Written by Caroline Williford: a Letter and Poem, from North Carolina to Thacker Pass. Caroline outlines her concerns regarding Lithium Mining. Regardless of whether the minerals are used for fossil fuels or for electric vehicles, as far as the natural world is concerned, any form of industrial mining is as destructive as the other. We strongly believe it is of utmost importance to shift our allegiance from these destructive industries to the natural world.
Featured image: Pictured here is the Foote mine, a large open-pit lithium mine in spodumene pegmatite, located on the south side of the town of Kings Mountain, North Carolina. The Foote mine project was initiated in 1938. This photograph was taken in 1983. 45 years later. The photograph shows the mine viewed from its western rim looking east toward the Pinnacle of Kings Mountain. For those curious as to what an open-pit lithium mine in Thacker Pass might look like after its 40 year run, this may give you an idea. Photograph by J. Wright Horton, Jr., U.S. Geological Survey.
On Thursday, February 11, 2021, a court decision overturned the Trump administration action that would have allowed mining, primarily for fossil fuel projects, on 10 million acres of previously protected land in western states. This decision sounds like a triumph, halting potential mining projects and preserving threatened habitat that would otherwise have been destroyed. This ruling sends the message that mining processes that harm the environment are unacceptable.
Unfortunately, this ruling is aimed only at fossil fuels.
What about the mining project at Thacker Pass, in Nevada, approved in the eleventh hour of Trump’s presidency, that still has the green light? The 5,700 acres of also previously protected land, now currently slated for mining, that would be destroyed for the extraction of lithium?
This lithium would be used in lithium-ion batteries for electric vehicles and as storage for renewable energy. Because of this, the destruction of Thacker Pass is being described as “green.”
If you start to dig into what it means to construct an open-pit lithium mine on a piece of land, you will learn that there is nothing green about it. The Thacker Pass mine would burn some 11,300 gallons of diesel fuel per day, the carbon emissions from the site would ultimately exceed 150,000 tons per year, and producing one ton of lithium would require strip mining and processing of up to 500 tons of earth. Tons of sulfuric acid would be produced every day, in addition to other harsh chemicals that could leach into the groundwater. The project would require over 1.7 billion gallons of water annually from a local aquifer which is already over-allocated. The effect on native wildlife and vegetation would be catastrophic, including species that are rare and already en route to extinction.
This is the native, ancestral, sacred land of Paiute and Shoshone people.
Such a project may provide job opportunities for some locals, but for all locals it would impact air and water quality for future generations. This mining project would continue for four decades. The project that begins at 5,700 acres could expand over time to 17,000 acres, which could triple all numbers mentioned here. Furthermore, the Thacker Pass lithium mine is just the tip of the proverbial iceberg. On February 24, 2021, an executive order was put into place by the current administration that could potentially unleash a whole new era of lithium mining in the US.
My question is, why is it acceptable to mine for this purpose, for lithium, if the well-being of the earth is our actual concern? It is mining all the same. This is not actual change. It is more of the same. More destruction, more extraction and decimation, and for what purpose? Continuing a way of life that perpetuates a depletion of the earth’s resources and a number of species that also make this planet their home? Must we destroy the earth in order to save it? Where is the common sense in this equation? We are doing ourselves in. We are not thinking outside of the box. We are on one hand condemning mining efforts for fossil fuels due to the negative impact on the environment, and on the other hand not only advocating mining for lithium, but championing it, pushing it forward to the front of the room under the name of clean and green, all the while hiding its own equally catastrophic impacts on the environment in the periphery.
It’s capitalism and consumerism bullying ahead with an agenda that prioritizes profit over the critical thinking and sound decision making that could actually set us on a path to take care of the earth, rather than destroy it, as we attempt to save it.
Simply said: it’s greenwashing.
As someone who has been a part of the environmental movement for the majority of my life, I hate having to form that word upon my tongue, and to acknowledge such a divide among those of us who would otherwise be unified in a purpose to preserve the well-being of the earth. And yet, that word is upon my tongue, and it’s bitter. Yes, I can agree to forward-thinking actions to protect our environment, but not to those that require further destruction. We are already so far behind. We are already in the midst of a literal sixth mass extinction event on the planet, and this time it is driven by us, human beings. As one of those human beings, I want to do things differently this time.
I am not going to jump on the bandwagon of lesser evils. I am not going to believe the claim that an action is green or clean, unless I can dig all the way to the depths of it and find that it fully honors life just as it is at this moment and it requires no further assault in order for us to move forward. I ask that we do better this time. Lithium mining is not the answer. And, I am here making this statement: I do not support lithium mining, anywhere. I do not support lithium mining at Thacker Pass.
I want to protect Thacker Pass.
I have been following the efforts of Protect Thacker Pass from North Carolina over the last month, and the more I’ve learned about the mining project, the more appalled I’ve become. I had no idea what lithium mining entailed a few months ago. I’ve entered into one long conversation after another, sharing what I’m learning with friends, and with each conversation I’ve observed yet another person, like myself, waking as if from a deep slumber, shaking their head, astonished, and asking endless questions. How did we not know about lithium mining? How did we get so disconnected from the goings-on in the world that we no longer see what is actually happening around us, or ask the critical questions of how things are actually made? Such as, what does it take to make a lithium battery? And why do some people care while others do not? I can’t answer these questions for anyone else and so I am looking at myself.
Have I been asleep? Is it too late? How did I get to a place of such complacency and blind trust, that I stopped actively looking at the world around me, really looking? Looking in the way that matters. And, what can I do about it, now? When I can’t find answers any other way, I sit down and write. What follows is my attempt at answering these questions in my relationship to Thacker Pass. What I ultimately discovered is this: now is the time for action, and it’s time to go to Thacker Pass.
***
Now is the Time
It seems to me that there are many ways of looking at the world.
There is the way of looking when we are caught
layers deep
in our stories
of yesterday’s confoundments
of tomorrow’s yearnings
to the extent that we simply cannot see
one inch beyond
where our glazed over eyes might meet the world.
And there is the way of looking
when the rug has suddenly been pulled out ruthlessly, beneath us
and we are searching
eyes keen as eagles
for the thing that has just been lost. How could we not have seen this coming?
Everything is seen painfully anew.
What is now missing like a holy gap,
a tear in the great fabric of the world.
The loss pounds our gut with regret.
And there is the way of looking
that is now
without the stories clouding view. The moment before the thing is lost.
The one that is in fact here, everyday upon waking
if we take up its humble, quiet call.
It requires us to participate.
To shelve the stories.
To get down on our knees and see the world before us.
Really see it.
Every fine tuned rake of the sand, marked
by the talons, hooves, and claws that daily grace this place.
And perhaps the call is not quiet at all.
But a continuous, piercing cry.
The kind of which we as humans may think we cannot hear, may claim
we cannot hear, like other animals.
But we can. If we just lean in. Closer.
Now.
This is the time before.
The imminent hour.
When the stories are rising up,
teeming and swelling and clamoring
to be heard before it’s too late.
This is the time of choice. When we can choose something different than before.
Trading one heartless destructive act for another is not the way.
Destroying in order to save.
Not the way.
The lesser of two evils.
Not the way.
Is this really the only choice we have to make?
No.
We limit ourselves.
Perhaps we are so smothered by the din of
our culture’s mighty noise
that it’s hard to hear. It’s hard to see.
But we owe it to the earth to which we belong
to take off the blinders, to quiet a moment, and listen
to the urgent message being issued forth: please just stop.
Stop mining.
For any reason: coal, oil, lithium.
Not for fossil fuels, not for supposed clean energy.
This is not clean energy.
Drilling into the earth to break, leach and deplete
the elements that make up our very foundation.
Displacing the native inhabitants of a place,
greater sage-grouse already in their ongoing dance with extinction,
pygmy rabbits, golden eagles, pronghorn antelope,
from the burrows in the ground to the nests arching up in the sky.
Poisoning the water as far as 150 miles downstream.
Depleting the water supply of the driest known state in our entire country.
Leaving the land scarred, barren, empty, parched, destroyed.
I want to live this way, and this way only:
Stirred from sleep each waking day
with an ear to the world’s whisperings,
loyal to its call to hear and think critically
outside of the green washings of capitalism and industry
where the solutions are tinged with blood, death and loss.
I want to walk my feet out the door and help trace lines around
that which is mapped for destruction
which we have somehow forgotten is also our very destruction,
our death, our loss.
I don’t ever want to forget that we are one and the same.
We, and this earth beneath our feet.
The only difference between us, the rivers, the mountains,
and the other creatures of this vast place
is the voice with which we speak.
The cadence, the language.
We as humans hold a lot of power, too much, with what we choose to say, and when.
Our voices are crucial.
So I’m going to offer mine up, and say right here:
STOP.
Upon the Proposed Mining of “Thacker Pass, Nevada”. A poem by Sarah Gar, a visitor to the land of the Paiute and Shoshone people and the sagebrush creatures.
It’s quiet here.
And I’m not talking
about experimental silence,
American guru silence,
or any sleek human site
that seeks inner peace
(and other noise)
to drown out the drawing-down
and drying-up of every sacred thing.
I’m talking about silence
of lands beyond witness,
a silence embedded and embedding,
the one nestling in the nighthawk’s cries
and cradling these words.
Tall sagebrush touches it —
4 feet 33 millimeters
of branching space,
where voice and silence
play by listening,
weaving water and light
without worrying who
appears as what
before whom.
It’s as if nothing can be said
to arrive or leave in wild places.
Even our breath cannot be said
to enter this place
where it meets other selves
always here and already inside.
But when Grandmother comes,
wakes the fire with practiced taps,
the flames flare in reminder
of whose Spirits keep this place.
Even in “deserted” places
dry soil knows to gather
soft and firm around water,
forming delicate strata
to nourish roots
and catch the drifting seed.
We, too, know to gather,
asking if we are also this place,
and if so,
how we can return.
To get here
we must track ourselves
by species memory,
a long way back,
to when losing one’s way
first became possible.
We trace back to the end’s beginning,
when the volume had to rise,
to create an endless diversion,
to mask the pesky screams
of women and slaves.
Yes, we tracked ourselves,
even did a blood spatter analysis.
A few facts emerged to tell us:
We are the losing and the lost.
There’s nothing lonelier than empire, and nothing stranger than killing one’s beloved.
These facts cleared the room.
Even history couldn’t erase them.
The clock ticked.
Corporations continued to cut down the ancient ones.
And so we rose, rotating and revolving
pulled forward by the falling-apart feeling
which is love.
This must be love because,
as sung by Paiute and Shoshone,
danced by pronghorn and coyote,
this place would hold forever,
streams passing
through trouts’ gills,
sun glancing off scales
and into eagle’s eyes
as she watches over.
Past and future
would nest together,
quiet as grouse eggs,
speckled and constellating,
in tacit reference to each other.
Birth and death would spiral together,
strong and fragile as pyrg shell,
and we would learn again
to listen and to hold
this language,
the spinning of the silence
that found us first,
soft as jackrabbit,
buried as bones,
strong spines of sage
and mountain song.
As a former English professor from the East Coast, Sarah now focuses on writing and activism in the Pacific Northwest. Her poetry grieves patriarchal and colonial violence, summons reverence for the natural world, and upholds matriarchal cultures which cherish life.
In this latest video from Thacker Pass, Max explains why he is protesting against lithium mining for the so called green energy.
Featured image: Pygmy rabbit by Travis London
The small Pygmy rabbit is Thacker pass and Thacker Pass is Pygmy rabbits. This small rabbit is a target of many predators at Thacker Pass. The rabbits find their refuge in the form of the sagebrush plant or in the burrows that it makes in deep, soft soil. Much like the sage grouse, the pygmy rabbit relies on sagebrush not only for protection but for more than 90%. of its diet. The pygmy rabbit requires large expanses of uninterrupted shrub-steppe habitat. Unfortunately, right now the pygmy rabbit faces many threats. Conversion of indispensable sagebrush meadows for agriculture and development for oil and natural gas extraction, and now the lithium boom, are depleting an already fragile ecosystem. One more reason to resist.
For the past 25 days, there has been a protest camp set up behind me, right out here. This place is called Thacker Pass, in Northern Nevada, traditional territory of the Northern Paiute and Western Shoshoni.
This area here is the proposed site of an open pit lithium mine, a massive strip mine that will turn everything into a heavily industrialized zone.
This site, right now, is an incredibly biodiverse Sagebrush habitat. There are Sagebrush plants over a hundred years olds, cause it’s oldgrowth Sage. There’s Sage-Grouse. This is part of the most important Sage-Grouse population left in the entire state, Around 5-8 percent of the entire global population of Sage-Grouse live right here.
This is a migratory corridor of Pronghorn. One of the members of the occupation saw about 55 Pronghorns in an area that would be destroyed for the open pit mine.
There are Golden Eagles here, multiple nesting pairs. We’ve seen them circling over head. We’ve seen their mating flights, getting ready to lay their eggs in the spring.
There are Pygmy Rabbits here. There are Burrowing Owls. There are Gopher Snakes and Rattle Snakes. There’s Rabbit Brush. There’s Jack Rabbit.
There’s Paragon Falcon, or actually the desert variant of the Paragon Falcon, what’s known as the Prairie Falcon.
There are Mule Deer. We see them feeding up on these hills. There are Ringtail living behind this cliff behind me. There are Red Foxes. There are Kangaroo Mice. There are an incredible variety of creatures that live here. Many of whom I don’t know their names.
All this is under threat to create to create an open pit mine for lithium. To mine lithium for electric car batteries, and for grid energy storage to power these “green energy” transitions.
I’m not a fan of fossil fuels.
I’m not a promoter of fossil fuels. I’ve taken direct action for many years against fossil fuels. I’ve fought tarsands in Canada. I’ve fought tarsands pipelines in the US. I’ve fought natural gas pipelines, methane pipelines. I’ve stood on front of heavy equipment to block tar sands and fossil fuel mining in Utah. I’ve stood in front of coal trains to stop them from moving forward, to try and blockade the industry. I’ve fought the fossil fuel industry for many many years and will continue to do so.
What we need to recognize that the so called green energy transition that is being promoted is not a real solution. That’s why we’re out on the land. This is the place that is at stake right now. This is the place that is up to be sacrificed for the sake of this so-called green energy.
It was about a 175 years ago that the colonization of this region really began in earnest. That was when the first European settlers started coming across in Nevada. really setting up shops out here, in the mid-1800s. They mostly came for mineral wealth. They came for the gold, the silver. They came for mining. Nevada has been a mining state from the very beginning, and mining still controls the state.
I’ve spoken with some of my Shoshoni friends, my Goshute friends about the history of this: the invasion for mining. What happened was, the settlers came and they forced the indigenous population onto reservation. And they cut down the Juniper trees and the Pinyon pine trees. These were the main sources of medicine and food for many of the Great Basin Indigenous Peoples. I’ve heard it said that the Pinyon pines were like the Buffaloes to the Indigenous People out here.
Just like in the Great Plains, the settlers destroyed the food supply of the indigenous people. They forced them to participate into colonial economy using this violence. They forced them to participate in the capitalist system, in the mining system, in the ranching system. People were going to starve otherwise.
What happened in the mid 1800s was that men with guns came for the mountains. They started digging them out, blowing them up, turning mountains into money, carding that money away, and leaving behind a wasteland. That’s what’s been happening in Nevada ever since. It hasn’t stopped. That’s what we’re gonna see here unless it’s stopped.
The Lithium Americas Corporation, Canadian mining company that wants to build this mine: they raised 400 million dollars in one day a few weeks ago to try and build this mine.
Meanwhile the grassroots struggles to raise a few hundred dollars to help support people coming out here, camping, getting supplies, getting things we need, the travel to get people here. The camp is about a mile or mile and a half from here. There’s about seven or eight people out there.
We need more people to come out to camp. We need people to join us, to draw the line, to hold the line against this mining project.
It’s not just about this project here. I was at a panel discussion recently with some folks from the Andean Altiplano, what’s called the lithium triangle in South America. Argentina, Bolivia and Chile have this high desert region where the three countries meet. It contains about half the world’s lithium reserves. Lithium mining has been going on there for decades and it’s left behind a wasteland.
Indigenous People have been kicked out of their land. They’ve been dispossessed. Their lands have been poisoned. Their water has been taken.
Water usage is one of the major issues there, because it’s an extremely dry place, just like here. Nevada is the driest state in the US. And they wanna pump 1.4 billion gallons of water and use it to refine the lithium into its final product. 1.4 billion gallons a year.
The Queen River in the valley is already dry. The water’s already being overused.
You go back 200 years and there would be water there. There would be beaver dams. There would be fish. There would be wildlife in abundance.
This land is already in an degraded state compared to where it used to be, compared to where it needs to be.
The atrocities associated with this mine go on and on. This is an important cultural site for the Indigenous People of this region. This has been a travel corridor, through what’s now called Thacker Pass for thousands and thousands of years, an important gathering side. If you walk across this land, there’s obsidian everywhere across the ground. There’s all kind of flakes on the other sides of valleys, where indigenous people would gather obsidian and use it to make tools
This has been an important place for thousands of years.
Shoshoni signed a treaty, but they never ceded their land to the United States.
This is unceded land.
The Western Shoshoni never gave away their land. The US does not have legal title to this land. And the US government rejects that. They have appropriated something like a 175 million dollars, and set it aside to give it to the Western Shoshoni, if they will agree that the land was given to the United States. The Western Shoshoni has said “No. We won’t take your money. We want the land.” They have been fighting this fight for decades.
This is unceded territory. This land does not belong to the Bureau of Land Management. This land does not belong to the federal government.
This land belongs to the inhabitants of this land, people whose ancestors are in the soil. I don’t just mean humans. This land belongs to the Sagebrush, and the Pygmy Rabbits, and all those who have
Why don’t their voices get a say? Why don’t we take their preferences into account? What do you think they would say if we ask them, “Can we blow this place up?”
If Lithium America showed up and sincerely asked the Burrowing Owls, and the Sage-Grouse, and the Coyotes, and the Pronghorn Antelopes, “Can we blow up your home? Can we blow it up? Can we turn it into dust? Can we bathe the ground in sulfuric acid to extract this lithium which we’ll take away and make people rich, leaving behind a wasteland? Do we have your permission to do this?”
What do you think the land will say? What do you think the inhabitants will say? Do you think they will say it’s green? Do you think they’ll say:
“This is how you save the planet, by destroying our home?”
I think this is an important issue, not just because of what’s happening here, but because of what it means. Because of what it symbolizes.
When I was a young person, I was very concerned about what was happening to the planet. I was very concerned about the ecological crisis: the rainforest being chopped down, global warming, ocean acidification, the hole in the ozone layer.
I care about these things. I’ve cared about them ever since I was a little kid.
It’s hard to be a human being and have a heart, and not care about it unless you’re broken in some way.
I wanted to figure out what could be done. So I started reading about these issues. And of course what I was taught from a very young age was that solar panels and electric cars were going to save the world. That’s what I learned. That’s what the green media taught me. They taught me implicitly it’s okay to sacrifice places like this. They taught me it’s okay to sacrifice places like this if it means we can have electric cars instead of fossil fuel cars.
We don’t need cars at all. That’s the thing. And this is a hard message for people to hear because people don’t want to be told No. We’re not used to being told No in this culture. You can’t have that. It’s not okay for us to continue in this way.
We’re not used to this message. We’re used to getting whatever we want, whenever we want it.
That’s for the most part across the board. The average person in the American society lives with the energy equivalent of a hundred slaves. We live a life of luxury, like we had a hundred slaves working for us for twenty four hours.
That’s what the fossil fuel has brought to the modern era. That’s what this energy glut has brought to us. This mindset that we could have whatever we want, whenever we want. That’s something we need to get over. That’s something we need to change.
For the past five or six years, I was working on a book called Bright Green Lies: How the Environmental Movement Lost It’s Way and What We Can Do About It. My co-authors and I, in this book, really dive into these problems with details of the so-called green technology in great details. Things like solar panels, wind turbines, electric cars, energy storage, batteries.
Not only these things, but a lots of the other “solutions” that are accepted as dogma in the environmental movement, like dense urbanization. We debunk these things in the book. These things are not going to save this planet. We can’t get around the problems we have found ourselves in.
We’re in a conundrum. This culture has dug itself into a very deep hole.
A lot is going to need to change, before we find ourselves in any resemblance of sustainability, of sanity, of justice, of living in a good way.
Earlier, I came around the corner in the mountains, and it felt like a punch in the gut because I had the premonition of no longer seeing this swab, this rolling expanse of old-growth Sagebrush, but of seeing an open pit. Seeing a mountain of tailings, of minewaste, of toxified soil. I had the premonition of seeing a gigantic sulfuric acid plant and processing facilities all through what is now wild. Where the Foxes run, where the Snakes slither between the Sagebrush, where the Golden Eagles wheel overhead.
That’s why I’m here to fight. I don’t want to see this turn into an industrial wasteland.
I don’t think many of us do. I think a lot of people are befuddled and confused by all these bright green lies. A lot of people buy into this crap. But a lot of people don’t. A lot of people understand that we need to scale down. A lot of people understand that we need to reduce our energy consumption, that we need to degrow the economy. That the latest and greatest industrial technology isn’t going to save us, magically.
This isn’t a tooth fairy situation, where electric cars will appear under our pillows and save the day. A lot of people understand this. That’s why for me, a big part of the battle is not education. A big part of the battle is power. A big part of the battle is actually stopping them.
Written By Max Wilbert and originally published on January 25, 2021 in Sierra Nevada Ally. In this article Max describes the plans for an industrial scale lithium mine, the harm this will cause and why we need to protect the area for endangered species.
Thacker Pass landscape. Image: Max Wilbert
On January 15th, my friend Will Falk and myself launched a protest occupation of the proposed lithium mine site at Thacker Pass, Nevada. We have set up tents, protest signs, and weathered more than a week of winter weather to oppose lithium mining, which would destroy Thacker Pass.
You might already be wondering: “Why are people protesting lithium? Isn’t it true that lithium is a key ingredient in the transition to electric cars, and moving away from fossil fuels? Shouldn’t people be protesting fossil fuels?”
Let me put any rumors to rest.
I am a strong opponent of fossil fuels and have fought against the industry for over a decade. I’ve fought tar sands pipelines, stopped coal trains, and personally climbed on top of heavy equipment to stop fossil fuel mining.
Now I’m here, in northern Nevada, to try and stop lithium mining. That’s because, in terms of the impact on the planet, there’s little difference between a lithium mine and an open-pit coal mine. Both require bulldozing entire ecosystems. Both use huge amounts of water. Both leave behind poisoned aquifers. And both are operated with massive heavy machinery largely powered by diesel.
The encampment at Thacker Pass. Image: Max Wilbert
I want people to understand that lithium mining is not “good” for the planet.
Sure, compared to coal mining, a lithium mine may ultimately result in less greenhouse gas emissions. But not by much. The proposed Lithium Americas mine at Thacker Pass would burn more than 10,000 gallons of diesel fuel every day, according to the Environmental Impact Statement. Processing the lithium would also require massive quantities of sulfur—waste products from oil refineries. One local resident told me they expect “a semi-truck full of sulfur every 10 minutes” on these rural, quiet roads.
This is not a “clean transition.” It’s a transition from one dirty industrial energy source to another. We’re making the argument for something completely different, and more foundational:degrowth. We need economic contraction, relocalization, and to stop using and wasting so many resources on unnecessary consumer products.
When people think about wilderness and important habitat, they generally don’t think of Nevada. But they should. Thacker Pass is not some empty desolate landscape. It’s part of the most important Greater sage-grouse habitat left in the state. This region has between 5-8% of all remaining sage-grouse, according to Nevada Department of Wildlife and BLM surveys.
Thacker Pass is home to an endemic snail species, the King’s River pyrg, which biologists have called “a critically imperiled endemic species at high risk of extinction” if the mine goes forward. Burrowing owls, pygmy rabbits, golden eagles, the threatened Lahontan Cutthroat Trout, and hundreds of other species call this place home, watershed, or migration corridor.
Thacker Pass is home to important old stands of Big sagebrush who are increasingly rare in Nevada and threatened by global warming.
One biologist who has worked in Thacker Pass, and who asked to remain unnamed for fear of retaliation, told me the Thacker Pass area “has seen the rapid decline of native shrubland/bunchgrass communities that form the habitat foundation.” He continued, “Those communities (particularly sagebrush) are already under tremendous stress from the dual-threat of invasive annual grasses (especially cheatgrass) and the increased fire returns that those volatile fuels cause.”
Now the BLM is permitting Lithium Americas corporation to come bulldoze what is left, tear away the mountainside for some 50 years, and leave behind a moonscape.
We are engaging in direct action and protest against this mine because the public process is not working. Despite sustained opposition, BLM ignored serious concerns about this mine and “fast-tracked” this project under the direction of the Trump Administration. We mean to stop the mine with people-power.
If you are interested in joining us, visit our website, to learn more about getting involved. And speak out on this issue. We can’t save the planet by destroying it. Transitioning away from fossil fuels and fixing humanity’s broken relationship with the planet will require a more critical approach. Follow
In 1915, General Electric released a silent promotional film titled The Home Electricaloffering a glimpse into a gleaming, frictionless future. The film walks viewers through a model electric home: lights flicked on at the wall, meals cooked without fire, laundry cleaned without soap and muscle. A young wife smiles as she moves effortlessly through her day, assisted by gadgets that promised to eliminate drudgery and dirt. This was not a documentary—it was a vision, a fantasy, a sales pitch. At the time, only a small fraction of American households had electricity at all, and nearly 90% of rural families still relied on oil lamps, wood stoves, hand pumps, and washboards. But the message was clear: to be modern was to be electric—and anything less was a kind of failure.
At the dawn of the 20th century, electricity was still a symbol of wealth, not a tool of survival. Most urban households that had it used it only for lighting; refrigeration, electric stoves, or washing machines were luxuries among luxuries. In rural America, most farms and small towns remained off-grid through the 1920s. The electric grid simply didn’t go there. Private utilities, driven by profit, had no interest in building costly infrastructure where it wouldn’t quickly pay off.
And yet, propaganda told a different story. In magazines, World’s Fairs, and promotional pamphlets, electricity was shown as the cornerstone of health, cleanliness, efficiency, and modern womanhood. Electric appliances promised to save time, reduce labor, and lift families—especially women—into the new century. But this future was just out of reach for most people. A growing divide opened up: between those who lived by the rhythms of sun and fire, and those whose lives were quietly reshaped by the flick of a switch.
To live without electricity meant pumping water by hand, chopping and hauling wood for heat and cooking, cleaning clothes with a washboard, and preserving food with salt, smoke, or ice if you had it. It meant darkness after sundown unless you had oil or candles. These were difficult, time-consuming tasks—but also deeply embedded in older, place-based ways of life. People were less dependent on centralized systems. They mended clothes instead of buying new ones, and their food came from the land, not refrigerated trucks.
Yet the narrative of “progress” didn’t tolerate this complexity. By the 1920s and ‘30s, utilities and appliance manufacturers framed non-electric life as backward, dirty, and even unpatriotic. Their message: to be modern was to be electric.
This vision of electrified modernity wasn’t just implicit; it was relentlessly promoted through the dazzling spectacles of world’s fairs and the persuasive language of print advertising. Electricity was framed not only as a technological advance but as a moral and social imperative—a step toward cleanliness, order, and even national progress. At places like the 1904 St. Louis World’s Fair, entire palaces were built to glorify electricity, their glowing facades and futuristic interiors turning utility into fantasy. Meanwhile, companies like Western Electric and General Electric saturated early 20th-century magazines with ads that equated electric appliances with a better life—especially for women. These messages didn’t merely advertise products; they manufactured desire, anxiety, and aspiration. To remain in the dark was no longer quaint—it was backward.
At the 1904 St. Louis World’s Fair, the Palace of Electricity was more than an exhibit—it was theater. Illuminated by thousands of electric bulbs, the building itself was proof of concept: a monument to the power and promise of electrification. Inside, visitors encountered displays of the latest electric appliances and power systems, all framed as marvels of human ingenuity. Nearby, the Edison Storage Battery Company showcased innovations in energy storage, while massive dynamos hummed behind glass. The fair suggested not just that electricity was useful, but that it was destiny.
Louisiana purchase exposition, St. Louis, 1904. The Library of Congress, via Wikimedia Commons.
This theatrical framing of electricity as progress carried into everyday life through print advertisements. A 1910 issue of Popular Electricity magazine illustrated a physician using electric light in surgery, suggesting that even health depended on electrification. In a 1920 ad for the Hughes Electric Range, a beaming housewife is pictured relaxing while dinner “cooks itself,” thanks to the miracle of electricity. Likewise, a Western Electric ad from the same year explained how to build an “electrical housekeeping” system—one that offered freedom from drudgery, but only if the right appliances were purchased.
These messages targeted emotions as much as reason. They played on fears of being left behind, of being an inadequate housewife, of missing out on modernity. Electricity was no longer merely about illumination—it became a symbol of transformation. The more it was portrayed as essential to health, domestic happiness, and national strength, the more it took on the aura of inevitability. A home without electricity was not simply unequipped; it was a failure to progress. Through ads, exhibits, and films, electricity was sold not just as a convenience, but as a moral good.
And so the groundwork was laid—not only for mass electrification, but for the idea that to live well, one must live electrically.
Before the Toaster: Industry was the First Beneficiary of Electrification
While early 20th-century advertisements showed electricity as a miracle for housewives, the truth is that industry was the first and most powerful customer of the electric age. Long before homes had refrigerators or lightbulbs, factories were wiring up to electric motors, electric lighting, and eventually, entire assembly lines driven by centralized power. Electricity made manufacturing more flexible, more scalable, and less tied to water or steam—especially important in urban areas where land was tight and labor plentiful.
By the 1890s, industries like textiles, metalworking, paper mills, and mining were early adopters of electricity, replacing steam engines with electric motors that could power individual machines more efficiently. Instead of a single massive steam engine turning shafts and belts throughout a factory, electric motors allowed decentralized control and faster adaptation to different tasks. Electric lighting also extended working hours and improved productivity, particularly in winter months.
Electrification offered not just operational efficiency but competitive advantage—and companies knew it. By the 1910s and 1920s, large industrial users began lobbying both utilities and governments for better access to power, lower rates, and more reliable service. Their political and economic influence helped shape early utility regulation and infrastructure investment. Many state utility commissions were lobbied heavily by industrial users, who often negotiated bulk discounts and prioritized service reliability over residential expansion.
This dynamic led to a kind of two-tiered system: electrification for factories was seen as economically essential, while electrification for homes was framed as aspirational—or even optional. In rural areas especially, private utilities refused to extend lines unless they could first serve a profitable industrial customer nearby, like a lumber mill or mine.
Meanwhile, companies that produced electrical equipment—like General Electric, Westinghouse, and Allis-Chalmers—stood to gain enormously. They pushed for industrial electrification through trade shows, engineering conferences, and direct lobbying. Publications like Electrical World and Power magazine ran glowing stories about new industrial applications, highlighting speed, productivity, and cost savings. GE and Westinghouse didn’t just sell light bulbs and home gadgets—they also built turbines, dynamos, and entire systems for industrial-scale customers.
And industry didn’t just demand electricity—industry helped finance it. Many early power plants, particularly in the Midwest and Northeast, were built explicitly to serve one or more large factories, and only later expanded to provide residential service. These plants often operated on a model of “load factor optimization”: power usage by factories during the day and homes at night ensured a steady demand curve, which maximized profits.
By the 1920s, the logic was clear: industry came first, homes came second—but both served the larger vision of an electrified economy. And this industrial-first expansion became one of the justifications for public electrification programs in the 1930s. If electricity had become so essential to national productivity, how could it remain out of reach for most rural Americans?
Niagara Falls Power Plant: Built for Industry
In 1895, the Niagara Falls Power Company, led by industrialist Edward Dean Adams and with technological help from Westinghouse Electric and Nikola Tesla, completed the Adams Power Plant Transformer House—one of the first large-scale hydroelectric plants in the world.
Eight of the ten 1,875 kW transformers at the Adams Power Plant Transformer House, 1904, public domain
This plant didn’t exist to power homes. Its primary purpose was to serve nearby industries: electrochemical, electrometallurgical, and manufacturing firms that required vast amounts of energy. The ability to harness hydropower made Niagara Falls a magnet for energy-intensive factories.
Founded in 1891, Carborundum relocated to Niagara Falls in 1895 to take advantage of the abundant hydroelectric power. They manufactured silicon carbide abrasives, known as “carborundum,” using electric furnaces that operated at high heat. The company was the second to contract with the Niagara Falls Power Company, underscoring the plant’s role in attracting energy-intensive industries.
The promise of abundant cheap power made Niagara Falls the world capital of electro-chemical and electro-metallurgical industries, which included such companies as the Aluminum Company of America (ALCOA), Carborundum (which developed the world’s hardest abrasive as well as graphite), Union Carbide, American Cyanamid, Auto-Lite Battery, and Occidental Petroleum. These were enterprises that depended upon abundant cheap power. At its industrial peak, in 1929, Niagara Falls was the leading manufacturer in the world of products using abrasives, carbon, chlorine, and ferro-alloys.
In the late 19th and early 20th centuries, Niagara Falls became a hub for industrial activity, primarily due to its abundant hydroelectric power. The establishment of the Niagara Falls Power Company in 1895 marked the beginning of large-scale electricity generation in the area. This readily available power attracted energy-intensive industries, including aluminum production, electrochemical manufacturing, and abrasives. Companies like the Pittsburgh Reduction Company (later Alcoa) and the Carborundum Company set up operations to capitalize on the cheap and plentiful electricity.
Even food companies jumped on the opportunity for abundant electricity. The founder of the Shredded Wheat Company (maker of both Shredded Wheat and Triscuit), Henry Perky, built a large factory directly at Niagara Falls, choosing the site precisely because of its access to cheap, abundant hydroelectric power. When the Triscuit cracker was first produced in 1903, the factory was powered entirely by electricity—a key marketing point. Early ads bragged that Triscuits were “Baked by Electricity,” which was a novel and futuristic idea at the time.
However, this rapid industrial growth came at a significant environmental cost. The freedom afforded to early industry in Niagara Falls meant that area waterways became dumps for chemicals and other toxic substances. By the 1920s, Niagara Falls was home to a dynamic and thriving chemical sector that produced vast amounts of industrial-grade chemicals via hydroelectric power. This included the production of chlorines, degreasers, explosives, pesticides, plastics, and myriad other chemical agents.
The success at Niagara set a precedent: electricity could fuel industrial expansion, and factories began lobbying for access to centralized electric power. States and cities recognized that electrification attracted investment, jobs, and tax revenue. This created political pressure to expand grids and build new generation capacity—not to homes first, but to industrial parks and cities with manufacturing bases.
The environmental impact was profound. In 1986, Canadian researchers discoveredthat the mist from the falls contained cancer-causing chemicals, leading both the U.S. and Canada to promise cleanup efforts. Moreover, the Love Canal neighborhood in Niagara Falls became infamous for being the site of one of the worst environmental disasters involving chemical wastes in U.S. history. The area was used as a dumping ground for nearly 22,000 tons of chemical waste, leading to severe health issues for residents and eventual evacuation of the area.
This historical example underscores the complex legacy of electrification—while it spurred industrial advancement and economic growth, it also led to environmental degradation and public health crises.
The Salesman of the Grid: Samuel Insull and the Corporate Vision of a Public Good
Even as electricity was still being marketed as a lifestyle upgrade—offering clean kitchens, lighted parlors, and “freedom from drudgery”—Samuel Insull was reshaping the electrical industry behind the scenes in ways that would bring electricity to both homes and factories on an unprecedented scale. A former secretary to Thomas Edison, Insull became the president of Chicago Edison (later Commonwealth Edison) and transformed the electric utility into a regional power empire. He championed centralized generation, long-distance transmission, and, most importantly, load diversity: the idea that combining industrial and residential customers would create a steadier, more profitable demand curve.
Industry, after all, consumed massive amounts of electricity during the day, while households peaked in the evenings. By blending these demands, utilities could justify larger power plants that ran closer to capacity around the clock—making electricity cheaper to produce per unit and more profitable to sell.
Insull’s holding companies and financial structures helped finance this expansion, often using consumer payments to support new infrastructure. This helped expand the grid outward—to serve not just wealthy homes and big factories, but small towns and middle-class neighborhoods. Electrification became a virtuous cycle: the more customers (especially industrial ones) you had, the more power you could afford to generate, which brought in more customers. The industrial appetite for power and the domestic aspiration for comfort were two sides of the same system.
By the early 20th century, Insull had consolidated dozens of smaller electric companies into massive holding corporations, effectively inventing the modern utility monopoly. His genius wasn’t technical but financial: he pioneered the use of long-term bonds and ratepayer-backed financing to build expansive infrastructure, including coal-fired power plants and transmission lines that could serve entire cities and suburbs.
Insull also understood that to secure profits, electricity had to become not a luxury, but a public necessity. He lobbied for—and helped shape—state-level utility commissions that regulated rates but guaranteed companies a return on investment. He promoted a pricing model in which larger customers subsidized smaller residential ones, making electricity seem affordable while expanding the customer base. In speeches and newspaper campaigns, Insull insisted that electricity was a public service best delivered by private enterprise—so long as that enterprise was shielded from competition and supported by the state.
But Insull’s vision had limits. His business model was urban, corporate, and capital-intensive. It thrived in cities where growth and profits were assured—but left rural America behind. Even by the late 1920s, nearly 90% of rural households still had no electricity, and private utilities had little interest in changing that. When Insull’s financial empire collapsed during the Great Depression—leaving thousands of investors penniless—it triggered a wave of backlash and set the stage for Roosevelt’s 1930s public electrification programs.
The failure of Insull’s empire didn’t just expose the risks of private monopolies; it also reframed electricity as too essential to be left entirely in corporate hands. If the promise of electrification was to reach beyond city limits, it would take more than advertising. It would take state power.
Electricity as a Public “Good”
Franklin D. Roosevelt’s New Deal ushered in that power—both literally and figuratively. Federal programs like the Tennessee Valley Authority (TVA), the Rural Electrification Administration (REA), and the Works Progress Administration (WPA) tackled electrification as a national mission. The TVA aimed to transform one of the poorest regions in the country through public power and flood control. The REA extended loans to rural cooperatives to build distribution lines where private utilities refused to go. The WPA, though more broadly focused on employment and infrastructure, supported the building of roads, dams, and even electric grids that tied into the new public utilities.
But these were not just engineering projects—they were nation-building efforts, wrapped in the language and imagery of progress. Government-sponsored films, posters, and exhibits cast electrification as a patriotic duty and a moral good. In The TVA at Work (1935), a TVA propaganda film, darkness and floods give way to light as electricity reaches the rural South, promising flood control, education, health, and hope.
Posters issued by the REA featured glowing farmhouses surrounded by darkness, their light a beacon of the federal government’s benevolence. Electrification was no longer a luxury product to be sold—it was a public right to be delivered. And propaganda helped recast the electric switch as not just a convenience, but a symbol of democratic progress.
In the early decades of the 20th century, the business of providing electricity was largely in private hands, dominated by powerful industrialists who operated in a fragmented and often exploitative landscape. Rates varied wildly, service was inconsistent, and rural areas were left behind entirely. Out of this chaos emerged a slow, contested movement to treat electricity not as a luxury good for profit but as a regulated public utility—something closer to a right.
Roosevelt’s electrification programs—especially the TVA and the REA—aimed to provide public benefits rather than private profit. But in reality, most rural Americans didn’t vote on where dams and coal-fired power plants would go, how the landscape would be transformed, or who would manage the power. The decision-making remained highly centralized, and the voice of the people was filtered through federal agencies, engineers, and bureaucrats. If this was democracy, it was a technocratic form—focused on distributing benefits, not sharing power.
Still, for many rural communities, the arrival of electricity felt like democratic inclusion: a recognition by the federal government that their lives mattered too. New Deal propaganda leaned into this feeling. Posters, pamphlets, and films portrayed electrification as a patriotic triumph—uniting the country, modernizing the nation, and bringing light to all Americans, not just the urban elite.
FDR fiercely criticized utility companies for their opposition to these efforts. In one speech, he called out their “selfish purposes,” accusing them of spreading propaganda and corrupting public education to protect their profits. His administration’s Public Utility Holding Company Act of 1935 was designed to break up massive utility holding companies, increase transparency, and limit the abusive practices that had flourished under Insull’s system.
By the end of the 1930s, electricity had changed in the eyes of the law and the public. It was no longer a commodity like soap or phonographs. It was essential—a regulated utility, under public scrutiny, increasingly expected to reach all people regardless of profit margins.
How Rural Communities Organized for Electricity
Reaching everyone required more than federal mandates; it required rural people—many of whom had never flipped a light switch—to believe electricity was not just possible, but necessary. New Deal propaganda didn’t just promote electrification; it made it feel like a patriotic obligation. In posters, films, and traveling exhibits, electricity was depicted as a force of national renewal, radiating from power plants and wires like sunlight over a darkened land. Farmers who had once relied on kerosene lanterns saw glowing visions of electric barns, modern kitchens, and clean, running water. The message was clear: this wasn’t charity—it was justice.
The REA offered low-interest loans to communities willing to organize themselves into cooperatives. But before wires could be strung, people had to organize—drawing maps, knocking on doors, pooling resources. That kind of coordination didn’t happen spontaneously. It was sparked, in large part, by persuasive media.
REA films like Power and the Land (1940) dramatized the transformation of farm life through electricity. Traveling REA agents brought these short films and illustrated pamphlets to town halls, church basements, and grange meetings, showing everyday people that their neighbors were already forming co-ops—and thriving. REA’s Rural Electrification News magazine featured testimonials from farm wives, who praised electric irons, cream separators, and the ability to read after sunset. Electrification wasn’t just about comfort; it was about dignity and opportunity.
A TVA poster from the period shows power lines bringing power for farm fields, homes, and factories. The subtext was unmistakable: electricity was the pulse of a modern democracy. You didn’t wait for it. You organized for it.
And people did. Between 1935 and 1940, rural electrification—driven by this blend of policy and persuasion—expanded rapidly. By 1940, more than 1.5 million rural homes had electricity, up from barely 300,000 just five years earlier. The wires came not just because the government built them, but because people demanded them, formed cooperatives, and rewired their lives around a new kind of infrastructure—one they now believed they deserved.
When FDR created the REA in 1935, fewer than 10% of rural homes had electricity. By 1953, just under two decades after the REA’s launch, over 90% of U.S. farms had electric service, much of it delivered through cooperatives that had become symbols of rural self-determination.
The Federal Power Act
In 1935, the same year Roosevelt signed executive orders establishing the Rural Electrification Administration, Congress passed the Federal Power Act—an often-overlooked but foundational shift in how electricity was governed in the United States. At the time, only about 60% of American homes had electricity, and the vast majority of rural households remained off the grid. Industry was rapidly becoming reliant on continuous, 24/7 electric power to run increasingly complex machinery and production lines, making reliable electricity essential not just for homes but for the nation’s economic engine.
The Act expanded the jurisdiction of the Federal Power Commission, granting it authority to regulate interstate transmission and wholesale sales of electricity. This marked a decisive move away from the era of laissez-faire monopolies toward public oversight. Industry players, eager for dependable and affordable power to sustain growth and competition, played a subtle but important role in pushing for federal regulation that would stabilize the market and ensure widespread, reliable access. The Act framed electricity not as a luxury commodity but as a vital service that required accountability and coordination. In tandem with the New Deal electrification programs, it laid the legal groundwork for treating electricity as a public good—setting the stage for how electricity would be mobilized, mythologized, and mass-produced during wartime.
Electricity as Patriotic Duty
By the end of the 1930s, electricity had changed in the eyes of the law and the public. It was no longer a commodity like soap or phonographs. It was essential—a regulated utility, under public scrutiny, increasingly expected to reach all people regardless of profit margins.
But as the nation edged closer to war, the story of electricity changed again. The gleaming kitchens and “eighth wonder of the world” dams of New Deal posters gave way to a new message: power meant patriotism. Electricity was no longer just a household convenience or symbol of rural uplift—it was fuel for victory.
Even before the U.S. formally entered World War II, government and industry launched campaigns urging Americans to think of their energy use as a form of service. Factories were electrified at full tilt to produce planes, tanks, and munitions. Wartime posters and advertisements called on citizens to “Do Your Part”—to conserve power at home so it could be redirected to the front. Lights left on unnecessarily weren’t just wasteful; they were unpatriotic.
One striking 1942 poster from the U.S. Office of War Information featured a light switch with the message: “Switch off that light! Less light—more planes.” Another encouraged energy conservation by asking people to switch lights off promptly because “coal is vital to victory” (at this time 56% total electricity on U.S. grids was generated by coal).
For women, especially, electricity was again positioned as a moral responsibility. Earlier ads had promised electric gadgets to free housewives from drudgery; now, propaganda reminded them that their efficient use of electric appliances was part of the national war strategy. The same infrastructure built by New Deal programs now helped turn the rural power grid into an engine of military supply.
Electricity had become inseparable from national identity and survival. To use it wisely was to serve the country. To waste it was to betray the war effort. This was no longer a story of gadgets and progress—it was a story of sacrifice, duty, and unity under the banner of light.
Nowhere was this message clearer than in the materials produced by the Bonneville Power Administration (BPA), which managed the massive hydroelectric output of the Columbia River dams in the Pacific Northwest. In the early 1940s, the BPA commissioned a series of posters to dramatize the link between public power and wartime production. One of the most iconic, “Bonneville Fights Time,” shows a welder in a protective mask, sparks flying, framed by dynamic lines of electricity and stylized clock hands. The message: electric power enabled faster, more precise welding—crucial for shipbuilding, aircraft, and munitions production.
The poster’s bold composition connected modernist design with national urgency. Bonneville’s electricity wasn’t just flowing to light bulbs—it was flowing to the war factories of the Pacific coast, to the shipyards of Portland and Seattle, and to the aluminum plants that turned hydroelectric power into lightweight warplanes. These images promoted more than technical efficiency; they sold a vision of democratized power mobilized for total war.
Through such propaganda, the promise of public power was reimagined—not just as a civic good, but as a weapon that could help win World War II.
Electrifying the American Dream
When the war ended, the messaging around electricity shifted again—from sacrifice to surplus. Wartime rationing gave way to a marketing explosion, and the same electrified infrastructure that had powered victory was now poised to power prosperity. With factories retooled for peace-time commerce, and veterans returning with GI Bill benefits and dreams of suburban life, the home became the new front line of American identity—and electric gadgets were its weaponry.
The postwar boom fused electricity with consumption, convenience, and class mobility. Advertisements no longer asked families to conserve power for the troops; they encouraged them to buy electric dishwashers, toasters, vacuum cleaners, televisions. Owning a full suite of appliances became a marker of success, a tangible reward for patriotism and patience. Electricity was no longer just a utility—it was the lifeblood of modern living, sold with the same glamour and intensity once reserved for luxury cars or perfumes.
Utilities and manufacturers teamed up to keep the vision alive. The Live Better Electrically campaign, launched in 1956 and endorsed by celebrities like Ronald Reagan, urged Americans to “go all-electric”—not just for lighting and appliances, but for heating, cooking, and even air conditioning. The campaign painted a glowing picture of total electrification, backed by images of smiling housewives, sparkling kitchens, and obedient gadgets. In one ad, a mother proudly paints a heart on her electric range as her children and husband laugh and smile. The future, once uncertain, had been domesticated.
Nowhere was the all-electric ideal more vividly branded than in the Gold Medallion Home, a product of The Live Better Electrically campaign. These homes were awarded a literal gold medallion by utilities if they met a full checklist: electric heat, electric water heater, electric kitchen appliances, and sufficient wiring to support a future of plugged-in living. Promoted through glossy ads and celebrity endorsements, the Medallion Home symbolized upward mobility, domestic modernity, and patriotic participation in a high-energy future. It was a propaganda campaign that blurred the line between consumer aspiration and infrastructure planning. Today’s “electrify everything” efforts—encouraging heat pumps, EVs, induction stoves, and smart panels—echo this strategy. Once again, homes are being refashioned as sites of technological virtue and national progress, marketed through a familiar mix of lifestyle promise and utility coordination. The medallion has changed shape, but the message remains: the future lives here.
This was propaganda of abundance. And behind it was an unspoken truth: electrification had won. What had once been sold as fantasy—glimpsed in world’s fair palaces or GE films—was now embedded in daily life. The flick of a switch no longer symbolized hope. It had become habit.
Ruralite
Ruralite magazine serves as the flagship publication of Pioneer Utility Resources, a not-for-profit communications cooperative to serve the rural electric cooperatives (or co-ops) across the western United States. It was—and remains—a shared publication platform for dozens of small, locally owned utility co-ops that formed in the wake of the REA.
Each electric co-op—often based in small towns or rural counties—can customize part of the magazine with local news, board updates, outage reports, and community features. But the bulk of the magazine is centrally produced, offering ready-made content: stories about electric living, energy efficiency, co-op values, new technologies, and the benefits of belonging to a cooperative utility system.
In this sense, Ruralite functions as a kind of regional PR organ: a hybrid of lifestyle magazine, customer newsletter, and soft-sell propaganda tool. It is funded by and distributed through electric co-ops themselves, landing monthly in the homes of hundreds of thousands of rural residents.
Though it debuted in 1954—well after the apex of New Deal electrification programs—Ruralite can be seen as a direct descendant of that era’s propaganda infrastructure, repackaged for peacetime and consumer prosperity. The TVA had its posters, the REA had its pamphlets, and Ruralite had glossy photo spreads of farm wives with gleaming electric ranges.
Where New Deal propaganda had rallied Americans to support rural electrification as a national project of fairness and modernity, Ruralite shifted the tone toward comfort, aspiration, and consumer loyalty. It picked up the baton of electrification as cultural transformation, reinforcing the idea that electric living wasn’t just a right—it was the new rural ideal.
Clipped from “For the Curious Ruralite,” tips to encourage electricity use from the December 1954 edition of Ruralite Magazine
Ruralite framed rural electrification not as catching up to the cities, but as leading the way in a new era—one where rural values, ingenuity, and resourcefulness would power the country forward. In this way, co-ops and their members became symbols of progress, not just beneficiaries of it.
This was propaganda not by posters or patriotic slogans, but through community storytelling. Ruralite grounded its messaging in local personalities, recipes, and relatable anecdotes, while embedding calls to adopt more appliances, update homes, and trust in the local co-op as a benevolent, forward-looking institution.
The first Ruralite recipe, for which you need an electric refrigerator, published in Ruralite Magazine, June 1954. Clipped from this June 1, 2024 article.
Today, Ruralite remains rooted in local storytelling, but its tone aligns more with contemporary consumer lifestyle media. Sustainability, renewables, and energy efficiency now appear alongside nostalgic rural features and recipes. Yet despite the modern packaging, the core narrative remains consistent: electricity is integral to the good life. That through-line—from a beacon of modernization to a pillar of local identity—demonstrates how the publication has adapted without abandoning its propagandistic roots.
In the current energy landscape, Ruralite plays a quiet but significant role in advancing the “electrify everything” agenda—the 21st-century push to decarbonize buildings, transportation, and infrastructure by transitioning away from fossil fuels to electric systems.
While Ruralite doesn’t use overtly political language, it steadily normalizes new electric technologies like heat pumps, EVs, induction stoves, and solar arrays. Features on homeowners who upgraded to electric water heaters, profiles of co-ops launching EV charging stations, or DIY guides for energy audits all reinforce the idea that the electric future is practical, responsible, and here. The message is aspirational but grounded in small-town pragmatism: this isn’t Silicon Valley hype—it’s your neighbor electrifying their barn or replacing a propane furnace or reminiscing about life without electricity.
Ruralite continues the legacy of New Deal-era propaganda by promoting ever-greater electricity use—now through electric vehicles and heat pumps instead of fridges and space heaters—reinforcing the idea that progress always means more power, more consumption, and more infrastructure. Its storytelling still serves a strategic function—ensuring electricity remains not just accepted, but desired, in every American home.
Postwar Peak and Decline of Electrification Propaganda
By the 1960s, most American homes—urban and rural—had been electrified. The major battle to electrify the country was won. As a result, the overt electrification-as-progress propaganda that had dominated the New Deal era and postwar boom faded. Electricity became mundane: a background utility, no longer something that needed to be sold as revolutionary.
During the 1970s and early 1980s, the focus of public discourse shifted toward energy crises and conservation. Rather than expanding electrification, the government and utilities started encouraging Americans to use less, not more—a notable, if temporary, reversal. The 1973 oil shock, Three Mile Island (1979), and rising distrust in institutions tempered the earlier utopian energy messaging.
1970’s energy conservation poster, via Low Carbon Institute, in the personal collection of Russell Davies.
However, electrification propaganda never vanished entirely. It just narrowed. Publications like Ruralite and utility co-ops continued localized campaigns, pushing upgrades (like electric water heaters or electric stoves) in rural areas and maintaining a cultural narrative of electric life as modern and efficient.
The Renewables-Era Revival of Electrification Propaganda
In the late 1990s and especially the 2000s, a new wave of electrification propaganda began to emerge, but this time under the banner of climate action. Instead of promoting electricity as luxury or convenience, the new message was: electrify everything to save the planet.
This “green” electrification push encourages:
Electric vehicles (EVs) to replace gasoline cars
Heat pumps to replace fossil fuel heating systems
Induction stoves over gas ranges
Grid modernization and massive renewable build-outs (wind, solar, batteries)
Glossy, optimistic, uncritical propaganda pushing electricity from Ruralite Magazine, December 2023.
The messaging echoes earlier propaganda in tone—glossy, optimistic, often uncritical—but reframes the moral purpose: not modernization for its own sake, but decarbonization. The tools remain similar: media campaigns, federal incentives, public-private partnerships, and co-op publications like Ruralite, which has evolved to reflect this new narrative.
Typical imagery promoting “clean energy.” This image is used on a League of Conservation Voters initiative, Clean Energy for All.
Modern utility outreach events like co-op utility Orcas Power and Light Cooperative’s (OPALCO) EV Jamboree—where electric vehicles are showcased, test drives offered, and electrification is framed as exciting and inevitable—echo the strategies of the REA’s mid-century traveling circuses. Just as the REA brought portable demonstrations of electric appliances and farm equipment to rural fairs to sell the promise of a brighter, cleaner, more efficient life, today’s utilities stage events to generate enthusiasm for electric vehicles, heat pumps, and smart appliances. In both cases, the goal is not just education but persuasion—selling a future tied to deeper dependence on the electric grid.
Advertisement for an EV Jamboree, propaganda for electric vehicles, boats, bikes, etc.
One of the most striking revivals is the push for nuclear power, long dormant after public backlash in the 1980s. Once considered politically radioactive and dangerous, nuclear is now rebranded as a clean energy savior. The Biden administration has supported small modular reactor (SMR) development and extended funding for existing nuclear plants. More recently, President Donald Trump announced plans to reinvest in nuclear infrastructure, positioning it as a strategic national asset and imperative for national security and industry. The messaging is clear: nuclear is back, and it’s being sold not just as a technology, but as a patriotic imperative.
The Green Delusion and the Digital Demand: Modern Propaganda for an Electrified Future
In the 21st century, electrification propaganda has been reborn—not as a tool to bring light to rural homes or sell refrigerators, but as a moral and technological mandate. This time, it’s cloaked in the language of sustainability, innovation, and decarbonization. Utilities, tech giants, and government agencies now present an electrified future as inevitable and ethical. But beneath the rhetoric lies a powerful continuity with the past: electricity must still be sold to the public, and propaganda remains the vehicle of persuasion.
The contemporary campaign is driven by a potent mix of actors. Investor-owned utilities plaster their websites with wind turbines and solar panels, promoting the idea that they are leading the charge toward a cleaner future. Federal and state governments offer rebates and incentives for EVs, solar panels, heat pumps, and induction stoves, framing these changes not only as personal upgrades, but as civic duties. Corporate giants like Google, Microsoft, and Amazon amplify the message, touting their commitment to “100% renewable” operations—while quietly brokering deals for bespoke gas and nuclear plants to keep their operations online, and selling their digital services to fossil fuels companies.
Deceptive practices are proliferating alongside the expansion of renewable energy infrastructure. Companies developing utility-scale solar projects often mislead communities about the scale, impact, and permanence of proposed developments—if they engage with them at all. Local residents frequently report being excluded from the planning process, receiving vague or misleading information, or being outright lied to about how the projects will alter their environment. As Dunlap et al. document in their paper ‘A Dead Sea of Solar Panels:” Solar Enclosure, Extractivism and the Progressive Degradation of the California Desert, such tactics are not anomalies but part of a systemic pattern:
[W]e would flat out ask them [the company] questions and their answers were not honest … [it] led me to believe they really didn’t care about us. They had charts of where lines were going to be, and later, we found out that it wasn’t necessarily the truthful proposal. And you’re thinking: ‘why do you have to deceive us?’
— Desert Center resident, quoted in ‘A Dead Sea of Solar Panels:’ solar enclosure, extractivism and the progressive degradation of the California desert, by Dunlap et. al.
These projects, framed publicly as green progress, often mask an extractive logic—one that mirrors the practices of fossil fuel development, only cloaked in the language of sustainability.
At the heart of this new energy push lies a paradox: the renewable future requires more electricity than ever before. Electrifying transportation, heating, and industry demands a massive expansion of grid infrastructure—new transmission lines, more generation, and more raw materials. But increasingly, the driver of this expansion is data.
Artificial intelligence, cloud computing, and cryptocurrency mining are extraordinarily power-hungry. Modern AI models require vast data centers, each consuming megawatts of electricity—often 24/7. In his May 2025 Executive Order promoting nuclear energy, President Donald Trump made this explicit: “Advanced nuclear reactors will power data centers, AI infrastructure, and critical defense operations.” Here, electricity isn’t just framed as a public good—it’s a strategic asset. The demand for clean, constant energy is now justified not by light bulbs or quality of life, but by national security and economic dominance in the digital age.
This shift has profound implications. The public is once again being asked to accept massive infrastructure projects—new power generation plants and transmission corridors, subsidies for private companies, and increased energy bills—as the price of progress. Utilities and politicians assure us that this growth is green, even as the material and ecological costs of building out renewables and data infrastructure are hidden from view. The new propaganda is sleeker, data-driven, and more morally charged—but at its core, it performs the same function as its 20th-century predecessors: to justify a massive increase in power use.
A particularly insidious thread in this new wave of propaganda is the claim that artificial intelligence will “solve” climate change. This narrative, repeated by CEOs, media outlets, and government officials, frames AI as a kind of techno-savior: capable of optimizing energy use, designing better renewables, and fixing broken supply chains. But while these applications are technically possible, they are marginal compared to the staggering energy footprint of building and running large-scale AI systems. Training a single frontier model can consume as much power as a small town.Once operational, the server farms that host these models run 24/7, devouring electricity and water—often in drought-prone areas—and prompting utilities to fire up old coal and gas plants to meet projected demand.
Under the guise of “solving” the climate crisis, the AI boom is accelerating it. And just like earlier propaganda campaigns, the messaging is carefully crafted: press releases about “green AI” and “green-by-AI” along with glossy reports touting efficiency gains distract from the physical realities of extraction, combustion, and carbon emissions. The promise of virtual solutions is being used to justify real-world expansion of energy-intensive infrastructure. If previous generations were sold the dream of electrified domestic bliss, today’s consumers are being sold a dream of digital salvation—packaged in clean fonts and cloud metaphors, but grounded in the same old logic of growth at all costs.
The Material Reality of “Electrify Everything”
While the language of “smart grids,” “clean energy,” and “electrify everything” suggests a sleek, seamless transition to a more sustainable future, the material realities tell a very different story. Every CPU chip, electric vehicle, solar panel, wind turbine, and smart meter is built from a global chain of extractive processes—mined lithium, cobalt, copper, rare earth elements, steel, silicon, and more—often sourced under environmentally destructive and socially exploitative conditions. Expanding the grid to support these technologies requires not just energy but immense physical infrastructure: transmission lines slicing through forests and deserts, substations and data centers devouring land and power, and constant maintenance of an aging, overstretched network.
Yet this reality is largely absent from public-facing narratives. Instead, we’re fed slogans like “energy humanism” and “clean electrification”—terms that obscure the industrial scale and catastrophic impacts of what’s being proposed. Like the early electrification propaganda that portrayed hydropower as endlessly abundant and benevolent (salmon and rivers be damned), today’s messaging continues to erase the costs of extraction, land use, and energy consumption, promoting technological salvation without acknowledging the planetary toll.
Propaganda for “green minerals” extraction in Zambia
The scale of extraction required to electrify everything is staggering. According to the International Energy Agency (IEA), reaching global climate goals by 2040 could require a massive increase in demand for minerals like lithium, cobalt, and nickel. For lithium alone, the World Bank estimates production must at least quadruple by 2040 to meet EV and battery storage needs. Copper—essential for wiring and grid infrastructure—faces a predicted shortfall of 6 million metric tons per year by 2031, even as global demand continues to surge with data centers, EVs, and electrification programs.
If you just paint your mining equipment green and use more electricity to mine, somehow that will make mining “sustainable”? Illustration from the paper Advancing toward sustainability: The emergence of green mining technologies and practices published in Green and Smart Mining Engineering
Mining companies have seized the moment to rebrand themselves as climate heroes. Lithium Americas, which plans to operate the massive Thacker Pass lithium mine in Nevada, is described as “a cornerstone for the clean energy transition” and touts itself as a boon for local employment, even while the company destroys thousands of acres of critical habitat. The company promises jobs, school funding, and tax revenue—classic propaganda borrowed from 20th-century industrial playbooks. But local resistance, including from communities like the Fort McDermitt Paiute and Shoshone Tribe, underscores the deeper truth: these projects degrade ecosystems, threaten sacred sites, and deplete water resources in arid regions.
Another mining giant, Rio Tinto, has aggressively marketed its “green” copper and lithium projects in Serbia, Australia, and the U.S. as “supporting the green energy revolution,” while downplaying community opposition, pollution risks, and the company’s long history of environmental destruction. Their PR materials highlight “sustainable mining,” “low-carbon futures,” and “partnering with communities,” despite persistent local protests and growing global awareness of mining’s high environmental costs.
What’s missing from these narratives is any serious reckoning with the energy required to mine, transport, refine, and manufacture these materials, along with the energy needed to power the growing web of electrified infrastructure. As the demand for data centers, EV fleets, AI training clusters, and smart grids accelerates, we are rapidly expanding industrialization in the name of sustainability, substituting fossil extractivism with mineral extractivism rather than questioning the ever-increasing energy and material throughput of modern society.
Across the U.S., utilities are aggressively promoting electric vehicles, heat pumps, and “smart” appliances as part of their electrification campaigns—often framed as climate solutions. Pacific Gas & Electric (PG&E) in California, for example, offers rebates on EVs and encourages members to electrify their homes and transportation. Yet at the very same time, utilities like PG&E also warn that the electric grid is under strain and must expand dramatically to meet rising demand. This contradiction is rarely acknowledged. Instead, utilities position grid expansion as inevitable and green, framing it as “modernization” or “resilience.” What’s omitted is that electrifying everything doesn’t reduce energy use—it shifts and increases it, requiring vast new infrastructure, more centralized control, and continued extractivism.
The public is told that using more electricity will save the planet, while being asked to accept more pollution and destroyed environments along with new transmission lines, substations, and higher rates to pay for it all.
From Luxury to Necessity: Total Dependence on a Fragile Grid
The stability of the electricity grid requires electricity supply to constantly meet electricity demand, which in turn, requires numerous entities that operate different components of the grid to coordinate with each other.
Over the last century, electricity has shifted from a shimmering novelty to an unspoken necessity—so deeply embedded in daily life that its absence feels like a crisis. This transformation did not happen organically; it was engineered through decades of propaganda, from World’s Fairs and government-backed campaigns to glossy co-op magazines and modern “electrify everything” initiatives. What began as a promise of convenience became a system of total dependence.
OPALCO pushes EVs, electric appliances and heat pumps, while at the same time publishing articles about how the grid is under strain.
Today, every layer of modern life—communication, healthcare, finance, water delivery, food preservation, transportation, and farming—relies on a constant, invisible stream of electrons. Yet the grid that supplies them is increasingly strained and precarious. As utilities push electric vehicles, heat pumps, and AI-fueled growth, and states (like Washington State) offer tax incentives to electricity-hungry industries, they simultaneously warn that the grid must expand rapidly to avoid collapse. The public is told this expansion is progress. But the more electrified our lives become, the more vulnerable we are to its failures.
This was laid bare in March 2024, when a massive blackout in Spain left over two million people without power and seven dead. Train systems halted. ATMs stopped working. Hospitals ran on limited backup power. Food spoiled, water systems faltered, and thousands were stranded in elevators and subways. The cause? A chain of technical failures made worse by infrastructure stretched thin by new demands and the rapid expansion of renewables. Spanish officials called it a “wake-up call.” But for many, it was a terrifying glimpse into just how brittle the electric scaffolding of modern life has become.
Contrast that with life just 130 years ago, when the vast majority of Americans lived without electricity. Homes were lit by kerosene and heated by wood. Water was drawn from wells. Food was preserved with salt or root cellars. Communities were far more self-reliant, and daily life, while harder in some ways, was not exposed to the singular point of failure that defines today’s electrified society.
Before widespread electrification, communities were more tightly knit by necessity. Without the conveniences of refrigeration, electric heating, or instant communication, people relied on one another. Neighbors shared food, labor, stories, and tools. Social life centered around common spaces—markets, churches, schools, porches. Mutual aid was not a political slogan but a basic survival strategy. Electricity helped alleviate certain physical burdens, but it also enabled a more atomized existence: private appliances replace shared labor, television and now Netflix replace neighborhood gatherings, and online connection supplants physical community.
The electrification of everything, sold as liberation, has created a new form of total dependence. We have not simply added electricity to our lives—we have rewired life itself to require it. And as the grid stretches to accommodate AI servers, data centers, electric fleets, and “smart” everything, the question we must ask is no longer how much we can electrify—but how much failure we can endure.
It’s hard to imagine life today without electricity—yet just 130 years ago, almost no one had it, and communities thrived in very different ways. Our deepening dependence on the grid is not simply our choice; technologies like AI and massive data centers are being imposed upon us, often without real consent or public debate.
As we barrel toward ecological collapse—pervasive pollution, climate chaos, biodiversity loss, and the sixth mass extinction—our blind faith in endless electrification risks bringing us back to a state not unlike that distant past, but under far more desperate circumstances. Now more than ever, we must question the costs we ignore and face the difficult truth: the future we’re building may demand everything we take for granted, and then some.
Public Works Administration Project, U.S. Army Corps of Engineers, Bonneville Power and Navigation Dam in Oregon, Columbia River, 40 miles East of Portland, “Downstream side of Blocks 7 and 8 of North Half of Spillway Dam and Piers 9 to 12. Inclusive of South Half of Dam”. Oct 24, 1936. National Archives and Records Administration.