for benefits that may be entirely speculative,” the joint letter reads.
Kris Kobach's foolishly false and dangerously ignorant letter to the EPA:
https://web.archive.org/web/20240309085310/https://ag.ks.gov...
Kris Kobach leads effort to keep poisoning our drinking water. No one disputes that eliminating lead from drinking water is a needed but expensive undertaking. Rather than oppose the effort, the attorneys general should use their political influence to persuade their congressional delegations to fund it.
https://www.iolaregister.com/opinion/columnists/kris-kobach-...
Like, do you just deny the past century of brain damage from lead? It's physically measurable in our bodies. Where did that lead come from if it's so inert as to be safe?
This is not me making things up, it's a huge concern when urban gardening.
[1] https://www.nrdc.org/stories/east-chicago-knowing-your-soil-...
https://www.mdpi.com/2076-3417/10/10/3528
"Mycoremediation barely works, most times I think it is better to save the time and energy and let nature do the remediation. Particularly with regards to mycofiltration, eating oil and heavy metal removal. If you do nothing at all, natural bacteria and fungi in the environment will do the remediation - so maybe just mix in some substrate, turn the soil and let nature do the rest.
Regarding mycofiltration, doesn't really work and even if it did, wouldn't take long for the mycelium to go anarobic and die. One idea I heard is to just dump a truck load of wood chips in the stream, and let nature do the rest. At least that way you are not wasting energy making spawn. No idea if this works at all.
You can eat oil with oyster mushrooms, but it has to be at really low concentrations, and you probably burn more oil than you eat making the spawn. Natural bacterias eat oil too and they are everywhere.
Regarding Paul, he is a great salesman and ambassador, and he has gotten a lot of people into mushrooms. For that he deserves to be held in high regard. He is pretty cool in person. I do think he probably oversells his products, and that medicinal mushrooms shouldn't be sold as medicine until they are proven to work. Turkey tails have been proven to work (but not very much), and the rest of them are pretty much untested in large clinical trials. Mushrooms do make excellent placebos.
If you ask professional mycologists about Stamets or mycoremediation or medicinal mushrooms, they typically change the subject pretty quick, if they are feeling polite.
There are a ton of people doing mycoremediation trials, but almost no one scaling it up to solve real world problems. Every idealistic first year college mycology student wants to save the world with mushrooms, but by the time they get a PhD they are thinking very differently.
Tradd Cotter and Peter Mccoy are doing a lot of work with mycoremediation, but I notice that they are mostly making their money writing books and giving workshops/lectures rather than actually doing it. But they probably answer their emails and would be excellent people to talk to about details and new ideas."
And where exactly will the bacteria send the heavy metal?
"Bacteria have several methods of processing heavy metals through general resistance mechanisms, biosorption, adsorption, and efflux mechanisms. Bacillus spp. are model Gram-positive bacteria that have been studied extensively for their biosorption abilities and molecular mechanisms that enable their survival as well as their ability to remove and detoxify heavy metals. This review aims to highlight the molecular methods of Bacillus spp. in removing various heavy metals ions from contaminated environments."
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8402239/
He say mycoremediation barely works and then literally describes mycoremediation. "so maybe just mix in some substrate, turn the soil and let nature do the rest"
>Regarding mycofiltration, doesn't really work and even if it did, wouldn't take long for the mycelium to go anarobic and die.
Then a sentence later.
>I have no idea if this works.
You know why that is? Because he hasn't done it.
>medicinal mushrooms shouldn't be sold as medicine until they are proven to work
They do work. Very well. 1000s of years of human history and 1000s of clinical trials have proven it. I had never heard of Alen Rockefeller before now, but with that one statement makes me think he's either retarded or disingenuous in his opinion.
We're already all encountering this on a day to day basis at a background level. No reason to increase exposure.
https://m.youtube.com/watch?v=OLNagvJHl3g
I have some bad news for you. You do with every breath.
>They're known carcinogens
Depends on the mushroom. Many are actually anti cancer, but I'm going to to assume you meant breathing the spores. It's only a concern if you're in an enclosed space. Like a fruiting room full of oyster mushrooms.
>they could establish a latent infection. This is what fungi do.
Having a fungal infection isn't necessarily bad thing. YOU have a fungal community in and on you right now. They're protecting you even as you read this. It's been shown that inculating trees with chaga mushrooms can prevent infections from other more aggressive parasites and blights. Fungi are your friends. Oyster mushrooms aren't going to infect you. If anyone would, I'd put my money on cordyceps. And those aren't used for mycorestoration.
>We're already all encountering this on a day to day basis at a background level. No reason to increase exposure.
Gonna have to disagree. Humans are responsible for completely fucking the mycelial mass of earth. We knocked a big cog out of the carbon cycle through mass development of the land, mass use of pesticides, fungicides, and fertilizers. Pavement everywhere. And we absolutely need to fix it. Good news for you though, people are working on sporeless strains of fungi used in mycorestoration. Soon your worries will be irrelevant.
https://en.wikipedia.org/wiki/Radiotrophic_fungus
Wouldn’t digesting the house release more co2 to the atmosphere than just burying it in an anaerobic landfill?