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DoomsdaysCW

As a few folks have pointed out, this post is filled with inaccuracies. Please read the replies in the thread!

From "This Day in History" on FB:

"She left civilization to live in the forest with a lynx, a wild boar, and a thieving crow. Scientists called her crazy. She proved them wrong.

In 1975, a young Polish scientist named #SimonaKossak made a decision that baffled everyone who knew her.

She had a doctorate. She had credentials. She came from one of Poland's most prestigious artistic families—her grandfather was Wojciech Kossak, the legendary painter whose work hung in museums.

She could have had a comfortable university position. A modern apartment in Warsaw. A conventional career studying nature from a safe distance.
Instead, Simona packed a single bag and walked into the #bialowiezaforest . And she stayed there for thirty years.

Białowieża is no ordinary forest. It's the last remaining fragment of the primeval wilderness that once covered all of Europe—ancient, untouched, older than recorded history. Trees there grow so tall they seem to hold up the sky. Wolves still howl at night. European bison, extinct almost everywhere else, roam freely. It's the kind of place where you can still hear what the world sounded like before humans started building cities.

Simona found a small wooden cabin deep in the forest's heart. No electricity. No running water. No neighbors for miles.
Just trees. Silence. And the wild things.
Most people would have lasted a week.

Simona lasted decades.

But she wasn't alone.

She shared her bed with a lynx named Żabka. Not a pet—lynxes can't be pets. But Żabka had been orphaned as a cub, and Simona raised her. The massive cat would curl up beside her at night, purring like distant thunder.

She rescued a wild boar named Żabka who followed her through the forest like a devoted dog, grunting softly when she spoke.

And then there was Korasek. Korasek was a crow—but not just any crow. He was brilliant, mischievous, and absolutely devoted to chaos. He'd dive-bomb cyclists riding through the forest, steal shiny objects from tourists' pockets, and bring Simona "gifts": coins, buttons, pieces of foil.

He'd sit on her shoulder while she worked, cawing commentary on everything she did.

The locals whispered that Simona was a witch. How else could you explain it? Animals followed her. Birds landed on her outstretched hand. Deer approached without fear.

She spoke to them, and somehow, impossibly, they seemed to understand.
But Simona wasn't casting spells.
She was listening.

Most people walk through nature talking, making noise, asserting their presence. Simona did the opposite. She learned to move quietly, to observe patiently, to let the forest teach her its rhythms.

She studied animal behavior not from textbooks, but by living among them. She documented species that had never been properly observed. She proved that wild animals weren't just instinct-driven automatons—they had personalities, emotions, complex social structures.
Her research changed how scientists understood wildlife.

But her most important work wasn't in journals.

It was in the forest itself.

Because while Simona was studying nature, others were trying to destroy it.
#LoggingCompanies wanted to cut down the #AncientTrees. Developers wanted to build roads through the #wilderness.

Bureaucrats argued that the forest was "too wild," that it needed to be "managed," controlled, made productive.

Simona fought them all.

She wrote letters. She filed lawsuits. She gave interviews where she spoke bluntly about what would be lost if the forest fell.

She stood in front of bulldozers.
She made powerful enemies.
She didn't care.

"This forest has survived for ten thousand years," she'd say. "Who are we to decide it should end on our watch?"

Her cabin became a symbol. Journalists came from across Europe to photograph the woman who lived with wild animals. Documentaries were made. Her story spread.

And slowly, the tide began to turn.
Public opinion shifted. International pressure mounted. UNESCO got involved. The ancient forest, in large part because of Simona's tireless advocacy, gained greater protections.

The trees she loved were saved.
Simona Kossak lived in that cabin until 2007, when illness finally forced her back to the city. She died in 2007, at the age of 71.

But her legacy didn't die with her.
Today, Białowieża Forest stands as one of Europe's last true wildernesses—a living monument to what the continent once was. Tourists walk trails where Simona once walked with Żabka the lynx. Bison graze in meadows she fought to protect.

Scientists still study the forest using methods she pioneered.

And somewhere in those ancient trees, maybe, a descendant of Korasek steals something shiny from an unsuspecting hiker.

Simona Kossak proved something the modern world desperately needs to remember:

That you don't have to choose between science and intuition. Between civilization and wilderness. Between being human and being part of nature.

She proved that sometimes the most rigorous science comes from simply paying attention. That the deepest understanding comes from respect, not dominance.

She proved that one person, living authentically and fighting fiercely for what they love, can change the fate of an entire ecosystem.

They called her a witch because she spoke to animals.

She called herself a scientist because she listened.

And she spent thirty years in a cabin without electricity, surrounded by wild things, protecting an ancient forest from a modern world that had forgotten how to be still.

Simona Kossak wasn't running away from civilization.

She was protecting something far more valuable than anything civilization could offer.

And because of her, that forest still stands."

Source:
facebook.com/thisdayinhistry/p

#Rewilding #NatureLover #CitizenScientist #Nature #SaveTheForest

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Mauve 👁💜

Finally gonna see if my 15 year old document scanner will work on Linux 🤪

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Mauve 👁💜

I'm so slow when typing with my twiddler keyboard but I can at least type full sentances now. With like 30% error rate and 8 WPM 😅

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Gordon J Holtslander

Income inequality is at record levels harming ordinary Canadians, this budget does nothing but hurry inequality along.

“Despite the government bemoaning the lack of necessary tax revenue while the ultra-rich pay just over half the effective tax rate the average Canadian pays, this budget neither generates needed revenue by increasing taxes on the wealthy and mega-corporations, nor reduces the tax burden on lower-income Canadians

“We’ve seen this movie before. For over four decades, we have tried austerity and corporate tax cuts. It ends with stagnating wages, soaring cost of living, skyrocketing inequality, and crumbling public services. It is time for a better way forward that puts everyday Canadians at the centre of their own economy,” ”

#cdnpoli

taxfairness.ca/en/media/releas

cbc.ca/news/politics/statistic

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Mauve 👁💜

Biology is magical

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Mauve 👁💜

Prolapsing code paths and rewiring their guts.

😉👍

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nasser

hope everyone in new york is having a very communist morning today

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MikeDunnAuthor
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NextGraph

For the first time this year, the FOSDEM conference will host a devroom for Local First, CRDTs and sync protocols and sync engines. @fosdem is the biggest FOSS conference in Europe.
This is a great opportunity to show your work, and meet other developers interested in Local First software.
The CfP is now open and will be for a full month. Don't delay and submit your talk, demo, keynote soon.

openlocalfirst.org

Looking forward meeting you all in Brussels at the end of January 2026

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MostlyHarmless

Remember: Behind every robot that turns evil is an engineer who specifically installed red LEDs into the eyes just for this occasion.

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Mauve 👁💜

If I eat enough cat food will I grow ears and a tail?

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Mauve 👁💜

Having cats means you sometimes gey woken up by a claw in your foot because it triggered their kill instinct under the comfortor. At least I'm getting my day started earlier. 😵

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Mauve 👁💜

Thankful for the rng gods blessing me with warmth and dryness tonight.

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Mauve 👁💜

Damn I really got it right with this one

Show thread
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Mauve 👁💜

Full moon tomorrow. Brace yourself.

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JA Westenberg

Twitter (etc) makes everyone think society is way more extreme than it is because the 2% who are actually passionate about [issue] tweet 40 times a day while the 98% who don't care tweet zero times. Democracy by retweet is just the tyranny of whoever has the most free time.

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Niko McCarty.

Rubisco is (arguably) the most abundant protein on Earth. (LPP surely comes close, right?) It’s an enzyme that fixes CO₂ into sugars during photosynthesis.

Unfortunately, as most people learn in school, Rubisco is inefficient. Sometimes it confuses O₂ for CO₂ and wastes energy. Plants make up for this in raw concentration; up to half the soluble protein in a leaf is Rubisco.

People have been trying to engineer better Rubiscos for many decades, but it's not easy because the proteins are big, do not fold easily (they need chaperone proteins to help out), are made from 16 subunits in land plants.

But there's a new paper in Nature Plants that looks really interesting. The TL;DR is that a group in Australia figured out how to express plant Rubiscos (and all SEVEN of their folding chaperones) using a set of 3 plasmids inside of E. coli cells. This enabled them to do "directed evolution" of Rubisco in bacterial cells, and quickly find Rubisco mutants that have higher enzymatic efficiency or that fold better.

In addition to the 3 plasmids, the researchers also coaxed E. coli to make ribulose-1,5-biphosphate, or RuBP, which is the 5-carbon sugar that Rubisco smashes into carbon dioxide to make molecules of 3-PGA for central metabolism.

Now, the clever bit is that you RANDOMLY MUTATE the three plasmids encoding the Rubisco to make millions of variants. Then, you transform those mutated plasmids into E. coli. If the E. coli do NOT make a functional Rubisco, RuBP levels build up and kill the cell; the molecule becomes toxic. But if the E. coli DO make a functional Rubisco, then they keep the RuBP levels in check and live just fine.

Using this "screening assay," the researchers found 46 fast-growing colonies of E. coli. Two of those colonies encoded really useful mutations. One mutation (M116L) makes Rubisco about 25–40% faster. The other (A242V) makes it fold and assemble much more efficiently.

They put this mutation into a "hybrid Arabidopsis–tobacco Rubisco," put that into tobacco plants, and measured growth. The plants with M116L grew 75% faster than wildtype.

No guarantees this will scale to more useful crops, like wheat and corn and soybeans etc. But it seems like a nice in vitro assay for faster prototyping!

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Mauve 👁💜 boosted
Niko McCarty.

This is one of the most underrated papers from the last few months.

TL;DR: MIT scientists engineered bacteria that can be seen from hundreds of feet away, using drones or satellites, with hyperspectral cameras.

Here is how they did it.

> First, they filtered through a database of ~20,000 small molecules that organisms, across all kingdoms of life, naturally make. They calculated the electron density for each molecule to predict how each one would absorb light (both visible and infrared). In other words: if you shine white light on the molecule, they predicted the wavelengths that will be absorbed, and how strongly.

> These molecules were filtered down to those with really unique light absorption spectrums. The scientists also used computational methods to figure out how many enzymes a bacterium would need to make each molecule (fewer enzymes is better, because it's easier to engineer). The two best options were biliverdin IXα and bacteriochlorophyll a. Both of these molecules have ring structures that strongly interact with near-infrared light.

> Third, they made a hyperspectral detection algorithm. The algorithm separates the molecular signals from background "noise" in hyperspectral images. Each pixel was treated as a mix of background spectra plus, if present, the reporter molecule's fingerprint, which appears as missing light at certain wavelengths. By clustering pixels to define backgrounds and then solving for how much reporter signal best explained each pixel, they could figure out where engineered bacteria were located.

> Next, they put it all together. They engineered microbes to sense explosives and then biosynthesize biliverdin IXα in response; a living biosensor. They buried these microbes near explosives and then flew a drone overhead to see if they could spot them. (This was done with the military, iirc.)

> They used the drone to take a picture of one acre of space, covering ~4000 square meters. They were able to figure out where the bacteria were buried with a limit of detection of less than 4 million colony-forming units per squared centimeter.

This paper is more practical than it may seem, too, because hyperspectral cameras are already mounted on some satellites. And it is entirely feasible to see the locations of bacteria not only via drones, but also using satellites orbiting the Earth at much further distances (provided we can optimize these sensors even more.)

In short, these hyperspectral reporters are a long-range way to do environmental biosensing. You could, in principle, engineer bacteria to detect pathogens in soil, explosives in a warzone, or even bioleaks and then emit these hyperspectral reporters. We could use existing satellites, or launch new satellites, to monitor them from afar.

Thanks for reading.

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Mauve 👁💜

Feeling an evil glee from this code. I've gotten this "Corestore" module to replicate cores from two different versions by instantiating the old core version manually and injecting them into the map used by the corestore to track what it's already opened.

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Mauve 👁💜

Tracks to do ungodly things to codebases to.

soundcloud.com/vslnko/banka

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