Editor’s Note: Language is one of the most significant elements of any culture. If a language goes extinct, the culture will go extinct within a few generations. Languages are not just a way of communicating, they represent a worldview. Relation to the natural world is a clear example. In the English language, natural elements are referred by a neutral gender pronoun, “it.” It is not a coincidence that the same pronoun is used to refer to inanimate or nonliving beings. On the other hand, many cultures (both indigenous and nonindigenous) refer to natural elements with a gendered pronoun, similar to the ones used to refer to a person. For anyone who is a part of the culture, the language that they learn shapes how they view natural elements. An English speaking child is more likely to view nature as inanimate, compared to a child whose language ascribes personhood to nature. In the following essay, Mankh explores the origin of the language and its relation to our worldview.
Upside Down Ox Houses and Indigenous Place-Based Languages
By Mankh
“And let them have dominion over the fish of the sea and over the birds of the heavens and over the livestock and over all the earth and over every creeping thing that creeps on the earth.” ~ Genesis 1:26
What if Indigenous languages hold some of the keys to rectifying climate chaos, habitat destruction and the overall insatiable global commerce structure aka “dominion over…,” while English and other alphabetized languages are part of the problem, in fact they have been encouraging an upside down approach for approximately 4000 years?
Nowadays you can hear people comment how the world seems inverted, topsy-turvy, upside down. What if the roots of that go back to the alphabet. I have good reason to think that is at least part of the conundrum because the letter A is based on the picture of an Ox head, but upside down; at one point sideways, too, but eventually upside down.
Livestock are domesticated animals and one aspect of that domestication is that Ox are often castrated male cattle. “Oxen are thought to have first been harnessed and put to work around 4000 BC.” Estimates are that the alphabet began to take shape around 2000 BC, but of course the lettering system was based on previous experiences and lifestyles put into picture forms which then became the AlphaBet (Greek, Alpha Beta), otherwise known as Ox House, or more accurately, Upside Down Ox House.
“House” is from “B” representing an enclosed structure. The ancient Egyptian “reed-house” B gives a sense of organic architecture and Hebrew includes the nuances “container” or “vessel” – “the created world is meant to house within it the spiritual.”[2] Yet the prevalent association with B is House. On your way to work, perhaps you drive by a temple Beth-El or “House of God.” The “B” from “House” is not upside down (though the Etruscans had it facing the opposite way) and has various spellings/pronunciations, including: Bayit, Beith, Bet, Beth, Beh, or Vet. Picture of Hebrew “Beith” ―
The AlphaBet is based on phonetic abstractions which have shaped the minds and thinking patterns of people worldwide. “An alphabet, being the most abstract form of writing, enhances left-brain values the most.” And more than that, “The alphabet-people’s god became indisputably male and he would become disconnected from things of the earth. He was abstract, nowhere, and yet everywhere at once.”
“It is no mere coincidence that the first book written in an alphabet is the Old Testament.” ~ Leonard Shlain, The Alphabet Versus The Goddess (1998)
While doing research for this article, the only possibility I found as to when and why the Ox shape became inverted was when the alphabet was being adapted from Phoenician to Greek and perhaps “the adapter didn’t seem to be certain of the orientation of the letters, because several were rotated or inverted,” also, changes with regard to “sound, name, letter shape and order.” Regardless of why it happened, this essay is putting forth that what the inversion represents rings true because the civilizations that followed have proved it so: The inverted Ox represents domestication and the ensuing dominion over “every creeping thing” ― which, by the way, reads as the precursor to the US Empire’s “full spectrum dominance.”
As a side note, mathematics got the Ox angle correct, but interpretations are up for grabs. “The ∀ symbol may look like the familiar capital ‘A’ written upside down, but in mathematics (specifically in predicate calculus), the ∀ is a logic symbol or universal quantifier. You can use it in place of ‘for all.’”
Speaking of universal quantifiers, along with the monetization of language (the first cuneiform wedges recorded transactions) was the religiosity, which when both of those (commerce and religion) merged with the mechanical, made for a world change comparable to the computer/Internet about 500 years later. The confluence of Gutenberg’s press, beginning circa 1450s, and Columbus’ commericalized colonization crusade, beginning 1492, cannot be overlooked. Along with Columbus on the boat came The Book aka Bible and the eventual franchising of religious concepts which have converted much of the world with the Word of God and the barrel of a gun, both foreign concepts to the Original Inhabitants of Turtle Island and Indigenous Peoples elsewhere.
And the book became a product to sell. The letters traveled, while Indigenous place-based languages stayed (you can guess it), where they’re at.
If you consider the upside down Ox as domesticated and the House as the modern emblem of success (think billionaires with more than one, or the goal of the average American to comfortably maintain one), then it becomes clearer how AlphaBet has and continues to shape people’s priorities as well as societal behavior patterns. Ownership of domesticated land and property is the key ingredient of predatory, colonized, commercial wealth. And domesticated cattle became the, ahem, cash cow of the fast-food industry.
Gutenberg’s press fostered a mechanical way of thinking and behaving, an assembly line of movable type promoting a book consciousness, the production format of which Henry Ford and then McDonald’s would ‘master’ ― the essence of the modern American lifestyle, faster and cheaper, a perfect storm of on-the-go religious colonialism mixed with corporate and state backing, or what I call “drive-thru theofascism.” The more recent propulsion of technology, gadgets, and AI (Artificial Intelligence) has exacerbated all that.
Now, flip all that upside down for the Indigenous perspective. Or for trying to navigate both the natural world and the mechanical world, be aware that excessive mechanical-ness dulls spontaneity, the ability to think for one’s self, and embrace the fact (yes, the fact) that plants and all manner of beings have spirit.
Some years ago on TV I saw a documentary, of which the title now escapes me, and it cited one of the roots of modern English as Frisian, a West Germanic language. What stood out to me was the following which I made note of – the language reflected the following characteristics: warlike; adventurous; greedy; religiosity/Christendom. If that’s not the essence of colonialism and empire, what is?
So the language of adventure that sought its jollies through warring, greed and enforced religion is at least some of the reason for our current troubles. In the film was mentioned a rather poetic phrase, “bone-house”… for “body,” yet many a con man has been known to have a smooth tongue.
Another linguistic reference to cattle and war is found in the Sanskrit, gáviṣṭi (गविष्टि) translated as “desire for more cows, desire for battle.” The only way one can desire for more cows is if they are domesticated. You can desire wild Ox, but to own them or go to war so as to control more of those four-leggeds indicates they are no longer wild.
Did faster language predict fast-food?
“The eye that can read is immediately caught by advertising and propaganda.” ~ Joost A. M. Meerloo, M.D., The Rape of the Mind (1956)
Perhaps the seeds of fast-talkers and fast-food were baked into the language. Several examples of how languages became faster, turning into a kind of shorthand, give a clue as to how people may have been conditioned to talk faster, and eventually fast-food on-the-go, a reflection of industrialized assembly line speed with humans as active parts of the machine.“The invention of papyrus as a writing material gave the Egyptians a quicker way to record information than carving into stone.” & “Hieratics eventually gave way to demotic, an even faster way for Egyptians to write.”
From thirty years of sporadically studying and doing brush calligraphy of ancient Chinese pictographs, I have learned that the pictograph for Sun was originally a circle with a wavy line in the center (Large Seal – Ta Chuan, 1122-256 BC), which then morphed into a a circle with a dot in the center (Small Seal – Hsia Chuan, 221-207 BC). But then with Clerical Style – Li Shu, 207 BC-588 AD, a small rectangle with a horizontal line. I suspect this, too, made for speedier communications, though the following alludes to other factors at work:
The Clerical Style “evolved from the late Warring States period” and “The Warring States period was an era in ancient Chinese history characterized by warfare, as well as bureaucratic and military reforms and consolidation.”
Has not much changed since then? As with the above mentioned flavors of cuneiform baked transactions and Frisian war adventures, there appear similarities with the evolution of the Chinese ‘script.’ As to the most current form of “consolidation” along with warfare and bureaucracy, “The largest shareholder of 88% of the companies on S&P 500 is either State Street, Vanguard or BlackRock. And you can see their influence in defense contracts.“
While it’s tricky to pin down, a general progression of peoples and places that contributed to making the current AlphaBet is as follows: Egyptian, Ugaritic/Semitic > Sinai > Palestine and Phoenician > Greek > Etruscans > Latin/Roman and Slavic. The Latin/Roman dominates to this day, as English is made of some 60% Latin-based words. A significant layer of that is the influence of the Roman empire that lingers under the radar in our AlphaBetic consciousness. But more than that, it lingers in the US legal system and echoes the Old Testament, which, as mentioned above, was “the first book written in an alphabet.”
As explained by Peter d’Errico, who has “been involved with Indigenous peoples’ legal issues for more than fifty years”: “The sovereignty claim of ‘Christian discovery’ underpins the entire edifice of US laws regarding Indigenous land rights. It is a US claim of ‘title’ and ‘dominion’ over Indigenous lands. ‘Christian discovery’ necessarily underlies ‘LandBack’ campaigns because the doctrine is embedded in US property law. See Johnson v. McIntosh (1823).”
The language effects the legal system which effects the way in which we relate – or don’t – with the Earth.
Much of humanity doesn’t relate with Earth because of the concept of property and having been domesticated. The word “domestic” has roots mentioning “house, lord, property,” from “domo-” which is also the root of “dominate.”
“Depends on what you look at obviously / But even more it depends on the way that you see” ~ Bruce Cockburn, from “Child of the Wind”
AlphaBet was also a precursor (no pun intended) for the current screen-fixated world, as the AlphaBet is a veneer of the actual environment/land, because the letters are phonetic representations, the pictures of each which you have to study to learn. But how many people who talk, talk, talk actually know the basis for what they are saying? How many people literally connect the language with the land and activities in their immediate environment? Indigenous Peoples do:
“These Indigenous languages that are more at risk than ever — that will be almost extinct at the end of the century — are the most powerful languages, they speak of quantum physics and how to communicate with Mother Earth, and you can’t find them in libraries or on your computers, you have to live them.”
~ Tiokasin Ghosthorse (Cheyenne River Lakota), from keynote talk at the COP 24 Climate Summit, Katowice, Poland, December 2018
Instead of looking at an Ox, the AlphaBet trained people to see an A, as nowadays the screens train people to more so see images of the natural world rather than caring for the actual landscape! And while one could argue that various incidents of deforestation happened in time before AlphaBet, it’s helpful to remember that AlphaBet is a condensed product of those already existing cultures.
Breaking the yoke of the Upside Down Ox House
While reading the excellent book Fresh Banana Leaves: Healing Indigenous Landscapes Through Indigenous Science (2022) by Jessica Hernandez, PhD, the phrase “place-based” stood out to me. So I considered a flavor of that: The Inuit/Iñupiat identify many types of snow, and probably ice; according to a Kanaka Maoli (Native Hawaiian) friend, there are numerous types of Hawaiian rain or ua; the title of the book If You’ve Forgotten the Names of Clouds, You’ve Lost Your Way by Russell Means and Bayard Johnson tells me that the Lakota identify numerous types of clouds; a key aspect of Japanese haiku is kigo or season-word, a poetic-scientific format for identifying a specific time or moment of a season. The Haiku Handbook by William J. Higginson and Penny Harter identifies sixteen for cherry blossoms, including: “hana no hagoshi – [moon] through [cherry-] blossom petals” and “rakka – fallen [cherry] blossoms.”
I am not qualified to speak for Indigenous Peoples about their languages, but the gist I glean is that when a People have been in a place long enough to study and deeply experience that place in detail, the language, as well as the songs, reflect that – holding keys for the maintenance and sustainability of the place; the land speaks to the People and the People speak back to the land. This rootedness is the opposite (does that count as upside down?) of the AlphaBet that traveled in boats and made its way around the globe, and has been and continues to be an instrumental part of colonization and commercialization.
When a People have place-based knowledge and longstanding experience, those People are voted most unlikely to behave with “dominion over,” rather deep relationship with all the beings there and traveling through there, and whether those relationships are based on survival or love or both, they are still deep relationships. In my little suburban patio/backyard there’s a so-called weed that spreads and takes over; most people remove the plant. One spring into summer I let it grow and then one day I noticed a sparrow nibbling on and thoroughly enjoying something about the tiny clusters of miniscule pink flowers. I learned that those plants are called Pennsylvania Smartweed, yet I’d bet there’s a Native/Indigenous name because, for one, “The Menominee used [and probably still do] this plant to treat hemorrhage, and to aid in post-partum healing.”
Outside the Upside Down Ox House grows a weed to eradicate; for the place-based Native Peoples there thrives a plant-medicine. And therein is at least one of the keys to rectifying an inverted worldview too-often seen through an AlphaBetic mind-frame.
More upside down examples:
“The buffalo is first domesticated somewhere in the near-tropical regions of Asia.” The Plains Indians buffalo was wild and revered. But then:
“In 1800 there were around 60 million buffalo in North America; however, that would drastically change over the next century, changing the lives of the Plains Indians. This is partly due to individual hunters looking to make a profit on the buffalo hides, the government starving the population of the Plains Indians by killing off their primary food source, and the coming of the railroads. The buffalo, like the Indian, was in the pathway of civilization.”
Another upside down:
Man has evolved and progressed from a cave man to his/her/etc. current advanced and ever-advancing status. But then again:
“Because we humans arrived last in this world, we are the ‘younger brothers’ of the other creatures and therefore have to learn everything from them.” ~ Vine Deloria, Jr. (Standing Rock Lakota)[17]
AlphaBetic technology and spirituality
Now that this essay has properly dissed the AlphaBet, a few comments about its usefulness. What a technological marvel! From twenty-six letters come a daily stream of news and articles along with the seemingly relentless publishing of books, (however, a modern form of deforestation but are e-books any better? Think e-waste dump sites). As a writer and avid reader I can’t help but appreciate the letters and books yet I’ve also come to realize their limitations.
Another aspect needing mention is a kind of eye of the needle of consciousness, as for example in Hebrew, the letters can have sacred sounds and can serve as gateways to other than physical dimensions; the Hebraic Aleph connects the above with the below, as the letter shows. In this case the original Ox horns were somehow rearranged.
Because the core of my path is mystical Kaballah in which the Ox is one of four sacred tetramorphs – in Hebrew the Chioth ha Qodesh (“holy living creatures”) – along with the Eagle, Lion, and Human Being, I had to reconcile this with the aforementioned domesticated Ox. My educated guess, based on how things have played out for some 4000 to 6000 years, is that: In a purer form, the Ox represents patience and productive hard work, and is a provider of many things (akin to how the buffalo has provided for the Plains Indians). However, the Ox’s domestication, castration, and AlphaBetic inversion has morphed into such modern horrors as mega-corporate, agri-business, mono-culture, so-called farming, and concentration camp treatment of animals for consumption.
In an impatient world where lazy entrepreneurs and slave-drivers seek maximum profit from the cheapest labor, I’m sticking with my inner, wild, not castrated, Ox. This Ox, however, is not restricted to being an Ox because the form of hard-worker can be a Buffalo, Horse, Dog, Goat, and so forth.
Although I’m stuck with AlphaBetic English as my main form of verbal expression, I strive to go beyond that barrier, getting glimpses of another perspective as seen through Indigenous and other languages. Because direct experiences often go beyond words, I pay more attention to music, laughter, love, physical exercise, ecstatic states of being, quiet contemplations, to name a few.
In my book Moving Through The Empty Gate Forest, which addresses topics related to this essay, I encourage people to:
“Go through the eye of the needle, go through the empty spaces in the A and B, move beyond the framework the gatepost outlines of the letters, every day move through the mumbo-jumbo, the trickster spells entangling the mind and emotions, the propaganda and lies, move through someone else’s word of God, move through someone else’s letter of the law, move through someone else’s hierarchy of A to F to Z unravel the bandages of your mummified consciousness…”
Because it is clear to me that Indigenous languages are essential for the well-being of the Nations and Peoples that know and speak them, and essential for the well-being of the Earth and us all, I close this essay with a quote, albeit in English, by Robin Wall Kimmerer (Citizen Potawatomi Nation), from her well-known book Braiding Sweetgrass: Indigenous Wisdom, Scientific Knowledge, and the Teachings of Plants ―
“To be native to a place we must learn to speak its language.”
Mankh (Walter E. Harris III) writes, small press publishes, and is the author of 17 books. He travels a holistic mystic Kaballah-rooted pathway staying in touch with Turtle Island and the cycles of the Seasons. His website: www.allbook-books.com
Editor’s Note: In this essay, Carl (one of our editors) describes the process of ocean acidification, and how it relates with other ecological crises.
First we need to know what an acid is. An acid is any substance (species) who’s molecules or ions are capable of donating a hydrogen ion proton (H+) to another substance in aqueous solution. The opposite of an acid is a base. Which is a substance who’s molecules or ions are able to accept a hydrogen ion from an acid. Acidic substances are usually identified by their sour taste while bases are bitter. The quantitative means to measure the degree to which a substance is acidic or basic is the detection of “potential of hydrogen” (pH) or “power of hydrogen”. This is expressed with a logarithmic scale 0 -14 that inversely indicates the activity of hydrogen ions in solution. The greater the amount of hydrogen ions which are measured below 7 the more acidic a substance is, going to 0. The less hydrogen ions are present which are measured above 7 the more basic a substance is, going to 14. So the pH values are inverse to number of hydrogen ions present. As the concentration of hydrogen ions increases the pH decreases (acidic). As the concentration of hydrogen ions decreases the pH increases (basic). With the value of 7 being neutral which is where pure distilled water falls on the scale. So acidification would be increasing hydrogen ions.
Basic (or alkaline) properties can be associated with the presence of hydroxide ions (OH−) in aqueous solution, and the neutralization of acids (H+) by bases can be explained in terms of the reaction of these two ions to give the neutral molecule water (H+ + OH− → H2O).
For millions of years the average pH of the ocean had maintained around 8.2, which is on the basic side of the scale. But since industrial development that number has dropped to slightly below 8.1. So not acidic but going in that direction. While this may not seem like a lot, remember the decrease is nonlinear and measures the amount of hydrogen ions present. A change in pH of 1 unit is equivalent to a tenfold change in the concentration of (H+) ions. So the drop of .11 units represents a 30% increase of (H+) ions than were present in the relative homeostasis state of preindustrial time. Ocean acidification is an increase in the dissolved hydrogen ions (H+) in the water.
What is causing this decrease in pH?
Oceans absorb carbon dioxide (CO2) from the atmosphere through wave action. Pre-industrialization there was a balance between the CO2 going into the water and coming out of the water. The pH was stable in this narrow range. Life in the oceans have evolved to survive in a balanced condition. Industrialization through the burning of fossil fuel has released increased amounts of CO2 into the atmosphere. This has caused the oceans to absorb more CO2. So here is where the chemistry comes into play. As CO2 dissolves in water (H2O) the two create Hydroxycarboxylic (Carbonic) Acid (H2CO3).
CO2 + H2O = H2CO3
This breaks down easily into Hydrogen Carbonate ions (HCO3) and H+ ions.
H2CO3 = HCO3 + H+
Hydrogen ions break off of the Carbonic Acid. So more CO2 means more H+ ions which means increased acidity.
And this is where the problem is. Shells are formed primarily of Calcium Carbonate (CaCO3). But Carbonate (CO3) binds more easily with H+ than with Calcium (Ca), CO3 + 2H+. This takes away Carbonate that would have bonded with the Calcium for shell production. Calcium is relatively constant, so it is the concentration of carbonate that determines formation of calcium carbonate. Less carbonate available makes it more difficult for corals, mollusks, echinoderms, calcareous algae and other shelled organisms to form Calcium Carbonate (CaCO3), their major mineral building block. Also, when Carbonate concentrations fall too low, already formed CaCO3 starts to dissolve. So, marine organisms have a harder time making new shells and maintaining the ones they’ve already got. This causes decreased calcification. In healthy humans, normal body pH average is 7.4. This is one of the main reasons why the pH in swimming pools should be maintained around 7.5.
The acid-base balance of the oceans has been critical in maintaining the Earth’s habitability and allowing the emergence of early life.
“Scientists have long known that tiny marine organisms—phytoplankton(microscopic aquatic plants)—are central to cooling the world by emitting an organic compound known as dimethylsulphide (DMS). Acidification affects phytoplankton in the laboratory by lowering the pH (i.e. acidifying) in plankton-filled water tanks and measuring DMS emissions. When they set the ocean acidification levels for what is expected by 2100 (under a moderate greenhouse gas scenario) they found that cooling DMS emissions fell.”
Given the importance of plankton, the fact that they are the life-support system for the planet and humanity cannot survive without them, the resulting effects will be disastrous. These organisms produce 50% of the world’s oxygen – every other breath animals take and are the basis for the food web. Covering more than 70 percent of the earth’s surface the oceans, the planets lungs, are in peril.
“Over the past 200 years, the oceans have absorbed approximately half of the carbon dioxide (CO2) emitted by human activities, providing long-term carbon storage. Without this sink, the greenhouse gas concentration in the atmosphere would be much higher, and the planet much warmer.”
But absorbing the CO2 causes changes in ocean chemistry, namely lowering pH and decreasing carbonate (CO3) concentrations.
On a human time scale these changes have been slow and steady relative to that baseline. But on a geological time scale this change is more rapid than any change documented over the last 300 million years. So organisms that have evolved tolerance to a certain range of conditions may encounter increasingly stressful or even lethal conditions in the coming decades.
We know this through carbon dating of ice cores which offer scientists’ the best source for historical climate data. Also deep-sea sediment cores from the ocean floor are used to detail the Earth’s history.
Estimates of future carbon dioxide levels, based on business-as-usual emission scenarios, indicate that by the end of this century the surface waters of the ocean could have a pH around 7.8 The last time the ocean pH was that low was during the middle Miocene, 14-17 million years ago. The Earth was several degrees warmer and a major extinction event was occurring. Animals take millions of years to evolve. They go extinct without an adequate timeframe to adapt to changes in habitat. Ocean acidification is currently affecting the entire ocean, including coastal estuaries and waterways. Billions of people worldwide rely on food from the ocean as their primary source of protein. Many jobs and economies in the U.S. and around the world depend on the fish and shellfish that live in the ocean.
By absorbing increased carbon dioxide from the atmosphere, the ocean reduces the warming impact of these emissions if they were to have remained in the atmosphere. Shockingly, though, only 1 percent of that heat has ended up in the atmosphere nearly 90 percent of it, is going into the ocean. There, it’s setting ocean heat records year after year and driving increasingly severe marine heat waves. As the ocean temperature has risen its ability to absorb CO2 has decreased. Colder ocean water dissolves more CO2, absorbing more from the atmosphere. But we have steadily increased carbon emissions. The percent of current emissions produced sequestered into the oceans is thirty.
It is unknown if this uptake can be sustained. What might happen to the Earth’s atmosphere if the ocean is unable to absorb continued increased carbon dioxide?
“If the seas are warmer than usual, you can expect higher air temperatures too, says Tim Lenton, professor of climate change at Exeter University. Most of the extra heat trapped by the build-up of greenhouse gases has gone into warming the surface ocean, he explains. That extra heat tends to get mixed downwards towards the deeper ocean, but movements in oceans currents – like El Niño – can bring it back to the surface.”
The ocean surface favors mineral formation, in deeper waters it dissolves.
We have enter a new Epoch, The Pyrocene
So it is obvious industrializing the oceans with offshore wind farms and deep sea mining, what capitalism calls the Blue Economy, will have the effect of continued acidification. But it will cause even more ramifications because it will have a direct impact on the species that live there and in the habitat where “raw” materials are extracted.
Regions of the ocean where the plankton communities are more efficiently utilizing organic matter, such as the deep sea, are places where the ocean has a naturally lower capacity to absorb some of the carbon dioxide produced by humans. “So understanding how zooplankton(small aquatic animals) communities process carbon, which, to them, represents food and energy, helps us to understand the role of the ocean in absorbing carbon dioxide in the atmosphere,” – Conner Shea doctoral student in the UH Mānoa School of Ocean and Earth Science and Technology (SOEST) Department of Oceanography.
We are headed for a Blue Ocean Event by 2030 – that is for the first time since ancient humans started roaming Earth several million years ago, an ice-free Arctic Ocean in the summer. The water instead of ice will be absorbing the suns heat rather than reflexing it back. Thus increasing sea temperature rise and disruption of the jet stream. This is basically what solar panels and wind turbines do. They make the earth hotter. Wind turbines extract the cooling breezes for their energy, the opposite of a fan. Miles and miles of solar panels destroy habitat and absorb the heat.
Continued industrialization will have the devastating effect of threats to food supplies, loss of coastal protection, diminished biodiversity and disruption of the carbon cycling – arising from these chemical reactions. This story involves a fundamental change within the largest living space on the planet, changes that are happening fast, and right now.
The oceans will find a new balance hundreds of thousands of years from now but between now and then marine organisms and environments will suffer.
What causes climate change?
The earth’s temperature cycles, glacial – interglacial, are primarily driven by periodic changes in the Earth’s orbit. Three distinct orbital cycles – called Milankovitch cycles. A Serbian scientist calculated that Ice Ages occur approximately every 41,000 years. Subsequent research confirms that they did occur at 41,000-year intervals between one and three million years ago. But about 800,000 years ago, the cycle of Ice Ages lengthened to 100,000 years, matching Earth’s deviation of orbit from circularity cycle. While various theories have been proposed to explain this transition, scientists do not yet have a clear answer. So CO2 historically has not caused climate change, it’s increased in the atmosphere during warmer temperatures and decreased during colder temperatures. Feedback loops have amplified changes initiated by orbital variations. But it is now humans that are currently increasing the amount of CO2 in the atmosphere by burning fossil fuels.
Strictly from an anthropocentric point of view, humanity could adapt to global warming and extreme weather changes. It will not survive the extinction of most marine plants and animals. The destruction of nature is more dangerous than climate change. It is sad that in the effort to save the climate and continuance of business as usual, we are destroying the environment. All of life came from the sea, it would be unwise to harm the birthplace of all species.
Editor’s Note: Scientists have been known to make modest predictions when it comes to ecological crises. This is a reason many predictions come about long before the expected timeline. The following article looks at some recent events to argue that climate collapse has already begun.
In 2023, different climatic anomalies have been recorded that set new historical records in the tragic progression of climate change at the global level.
Thus, in June, the surface temperature in the North Atlantic reached the maximum increase of 1.3 degrees Celsius with respect to preindustrial values. In a similar direction—although in lower values—the average temperature of the seas at the global level increased. On the other hand, the retraction of Antarctic ice reached a new limit, reaching the historical decrease of 2016, but several months earlier in the middle of the cold season.
The combination of these records has led scientists who follow these processes to warn of the danger of a profound change in the currents that regulate temperature and life in the oceans and globally. The heat waves recorded on the coasts of a large part of the world—in Ireland, Mexico, Ecuador, Japan, Mauritania, and Iceland—may, in turn, be proof of this.
These phenomena, of course, are not limited to the seas. On Thursday, July 6, the global air temperature (measured at two meters above the ground) reached 17.23 degrees Celsius for the first time in the history of the last centuries, 1.68 degrees Celsius higher than preindustrial values; last June was already the warmest month in history. Meanwhile, temperatures on the continents, particularly in the North, also broke records: 40 degrees Celsius in Siberia, 50 degrees Celsius in Mexico, the warmest June in England in the historical series that began in 1884.
And its counterpart, droughts, such as the one plaguing Uruguay, where the shortage of fresh water since May has forced the increasing use of brackish water sources, making tap water undrinkable for the inhabitants of the Montevideo metropolitan area, where 60 percent of the country’s population is concentrated. This is a drought that, if it continues, could leave this region of the country without drinking water, making it the first city in the world to suffer such a catastrophe.
But the stifling heat and the droughts also bring with them voracious fires, such as the boreal forest fire that has been raging across Canada for weeks, with more than 500 outbreaks scattered in different regions of the country, many of them uncontrollable, and the widespread images of an apocalyptic New York darkened and stained red under a blanket of ashes.
This accumulation of tragic evidence, against all the denialist narratives, makes it undeniable that the climate crisis is already here, among us. It also indicates the absolute failure of the policies and initiatives adopted to reduce the emission or presence of greenhouse gases in the atmosphere. In this direction, in May of 2023, the levels of carbon dioxide (CO2) measured at NOAA’s global reference observatory in Hawaii reached an all-time high of 424 parts per million (ppm), becoming more than 50 percent higher than before the beginning of the industrial era and, those of the period January—May 2023, 0.3 percent higher than those of the same period of 2022 and 1.6 percent compared to that of 2019. According to the latest report of the United Nations Intergovernmental Panel on Climate Change (IPCC), the global surface temperature has risen faster since 1970 than in any other 50-year period for at least the last 2,000 years, the same period in which international agreements and national initiatives to combat the causes of climate change were deployed. The failure of these policies is also reflected, in our present, in the persistence and strength of a fossil capitalism and its plundering and socio-environmental destruction.
Not only have these so-called mitigation policies failed, but also the so-called adaptation policies aimed at minimizing the foreseeable impacts of climate change are weak or even absent.
In the same vein, the annual report of the World Meteorological Organization (WMO, Global Annual to Decadal Climate Update) released in May 2023 warned that it is very likely (66 percent probability) that the annual average global temperature will exceed 1.5 degrees Celsius in at least one year of the next five years (2023-2027), it is possible (32 percent probability) that the average temperature will exceed 1.5 degrees Celsius and it is almost certain (98 percent probability) that at least one of the next five years, as well as the five-year period as a whole, will be the warmest on record; The IPCC has estimated serious consequences if this temperature is exceeded permanently.
How close to this point will the arrival of the El Niño phenomenon place us this year and possibly in the coming years? El Niño is an event of climatic origin that expresses itself in the warming of the eastern equatorial Pacific Ocean and manifests itself in cycles of between three and eight years. With antecedents in the 19th century, in 1924 climatologist Gilbert Walker coined the term “Southern Oscillation” to identify it and in 1969 meteorologist Jacob Bjerknes suggested that this unusual warming in the eastern Pacific could unbalance the trade winds and increase the warm waters toward the east, that is, toward the intertropical coasts of South America.
But this is not simply a traditional meteorological phenomenon that recurs in irregular annual periods. It is not a natural phenomenon; however many attempts are made, time and again, to make invisible or deny its social causes. On the contrary, in recent decades, the dynamics of the climate crisis have increased both in frequency and intensity. Already in early 2023, the third continuous La Niña episode concluded, the third time since 1950 that it has extended over three years and with increasing intensity. Likewise, in 2016, El Niño led to the average temperature record reached by the planet. And different scientists estimate today that this Super El Niño may be repeated today with unknown consequences given the levels of greenhouse gases and the dynamics of the current climate crisis.
The banners of a change inspired by social and climate justice and the effective paths of this socio-ecological transition raised by popular movements are becoming more imperative and urgent today. It is possible to propose an emergency popular mitigation and adaptation plan. But to make these alternatives socially audible, to break with the ecological blindness that wants to impose itself, it is first necessary to break the epistemological construction that wants to inscribe these catastrophes, repeatedly and persistently, in a world of supposedly pure nature, in a presumably external field, alien and outside human social control.
This is a matrix of naturalization that, while excluding social groups and the mode of socioeconomic organization from any responsibility for the current crises, wants to turn them into unpredictable and unknowable events that only leave the option of resignation, religious alienation, or individual resilience. The questioning of these views is inscribed not only in the discourses but also in the practices and emotions, in responding to the catastrophe with the (re)construction of bonds and values of affectivity, collectivity, and solidarity—indispensable supports for emancipatory change.
Editor’s note: The FPIC (Free, prior and informed consent) and UNDRIP (UN Declaration of the Rights of Indigenous Peoples) are international standards, that some companies have adopted into their policies. The FPIC is an international human rights principle that protect peoples’ rights to self-determination. UNDRIP delineates and defines the individual and collective rights of indigenous peoples. Both of these are important principles that improve the sovereignty of indigenous peoples. However, neither of these are legally binding, which has disastrous outcomes.
Companies and countries alike are bypassing these principles in favor of profitable ventures, most recent of which are clean energy projects.
Right now, companies that advance the “clean” energy transition are threatening the land and the livelihoods of indigenous peoples and peasants. Demand for minerals like copper and lithium is skyrocketing, as every economic sector is being transitioned towards the fourth industrial revolution. But indigenous peoples need to have their right to a say in decisions affecting to their land. Ecosystems and people living with the land are being victimized to serve an economy that is desperately trying to save itself from collapsing.
When Francisco Calí Tzay, the United Nations special rapporteur on the rights of Indigenous peoples, spoke at the 22nd United Nations Permanent Forum on Indigenous Issues, or UNPFII, last week, he listed clean energy projects as some of the most concerning threats to their rights.
“I constantly receive information that Indigenous Peoples fear a new wave of green investments without recognition of their land tenure, management, and knowledge,” said Calí Tzay.
His statements — and those made by other delegates — at what is the world’s largest gathering of Indigenous peoples, made clear that without the free, prior, and informed consent of Indigenous people, these “green” projects have the capacity to seriously impede on Indigenous rights.
Free, prior and informed consent — known as FPIC — has always been an important topic at the UNPFII, but this year it’s taken on a renewed urgency.
Mining projects and carbon offsets put pressure on indigenous groups
“The strong push is because more and more of climate action and targets for sustainable development are impacting us,” said Joan Carling, executive director of Indigenous Peoples Rights International, an Indigenous nonprofit that works to protect Indigenous peoples’ rights worldwide.
Protest against Thacker Pass lithium mine. Image courtesy Max Wilbert
Indigenous peoples around the world are experiencing the compounding pressures of clean energy mining projects, carbon offsets, new protected areas and large infrastructure projects on their lands as part of economic recovery efforts in the wake of Covid-19, according to The International Work Group for Indigenous Affairs 2023 report.
Green colonialism threatens ecosystems
As states around the world trend towards transitioning to “clean” energy to meet their national and international climate goals, the demand for minerals like lithium, copper, and nickel needed for batteries that power the energy revolution are projected to skyrocket. The demand could swell fourfold by 2040, and by conservative estimates could pull in $1.7 trillion in mining investments.
Although Indigenous delegates say they support “clean” energy projects, one of the issues is their land rights: more than half of the projects extracting these minerals currently are on or near lands where Indigenous peoples or peasants live, according to an analysis published in Nature.
This can lead to their eviction from territories, loss of livelihoods, or the deforestation and degradation of surrounding ecosystems.
“And yet […] we are not part of the discussion,” said Carling. “That’s why I call it green colonialism — the [energy] transition without the respect of Indigenous rights is another form of colonialism.”
However, standing at the doorway of a just “clean” energy transition is FPIC, say Indigenous delegates. FPIC is the cornerstone of international human rights standards like the U.N. Declaration on the Rights of Indigenous Peoples, known as UNDRIP. Though more than 100 countries have adopted UNDRIP, this standard is not legally binding.
Companies and governments don’t abide by communities
Because of this, delegates are calling on countries and companies to create binding policy and guidelines that require FPIC for all projects that affect Indigenous peoples and their lands, as well as financial, territorial and material remedies for when companies and countries fail to do so.
However, there is some push back. The free prior, informed consent process can lead to a wide variety of outcomes including the right for communities to decline a highly profitable project, which can often be difficult for countries, companies and investors to abide by, explains Mary Beth Gallagher, the director of engagement of investment at Domini Impact Investments, who spoke at a side event on shareholder advocacy.
Indigenous Sámi delegates from Norway drew attention to their need for legally enforceable FPIC protection as they continue to protest the Fosen Vind Project, an onshore wind energy complex on Sámi territory, that the country’s Supreme Court ruled violated their rights.
“We have come to learn the hard way that sustainability doesn’t end colonialism,” said a Sámi delegate during the main panel on Tuesday.
Across the globe indigenous peoples face eviction
In the United States, the Reno-Sparks Indian Colony, the People of Red Mountain and members of the Fort McDermitt Tribe filed lawsuits against the federal Bureau of Land Management for approving the permits for an open-pit lithium mine without proper consultation with the tribes. In the Colombian Amazon, the Inga Indigenous community presented a successful appeal for lack of prior consultation from a Canadian company that plans to mine copper, molybdenum and other metals in their highly biodiverse territory.
Consternation over governments and multinational companies setting aside FPIC has long extended over other sectors, like conservation and monoculture plantations for key cash crops. In Peru, the Shipibo-Konibo Indigenous peoples are resisting several large protected areas that overlap with their territory and were put in place without prior consultation. In Tanzania and Kenya, the Maasai are being actively evicted from their lands for a trophy hunting and safari reserve. Indigenous Ryukyuan delegates condemn the ongoing use of their traditional lands and territories by the Japanese and U.S. governments for military bases without their free, prior, and informed consent.
Implementing the FPIC is truly sustainable
While delegates put a lot of emphasis on the lack of FPIC, they put equal emphasis on FPIC as a crucial part of the long-term sustainability of energy projects.
“FPIC is more than just a checklist for companies looking to develop projects on Indigenous lands,” said Carling. “It is a framework for partnership, including options for equitable benefit sharing agreements or memorandum of understanding, collaboration or conservation.”
The focus at this year’s conference has emphasized the growing role of FPIC in the private sector. Investors and developers are increasingly considering the inclusion of FPIC into their human rights due diligence standards. Select countries such as Canada have implemented UNDRIP in full, although First Nation groups have pointed out irregularities in how it is being implemented. The European Union is proposing including specific mandatory rights to FPIC in its corporate sustainability due diligence regulation. Side events at the UNPFII focused on topics like transmitting FPIC Priorities to the private sector and using shareholder advocacy to increase awareness of FPIC.
Gallagher of Domini Impact Investments said companies have a responsibility to respect human rights, which includes FPIC: “If they have a human rights commitment or they have a commitment in their policies not to do land grabs, we have to hold them to account for that.”
Indigenous leadership at the center of negotiations
In 2021, the world’s largest asset manager, BlackRock, published an expectation that companies “obtain (and maintain) the free, prior, and informed consent of Indigenous peoples for business decisions that affect their rights.” Large banks like Credit Agricole have included FPIC in their corporate social responsibility policy. But in most cases, even when companies have a FPIC policy it doesn’t conform to the standard outlined in UNDRIP and is not legally binding.
“It doesn’t do the work it’s supposed to do to protect self-determination,” said Kate Finn, director at First Peoples Worldwide. “It becomes a check-the-box procedure that’s solely consultations and stakeholder consultation instead of protection of rights and self-determination.”
“If communities aren’t giving their consent, a company has to respect that,” said Gallagher, who added “There’s obviously points of tension where investors have different agendas and priorities but ultimately, it’s about centering Indigenous leadership and working through that.”
Not properly abiding by FPIC can be costly to companies in countries that operate where it is a legal instrument. It comes with risks of losing their social operation to license, and financial damages. According to a study by First Peoples Worldwide, Energy Transfer and the banks that financed the now-completed Dakota Access Pipeline, lost billions due to construction delays, account closures, and contract losses after they failed to obtain consent from the Standing Rock Sioux Tribe in the United States.
Ultimately, Indigenous people need to be part of decision-making from the beginning of any project, especially “clean” energy projects mining for transition minerals on their territories, said Carling. “For us, land is life, and we have a right to decide over what happens on our land.”
Banner by Carolina Caycedo. Lithium Intensive, 2022. Color pencil on paper. Courtesy of the artist.
Editor’s note: In order to create a culture where the greed of humans reigned supreme to the needs of life on the planet, the human civilization had to create myths. Categorically claiming that the past was worse, in terms of human rights and equality, stopped any discussion over the detrimental state of both in present society. All of these myths directly or indirectly form the basis of human supremacy, male supremacy and the Eurocentric perspective. Challenging these assumptions are just one of the ways to bring cultural changes. The following article talks about three of such myths about our past that have been dismissed by recent evidence.
This article was produced by Human Bridges, a project of the Independent Media Institute.
The New Gilded Age, wars along the Russian border, a global pandemic, battles for women’s rights, even the Titanic: history does rhyme with the present. Yet as former New York Times columnist Bob Herbert once observed: “If history tells us anything, it’s that we never learn from history.”
That’s something we can realistically change. And if we do, we’ll have an easier time addressing the macro and multiple challenges humanity faces, and finding the pathways to necessary compromises and alliances with people across all borders.
But our blinders and misconceptions about the past constrain the knowledge that we have to plan for a better future. Societies don’t get much out of living memory because the longer-term ramifications from recent decisions generally remain unsettled, and most of the big problems we face are the cumulative products of decades or centuries of the wrong approach to humanity’s histories and transitions. To leverage and learn from humanity’s history regarding what fostered sustainability in the past, we need to know the outcomes.
The good news is that through concerted research in history and archaeology, we now know a great deal more about the different paths that people have taken and their outcomes than we did just fifty years back. Long-term perspectives on cities, states, and empires are now much fuller and more regionally diverse than was known decades ago. Synthetic, comparative analyses have been undertaken. We now know what worked and what did not.
To draw better inferences and learn from past human histories, it is necessary to challenge three pervasive myths, which fundamentally shape not just what we think about the past, but why so many see history as irrelevant when it comes to guiding the present and shaping the future. Each myth is pervasive and entrenched as the ideas and presumptions behind them were born and entangled with the roots of the Western tradition of social sciences, baked into the frameworks through which researchers traditionally study the past.
The first myth supposes that humans in their natural state are nasty, brutish, and self-absorbed, only tamed by the power and coercion of the state. Clearly, humans do have the capacity for great selfishness, but as a species, we also are better cooperators with non-kin than any other animal. This seeming paradox is explicable if we recognize that people are not by nature either uniformly cunning or cuddly, but rather humans, past and present, are capable of both cooperation and selfishness depending on context. Our nature is not one-dimensional. Cooperative behavior is situational; we engage when an individual’s wants dovetail with their larger social network. Lack of alignment short-circuits cooperation whether the network is large or small.
The first supposition or myth undergirds a broadly held second one—that large premodern societies were universally coercive or despotic in organization. Autocratic governance kept the ever-selfish in line, the argument goes. Ancient Athens and republican Rome generally have been categorically distinguished as the unexplained exception to this presumed premodern path, which came to an end just a few centuries ago when ideas from the Classical era were rediscovered, giving rise to The Enlightenment, when Europeans adopted reason, science, democracy, and more.
The latter scenario became the mid-twentieth-century justification for the third myth, the walling off of modernity from the deeper past. Only after the Enlightenment with rational thought could people organize themselves democratically, in forms of governance where voice, power, and resources were not monopolized by a few.
These three myths underlie the severing of deep history, especially non-Western pasts, from the present. Often in the absence of robust historical information, contemporary observations of non-Western peoples were categorically slotted into imagined pasts that led stage-by-stage to modernist Western presents and futures.
Progressive visions of human history spurred research in history, archaeology, and related disciplines. What we have learned over recent decades does not conform with those starting myths and expectations. Change was not linear, nor was it uniform from region to region. Likewise, premodern governance was not consistently despotic, especially in the Indigenous Americas. Yet in every global region, how people governed themselves shifted over time.
When it comes to the past, we also know the outcomes. And, in the region where I study, prehispanic Mesoamerica, cities that were governed more collectively with less concentrated power tended to persist as central places longer than those urban settlements that were ruled more autocratically. A similar pattern, albeit less definitive, was also found for a global sample of states and empires. More in-depth study is necessary, but these historical patterns seem worth investigating in other regions and probing further where they have been documented. The role and success of governance and institutions in facing and meeting the challenges of the past unlock a treasure trove of information that just may guide us toward better futures.
Gary M. Feinman is an archaeologist and the MacArthur curator of Anthropology, Field Museum of Natural History, Chicago.
The 2023 DGR conference is scheduled for late August in northern California. This annual gathering is an opportunity for our community to share skills, reflect on our work, strengthen our connections, and plan for the future. While this conference is only open to DGR members, we do invite friends and allies on a case-by-case basis. If you’re interested in attending, please contact us, and if you’d like to donate to support the conference, click here.
Editor’s Note: This essay was originally published in 2021, but is timely today as the new Christopher Nolan film “Oppenheimer” has just been released. As people are coming to realize the Bright Green Lies of “renewable” energy, they are looking for other ways to continue their unsustainable lifestyles. Many people are seriously considering risking more nuclear reactor accidents, waste and nuclear winter as the war in Ukraine continues to escalate.
“The unleashed power of the atom has changed everything except our thinking. Thus, we are drifting toward catastrophe beyond conception. We shall require a substantially new manner of thinking if mankind is to survive.”
― Albert Einstein
At 8:15am on August 6, 1945, cameras began to click on board the Necessary Evil, a military flight over southern Japan. Necessary Evil’s mission was to photograph the first atomic bombing in history. Nearby, on board another plane, the Enola Gay, bombardiers opened hatches on the belly of the plane and pulled levers to release the bomb.
It was called Little Boy. Ten feet long and 28 inches in diameter, it weighed 9,700 pounds, 141 of which were enriched uranium. The bomb dropped out of the plane and began falling. It took about 12 seconds to reach terminal velocity, which, for a big oblong object like Little Boy is around 1,000 feet per second. But the extra 12 seconds of time for spend accelerating meant that it took 53 seconds to fall from 31,060 feet to 1,900 feet, where it detonated.
Hiroshima shortly after the city was bombed in August 1945.
The explosion began directly above a hospital, Shima byōin. Within a fraction of a second, the 80 residents and staff of that building, and perhaps 20,000 other people, were dead. The first died from thermal radiation, which travels at the speed of light and causes “flash burns.” Within seconds, the blast wave followed, traveling at 300 meters per second, rupturing eardrums, shredding lungs, tearing blood vessels, and flattening buildings.
Three days later, a second bomb was dropped on another city in southern Japan, Nagasaki. Within 4 months, as casualties from radiation burns and firestorms mounted, the death toll from these two bombs reached 200,000, with as many again injured.
Mass destruction was not new. Earlier that year, in March, 325 U.S. Air Force planes bombed Tokyo with napalm, igniting a firestorm that destroyed a quarter of the city and killed 100,000 people. But Hiroshima marked the beginning of the nuclear age. Now, the same destruction could be executed with a single plane and a single bomb.
Ever since, historians have argued over whether or not these bombings were necessary. The U.S. Military’s own review concluded “Based on a detailed investigation of all the facts… [that] prior to 31 December 1945, and in all probability prior to 1 November 1945, Japan would have surrendered even if the atomic bombs had not been dropped.” Many have concluded that the bombings were, as Nobel-prize winning scientist Patrick Blackett wrote, “the first major operation of the cold diplomatic war with Russia.”
That Cold War began with 200,000 deaths, and the atrocities would continue over the coming decades, all around the world: coups, assassinations, political purges, gulags, McCarthyism, proxy wars, and brutal economic combat.
While World War II and The Cold War have ended, the threat of nuclear war has not, and neither has the danger posed by nuclear power generation. And while the dangers of Three Mile Island, Fukushima, and especially Chernobyl [and the risks around Zaporizhzhya, today] cannot be underestimated, nuclear waste is perhaps a bigger danger than accidents.
This trifecta of horrors—nuclear war, nuclear accidents, and nuclear waste—still haunts our world today.
Immediately following the bombings of Hiroshima and Nagasaki, scientists from the Manhattan Project created a non-profit organization called the Bulletin of the Atomic Scientists dedicated to educating about the dangers our world faces “at a time when technology is outpacing our ability to control it.”
In 1947, members of the Bulletin launched “The Doomsday Clock” — a metaphorical representation of the likelihood of global catastrophe. Each year, a team of scientists, Nobel laureates, and others experts meets to consider the current state of man-made global threats from nuclear weapons, global warming, and disruptive technology, and set the time on the clock accordingly. The closer to midnight, the higher the level of danger.
The doomsday clock currently is set 90 seconds to midnight.
This is the direst warning the Bulletin has ever issued.
In explanation, the Bulletin’s scientists write that “Accelerating nuclear programs in multiple countries moved the world into less stable and manageable territory [over the past year]… Development of hypersonic glide vehicles, ballistic missile defenses, and weapons-delivery systems that can flexibly use conventional or nuclear warheads may raise the probability of miscalculation in times of tension… Nuclear nations… have ignored or undermined practical and available diplomatic and security tools for managing nuclear risks. By our estimation, the potential for the world to stumble into nuclear war—an ever-present danger over the last 75 years—increased in 2020. An extremely dangerous global failure to address existential threats… tightened its grip in the nuclear realm in the past year, increasing the likelihood of catastrophe.”
The link between nuclear power and nuclear weapons is long established. The enriched uranium and plutonium, as well as other so-called “fissionable material” used in nuclear weapons, can be sourced from nuclear reactors, which is why Iran’s creation of a civilian nuclear power program has been so contentious over the past decade.
Proponents of nuclear power argue that it is a safe, low-carbon energy source. There are nearly 500 nuclear power reactors in the world today, with more under construction. But beyond the risks of nuclear accidents and the nightmare of nuclear waste (who thinks it is a good idea to intentionally unearth and enrich materials that will be highly toxic for billions of years?), each of these reactors is a potential vector for dangerous weapons-grade nuclear materials to be lost, stolen, or knowingly redirected into weapons programs.
According to the Nuclear Threat Initiative, there were 46 cases of nuclear materials being stolen between 2010 and 2016, as well as 57 cases of lost material, and dozens of other concerning incidents. There are already nearly 900,000 metric tons of weapons-grade uranium and plutonium stored around the world, most of it in Russia and the United States.
Thacker Pass before the destruction began; September 2022. Photo by the author.
You may wonder how this is connected to Thacker Pass (Peehee Mu’huh” in the Paiute language). For the past 31 months, I have been working to protect this part of remote Northern Nevada from a proposed 28-square mile lithium mine. The mainstream environmental organizations weren’t doing anything about it, so I decided I had to.
Joining with my friend Will Falk and working to find other allies, we set out to stop the Thacker Pass lithium mine. Supporters of lithium mining believ it’s an essential mineral to help move away from fossil fuels and help, global warming. We disagree. Lithium is dangerous, for many reasons.
This work hasn’t been easy. We’ve endured winter storms, blistering temperatures, physical and legal threats, three years of long days and late-night work sessions, and the BLM is attempting to fine me and my friend Will Falk $49,890.13 for defending this land. Now, we’re being sued for defending the land. The forces arrayed against us are powerful. But we persist.
The booming demand for lithium is mainly driven by the electric vehicle industry, and demand for massive “grid-scale” batteries to store electricity from intermittent sources like wind and solar energy generation facilities. But lithium is also used in a wide variety of other industries.
This includes chemical propellants for rockets and torpedoes used by militaries and in spaceflight; in glass production; in metallurgy such as aluminum smelting, alloy production, and welding; in the production of fireworks and flares; and in the production of synthetic rubber and other plastics.
But here, I want to focus on a problem that I have not seen discussed before in regards to the Thacker Pass mine: the links between lithium and the nuclear industry.
There are two stable isotopes of lithium: lithium-6 and lithium-7. According to the World Nuclear Association, “Lithium-7 has two important uses in nuclear power today and tomorrow due to its relative transparency to neutrons. As hydroxide it is necessary in small quantities for safe operation in pressurised water reactor (PWR) cooling systems as a pH stabilizer, to reduce corrosion in the primary circuit. As a fluoride, it is also expected to come into much greater demand for molten salt reactors (MSRs).”
PWRs, or Pressurized Water Reactors, are a type of nuclear reactor that can be found in exactly two thirds of the world’s nuclear power plants. Engineers at these facilities, most of which are quite old at this point, are constantly dealing with corrosion in the components of their radioactive water cycling systems. Highly purified lithium-7 hydroxide is used in these systems “as an additive in PWR primary coolant, at about 2.2 ppm, for maintaining water chemistry, counteracting the corrosive effects of boric acid (used as neutron absorber) and minimizing corrosion in steam generators of PWRs.”
Lithium-7 is also used directly in nuclear weapons, where the reaction itself can produce the necessary tritium to fuel a runaway nuclear reaction. In 1954, the largest atmospheric nuclear weapons test in US history took place over the Bikini Atoll. Due to a shortage of lithium-6 (which is less common and hard to produce), the “Shot Bravo” nuke was built with lithium-7 instead. The bomb was projected to yield a 10-megaton blast. But due to lithium-7’s incredibly explosive features, the yield was 15 megatons—equivalent to every bomb dropped by the allies in World War II exploding at once.
One account describes the effect of the bomb: “An entire island turned into radioactive dust and the fallout seriously contaminated Bikini and two neighboring atolls. The ships of the Operation Castle task force steamed at flank speed away from the mushroom cloud, their decks covered with radioactive coral shards. The Japanese fishing vessel Fifth Lucky Dragon, sailing well outside the safety zone, suffered one death and several casualties from radiation. The bomb’s firing crew retreated to a closet in their concrete bunker for 12 hours while their Geiger counters roared.”
Lithium-6 is more rare than lithium-7 in nature, but is widely used in the nuclear weapons industry. When used as a target element in a reactor or a nuclear weapon, it reacts with a neutron to produce tritium (T), the most important thermonuclear material for weapons. According to the Institute for Science and International Security, “Lithium 6 is a critical raw material needed for the production of single-stage thermonuclear and boosted fission weapons.”
In the United States, the Tennessee Valley Authority operates three nuclear reactors. One of these, Watts Bar, uses lithium as the feedstock for producing tritium for use in nuclear weapons. This tritium is a key component in those weapons, but it needs to be constantly replenished. Tritium has a half-life of only 12.3 years and decays at 5.5% annually. That’s why tritium sourced from reactors using lithium is currently being used to rebuild and replace the U.S. nuclear arsenal as part of a 30-year, trillion dollar nuclear weapons plan launched under Obama.
Many critics of the nuclear weapons industry believe that nuclear power is, in general, little more than a civilian cover for the production of nuclear weapon material.
Meanwhile, advocates of nuclear power such as Bill Gates argue that next-generation reactors will address the problems that have plagued nuclear power—safety issues, radioactive waste, weapons proliferation, and high cost. But the Union of Concerned Scientists calls this “wishful thinking,” noting in their most recent report that serious concerns remain unresolved.
Modular Salt Reactors (MSRs), for example, produce massive amounts of radioactive waste that is exceptionally dangerous from a nuclear proliferation standpoint (U-233), and they are extremely difficult to clean up at the end of their relatively short lifespans. Current prototypes also depend heavily on lithium. Saudi Arabia and the United Arab Emirates are both on the verge of activating MSR reactors (perhaps with illegal assistance from the Trump Administration and U.S. corporations), which may lead directly to them becoming nuclear powers. And fusion reactors, for the foreseeable future, consume far more energy than they produce, amounting to nothing more than an exceptionally expensive and dangerous experiment (an experiment in which lithium is being used to control plasma).
The bottom line here is that the dangerous nuclear power industry, and the nuclear weapons that depend on it, require a steady supply of lithium. As nuclear tensions once again escalate, the Department of Energy is moving toward 100% U.S. sourcing of uranium in order to bypass international treaty obligations, which require the disclosure of locations and volumes of highly enriched uranium a country possesses. By cutting out foreign sourcing, the supply chain is kept more obscure. A similar consideration no doubt underlies, in part, the swift permitting of the Thacker Pass lithium mine. This mine is a part of the nuclear supply chain, and given that most U.S. lithium is now sourced overseas, war hawks no doubt prefer that this place is sacrificed.
One must step outside the halls of power to find sanity. The nuclear industry has been an unmitigated disaster from the beginning. I say this as someone who grew up in Washington State. We have seen the horror that is Hanford. And Nevadans know the perils of nuclear weapons and waste better than almost anyone else on the planet.
If the Thacker Pass lithium mine is built, lithium produced there may end up inside nuclear reactors and inside nuclear weapons. How would you feel if you were involved in a project that supplied critical material to power the next nuclear disaster?
Yes, Nevada has a bleak history of nuclear weapons testing and waste storage. Yet from the Nevada Test Site to Yucca Mountain, there is as long and as rich a history of resistance. Of sanity. Of desire for peace. I would like to invite all the activists, politicians, and regular people who fought nuclear testing and nuclear waste disposal across this region to join the fight against lithium mining as well.
Ceremonial tipi at Ox Sam Newe Momokonee Nokutun “Indigenous Women’s Camp” in May 2023. Myself and others associated with this non-violent action are being sued by Lithium Nevada Corporation.
There are many ways of laying waste to the Earth, and to our future. Nuclear technologies and strip mining are two of them. And in this case, they are firmly linked. That is why we must stand up against lithium mining and nuclear catastrophes alike.
“We all want progress, but if you’re on the wrong road, progress means doing an about-turn and walking back to the right road; in that case, the man who turns back soonest is the most progressive.”
― C. S. Lewis
The 2023 DGR conference is scheduled for late August in northern California. This annual gathering is an opportunity for our community to share skills, reflect on our work, strengthen our connections, and plan for the future. While this conference is only open to DGR members, we do invite friends and allies on a case-by-case basis. If you’re interested in attending, please contact us, and if you’d like to donate to support the conference, click here.
