Dozens of once-pristine rivers and streams in Alaska’s Brooks Range are turning an alarming shade of orange. The discoloration, according to a new study published in the journal Communications Earth and Environment, is likely caused by the thawing of permafrost, which is exposing previously frozen minerals that are now leaching into the waterways.
The research team, led by ecologist Jon O’Donnell from the U.S. National Park Service, documented 75 locations across a vast area of northern Alaska where the crystal-clear waters now appear heavily stained. Using satellite imagery and field observations, the scientists determined that the onset of this discoloration coincided with a period of warming and increased snowfall in the region over the past decade.
Permafrost, which is ground that remains frozen year-round, acts as a storage vault for various minerals. As rising temperatures cause this frozen layer to thaw, these minerals are exposed to water and oxygen, triggering chemical reactions that release iron and other metals into the groundwater. This metal-rich water then makes its way into rivers and streams.
“Our recent study highlights an unforeseen consequence of climate change on Arctic rivers,” study co-author Brett Poulin, an environmental toxicologist from the University of California, Davis, told Mongabay. “Arctic environments are warming up to four times faster than the globe as a whole, and this is resulting in deterioration of water quality in the most pristine rivers in North America.”
Map of orange stream observations across Arctic Inventory and Monitoring Network (ARCN) parks in northern Alaska. Picture inserts show aerial images of select iron-impacted, orange streams. Map created by Carson Baughman, U.S. Geological Survey. Photos by Kenneth Hill, National Park Service. Public domain.
Impacts of iron mobilization in a stream tributary of the Akillik River located in Kobuk Valley National Park, Alaska. These images were taken two years apart. The clear picture was taken in June 2016 and the orange picture was August 2018. Photos by Jon O’Donnell, National Park Service.
Water samples collected from the affected streams revealed lower pH levels and higher concentrations of sulfates and trace metals compared to nearby unaffected waterways. In some cases, the pH levels dropped to 2.3, similar to the acidity of vinegar. The presence of elevated levels of iron, zinc, nickel and copper is the primary cause of the color change.
The ecological consequences of this phenomenon could be significant. At one site in Kobuk Valley National Park, researchers observed the disappearance of fish species and a decline in aquatic insect diversity shortly after the appearance of orange water. Juvenile Dolly Varden trout (Salvelinus malma) and slimy sculpin (Cottus cognatus) were among the fish species that vanished from the stream.
“Many of these affected streams serve as important spawning grounds and nurseries for salmon and other fish species that are crucial to the ecosystem and local subsistence fisheries,” study co-author Michael Carey, a fisheries biologist with the U.S. Geological Survey, said in a statement. “Changes in water quality could have effects throughout the food web.”
Human communities in the region also rely on these rivers and streams for their drinking water supply and subsistence fishing. As permafrost thaw accelerates and more minerals are released into the waterways, the safety and reliability of these resources could be impacted. Poulin emphasized the need for further research to understand the long-term implications for humans.
A tributary of the Kugororuk River runs orange in 2023. Photo by Josh Koch, U.S. Geological Survey. Public Domain.
“Our larger research effort aims to identify where the minerals are located that are the source of the metals and identify which rivers are most sensitive,” Poulin said. “With those two pieces of information, we will be able to accurately assess risk to the ecosystem and humans.”
Poulin also highlighted the uniqueness of these observations, noting that while gradual changes in water quality due to permafrost thaw have been documented in other parts of the Arctic and in high elevations of the Rockies and European Alps, the abrupt changes in water chemistry seen in the Brooks Range are particularly concerning.
“The rivers impacted by this phenomenon span the length of the Brooks Range” — about 1,100 kilometers, or 680 miles — “and involve some of the most pristine rivers in North America that are in protected lands and far from mining sources,” Poulin said.
As scientists work to better understand the complex interactions between thawing permafrost, mineral release and aquatic ecosystems, the study underscores the far-reaching consequences of climate change in the Arctic.
Banner image satellite imagery by Ken Hill, U.S. National Park Service.
Liz Kimbrough is a staff journalist for Mongabay. She has written about science and environmental issues since 2012 and holds a Ph.D. in Ecology and Evolutionary Biology from Tulane University where she studied the microbiomes of trees.
“Number is as fundamental as the other three cardinal metaphors,
space, time, and matter because it is an interrelated aspect of the
divide-and-conquer metaphor which extends and diversifies the primal unity.” – Roger S. Jones, from Physics As Metaphor
where’s the pleasure
when everything’s measured,
and why isn’t water declared
a national treasure,
because everything’s tallied
by numbers in a ledger
monthly bills with
amounts of water,
oil, natural gas, and electricity
the measurement’s diminishing the felicity
it’s mean (literally)
and pretends to be green
the opposite of grist to the mill,
the commodification machine
the commodification machine
with Midas touch
but what you gonna eat
when you touch your burger
and it’s no longer meat
the selfishness is in the word, “mine”
mine for copper, mine for nickel,
mine for lithium, mine for gold
but alchemy is turning cucumber into pickle
grains of sand
and stars in the sky,
too many to count
but at least the stars
they can’t commodify
where’s the pleasure
when everything’s measured,
why isn’t land declared
a national treasure,
because everything’s tallied
by numbers in a ledger
the destruction and deadly side-effects
of divide-and-conquers
proves that disregarding primal unity
is totally bonkers
raindrops, snowflakes,
blades of grass, wildflowers,
too many to count
even with countless hours
it’s mean (literally)
and pretends to be green
the opposite of grist to the mill,
the commodification machine
Editor’s note: Climate change can not be addressed without stopping the extinction and plastics crisis. Every day, an estimated 137 species of plants, animals and insects go extinct due to deforestation alone. Microplastics have been detected in more than 1,300 animal species, including fish, mammals, birds, and insects. A global plastic treaty will only work if it caps production. Bangladesh is about to implement its existing law regarding plastic usage by strictly banning single-use plastic and, gradually, all possible plastic uses.
Scientific models can never account for all of the interconnected relationships within planetary systems’ boundaries. That is one reason why catastrophe predictions are always being pushed ahead.
There is simply no way the current economic system can persist indefinitely on a finite planet. Unfortunately, COP16’s primary goal is critical to striking a sustainable balance between human civilization and the natural world. That is an impossibility. We must tackle the underlying causes of biodiversity loss, including fossil fuel extraction, mining, industrial agriculture, intensive livestock farming, large-scale infrastructure projects, and monoculture tree plantations, basically civilization.
It is time to end civilization. Everything that claims existence must lose it; this is the eternal law. Power never gives up power willingly; it can only be broken with struggle. Nature is struggling to survive; we should help it.
Wildlife, climate and plastic: how three summits aim to repair a growing rift with nature
By the end of 2024, nearly 200 nations will have met at three conferences to address three problems: biodiversity loss, climate change and plastic pollution.
Colombia will host talks next week to assess global progress in protecting 30% of all land and water by 2030. Hot on its heels is COP29 in Azerbaijan. Here, countries will revisit the pledge they made last year in Dubai to “transition away” from the fossil fuels driving climate breakdown. And in December, South Korea could see the first global agreement to tackle plastic waste.
Don’t let these separate events fool you, though.
“Climate change, biodiversity loss and resource depletion are not isolated problems,” says biologist Liette Vasseur (Brock University), political scientist Anders Hayden (Dalhousie University) and ecologist Mike Jones (Swedish University of Agricultural Sciences).
Earth’s fraying parasol “How hot is it going to get? This is one of the most important and difficult remaining questions about our changing climate,” say two scientists who study climate change, Seth Wynes and H. Damon Matthews at the University of Waterloo and Concordia University respectively.
The answer depends on how sensitive the climate is to greenhouse gases like CO₂ and how much humanity ultimately emits, the pair say. When Wynes and Matthews asked 211 authors of past reports by the Intergovernmental Panel on Climate Change, their average best guess was 2.7°C by 2100.
“We’ve already seen devastating consequences like more flooding, hotter heatwaves and larger wildfires, and we’re only at 1.3°C above pre-industrial levels — less than halfway to 2.7°C,” they say.
There is a third variable that is harder to predict but no less important: the capacity of forests, wetlands and the ocean to continue to offset warming by absorbing the carbon and heat our furnaces and factories have released.
This blue and green carbon pump stalled in 2023, the hottest year on record, amid heatwaves, droughts and fires. The possibility of nature’s carbon storage suddenly collapsing is not priced into the computer models that simulate and project the future climate.
However, the ecosystems that buffer human-made warming are clearly struggling. A new report from the World Wildlife Fund (WWF) showed that the average size of monitored populations of vertebrate wildlife (animals with spinal columns – mammals, birds, fish, reptiles and amphibians) has shrunk by 73% since 1970.
Wildlife could become so scarce that ecosystems like the Amazon rainforest degenerate, according to the report.
“More than 90% of tropical trees and shrubs depend on animals to disperse their seeds, for example,” says biodiversity scientist Alexander Lees (Manchester Metropolitan University).
“These ‘biodiversity services’ are crucial.”
The result could be less biodiverse and, importantly for the climate, less carbon-rich habitats.
Plastic in a polar bear’s gut
Threats to wildlife are numerous. One that is growing fast and still poorly understood is plastic.
Bottles, bags, toothbrushes: a rising tide of plastic detritus is choking and snaring wild animals. These larger items eventually degrade into microplastics, tiny fragments that now suffuse the air, soil and water.
“In short, microplastics are widespread, accumulating in the remotest parts of our planet. There is evidence of their toxic effects at every level of biological organisation, from tiny insects at the bottom of the food chain to apex predators,” says Karen Raubenheimer, a senior lecturer in plastic pollution at the University of Wollongong.
Plastic is generally made from fossil fuels, the main agent of climate change. Activists and experts have seized on a similar demand to address both problems: turn off the taps.
In fact, the diagnosis of Costas Velis, an expert in ocean litter at the University of Leeds, sounds similar to what climate scientists say about unrestricted fossil fuel burning:
“Every year without production caps makes the necessary cut to plastic production in future steeper – and our need to use other measures to address the problem greater.”
A production cap hasn’t made it into the negotiating text for a plastic treaty (yet). And while governments pledged to transition away from coal, oil and gas last year, a new report on the world’s energy use shows fossil fuel use declining more slowly than in earlier forecasts – and much more slowly than would be necessary to halt warming at internationally agreed limits. The effort to protect a third of earth’s surface has barely begun.
Each of these summits is concerned with ameliorating the effects of modern societies on nature. Some experts argue for a more radical interpretation.
“Even if 30% of Earth was protected, how effectively would it halt biodiversity loss?” ask political ecologists Bram Büscher (Wageningen University) and Rosaleen Duffy (University of Sheffield).
“The proliferation of protected areas has happened at the same time as the extinction crisis has intensified. Perhaps, without these efforts, things could have been even worse for nature,” they say.
“But an equally valid argument would be that area-based conservation has blinded many to the causes of Earth’s diminishing biodiversity: an expanding economic system that squeezes ecosystems by turning ever more habitat into urban sprawl or farmland, polluting the air and water with ever more toxins and heating the atmosphere with ever more greenhouse gas.”
Editor’s note: As humanity, we’ve come so far as to consider – after having wreaked havoc on a perfectly functioning ecosystems on a flourishing planet – that producing clouds from seawater is a good idea. It sounds too bizarre to be true and even hilarious – but it’s deeply sad.
There are indeed scientists who get paid for researching not in a laboratory but in real life situations, how millions of aircrafts and ships can bring tons of aerosols into the sky to prevent the sun from doing what she does: shining to provide sunlight.
It seems as if some start-up youngsters with a hangover after pulling an all-nighter came up with that idea. But no, the proponents are adult scholars and they mean it.
With this sci-fi scenario we witness a degenerate humanity completely in denial over what is actually happening. A cut from the living and breathing world around us, inducing the immersion into minds of madness, who try to techno-fix us into oblivion.
It’s like hiring a beautician to put makeup on a person that is bleeding out, while the doctor stands there doing nothing.
It’s like calling a friend when you’re in an emergency situation instead of calling the ambulance.
It’s like breathing in while being under water.
Can we please stop rivaling the sun? Thanks.
Not a Bright Idea: Cooling the Earth by Reflecting Sunlight Back to Space
The United Nations Environment Assembly this week considered a resolution on solar radiation modification, which refers to controversial technologies intended to mask the heating effect of greenhouse gases by reflecting some sunlight back to space.
Proponents argue the technologies will limit the effects of climate change. In reality, this type of “geoengineering” risks further destabilising an already deeply disturbed climate system. What’s more, its full impacts cannot be known until after deployment.
The draft resolution initially called for the convening of an expert group to examine the benefits and risks of solar radiation modification. The motion was withdrawn on Thursday after no consensus could be reached on the controversial topic.
A notable development was a call from some Global South countries for “non-use” of solar radiation modification. We strongly support this position. Human-caused climate change is already one planetary-scale experiment too many – we don’t need another.
A risky business
In some circles, solar geoengineering is gaining prominence as a response to the climate crisis. However, research has consistently identified potential risks posed by the technologies such as:
the infringement of human rights across generations – including, but not limited to, passing on huge risks to generations that will come after us.
Here, we discuss several examples of solar radiation modification which exemplify the threats posed by these technologies. These are also depicted in the graphic below.
A load of hot air
In April 2022, an American startup company released two weather balloons into the air from Mexico. The experiment was conducted without approval from Mexican authorities.
The intent was to cool the atmosphere by deflecting sunlight. The resulting reduction in warming would be sold for profit as “cooling credits” to those wanting to offset greenhouse gas pollution.
Once started, this stratospheric aerosol injection would need to be carried out continually for at least a century to achieve the desired cooling effect. Stopping prematurely would lead to an unprecedented rise in global temperatures far outpacing extreme climate change scenarios.
Heads in the clouds
Another solar geoengineering technology, known as marine cloud brightening, seeks to make low-lying clouds more reflective by spraying microscopic seawater droplets into the air. Since 2017, trials have been underway on the Great Barrier Reef.
The project is tiny in scale, and involves pumping seawater onto a boat and spraying it from nozzles towards the sky. The project leader says the mist-generating machine would need to be scaled up by a factor of ten, to about 3,000 nozzles, to brighten nearby clouds by 30%.
After years of trials, the project has not yet produced peer-reviewed empirical evidence that cloud brightening could reduce sea surface temperatures or protect corals from bleaching.
The Great Barrier Reef is the size of Italy. Scaling up attempts at cloud brightening would require up to 1,000 machines on boats, all pumping and spraying vast amounts of seawater for months during summer. Even if it worked, the operation is hardly, as its proponents claim, “environmentally benign”.
The technology’s effects remain unclear. For the Great Barrier Reef, less sunlight and lower temperatures could alter water movement and mixing, harming marine life. Marine life may also be killed by pumps or negatively affected by the additional noise pollution. And on land, marine cloud brightening may lead to altered rainfall patterns and increased salinity, damaging agriculture.
More broadly, 101 governments last year agreed to a statement describing marine-based geoengineering, including cloud brightening, as having “the potential for deleterious effects that are widespread, long-lasting or severe”.
Balls, bubbles and foams
The Arctic Ice Project involves spreading a layer of tiny glass spheres over large regions of sea ice to brighten its surface and halt ice loss.
Another proposed intervention is spraying the ocean with microbubbles or sea foam to make the surface more reflective. This would introduce large concentrations of chemicals to stabilise bubbles or foam at the sea surface, posing significant risk to marine life, ecosystem function and fisheries.
No more distractions
Some scientists investigating solar geoengineering discuss the need for “exit ramps” – the termination of research once a proposed intervention is deemed to be technically infeasible, too risky or socially unacceptable. We believe this point has already been reached.
Since 2022, more than 500 scientists from 61 countries have signed an open letter calling for an international non-use agreement on solar geoengineering. Aside from the types of risks discussed above, the letter said the speculative technologies detract from the urgent need to cut global emissions, and that no global governance system exists to fairly and effectively regulate their deployment.
Calls for outdoor experimentation of the technologies are misguided and detract energy and resources from what we need to do today: phase out fossil fuels and accelerate a just transition worldwide.
Climate change is the greatest challenge facing humanity, and global responses have been woefully inadequate. Humanity must not pursue dangerous distractions that do nothing to tackle the root causes of climate change, come with incalculable risk, and will likely further delay climate action.
James Kerry is an Adjunct Senior Research Fellow, James Cook University, Australia and Senior Marine and Climate Scientist, OceanCare, Switzerland, James Cook University.
Aarti Gupta is a Professor of Global Environmental Governance, Wageningen University.
Terry Hughes is a Distinguished Professor, James Cook University.
Editor’s Note: A polycrisis is a situation where multiple interrelated crises hit at the same time, similar to the geopolitical, ecological and social crisis that we are witnessing now. In this piece, Micheal Lerner explains the concept of polycrisis while introducing some of the systems to understand the polycrisis and a possible way to deal with it. This piece was written in July, 2023. Recent changes, namely the Israel-Palestine war, are not mentioned here.
How can we explain the explosive emergence of global awareness of the polycrisis over the past year, 2022-2023? Three years ago, almost no one had heard of the polycrisis.
What happened?
What Is the Polycrisis?
First, let’s roughly define the polycrisis. Some claim it is nothing new. We believe the polycrisis is new. We believe a confluence of environmental, social, technological, financial-economic, natural and other forces are interacting with ever increasing unpredictability, rapidity and power. We believe these unpredictable interactions are causing future shocks of ever greater frequency and amplitude.
Because the polycrisis looks different, feels different, and is explained differently everywhere, there won’t be any single understanding of it. Think of the polycrisis as a global weather system. Weather everywhere is deeply interrelated, but local weather looks different in each place.
The polycrisis has many names—cascading crises, the metacrisis, the permacrisis, the great unraveling, the great simplification, “the end of the world as we know it” [TEOTWAWKI], and more. In Latin America it’s called “eco-social collapse.” The French call it “collapsologie.” Or one can simply call it turbulent times or a rapidly changing world.
It doesn’t matter much what we call the polycrisis. What matters is whether we recognize that it is real, that we are living in it, and that it is changing our lives. If we accept that much, we will recognize that we have to navigate it—and that good maps are essential to skillful navigation.
Navigating the Great Unraveling
Our friends Asher Miller and Richard Heinberg at the Post Carbon Institute and Resilience.org use this powerful phrase for the task ahead for all of us: “Navigating the great unraveling.” Resilience.org is focused on energy, economy, environment, food and water, and society. Its tagline is “insight and inspiration in turbulent times.” In my judgment, Post Carbon Institute and Resilience.org are among the best and most accessible polycrisis resources in the United States.
At every level, we must learn to navigate the polycrisis. We have no choice. The only choice is whether we prepare to navigate it consciously—or just let it unfold and respond as it does.
“The future is already here,” the great science fiction writer William Gibson has said. “It’s just not very evenly distributed.” We know that all over the world millions of people have lived under polycrisis conditions for a very long time. The polycrisis is not new to them. It’s just now coming home to roost everywhere.
What Are the Best Maps and Charts of the Polycrisis?
Let’s look at how some experts are seeking to understand and map the polycrisis. I will be using three overlapping terms to describe these maps. The first is world view maps. The second is systems analysis maps. And the third is narrative maps. These are very crude concepts since all the maps tend to include all these elements in different ways.
The comprehensive worldview maps include orientations like techno-optimism, neo-Marxism, critiques of colonialism and imperialism, religious or spiritual understandings, and many more. It matters whether you believe in an enlightened spiritual future or a future that belongs to the powerful. It matters whether you think we will be governed by humans or trans-humans or algorithms. It matters whether you see the future as hopeful or tragic or perhaps both.
Then there are the systems analysis maps. Unlike worldview maps, systems analysis maps seek to be analytically neutral—albeit there are often deeply embedded biases.
The concerned capitalists of the world and their powerful friends gather annually at the World Economic Forum in Davos to opine on the state of the world. Their Global Risks Report 2023 is extensive and their prognosis dire. They offer a top 10 list of global risks for the next two years and the next ten years, along with a global risks landscape map. An additional Global Risks map puts global risks at the center surrounded by natural ecosystems, security, human health, economic stability, and digital rights. The outer circle then lists perhaps one hundred specific issues.
Kate Raworth’s “Donut Economics” is a highly influential systems map. “Humanity’s 21st century challenge is to meet the needs of all within the means of the planet. In other words, to ensure that no one falls short on life’s essentials (from food and housing to healthcare and political voice), while ensuring that collectively we do not overshoot our pressure on Earth’s life-supporting systems, on which we fundamentally depend—such as a stable climate, fertile soils, and a protective ozone layer. The Doughnut of social and planetary boundaries is a playfully serious approach to framing that challenge, and it acts as a compass for human progress this century.”
The elegant donut diagram has an outer circle of an ecological ceiling for nine sectors (climate change, ocean acidification, chemical pollution and the like.) It has an inner circle of social foundation that lists human needs by sector (food, water, health, education and the like). The map elegantly allows her to show where we have already exceeded the ecological ceiling and where we have undercut the social foundation of human needs.
A third systems analysis comes from Thomas Homer-Dixon and his colleagues at the Cascade Institute in British Columbia. Homer-Dixon is among the foremost analysts of the polycrisis. In books like “The Upside of Down” and “Command Hope,” he has explored the polycrisis in depth. His thinking is deeply influential in Canada and internationally. I can’t point to a single map because Cascade Institute has produced multiple maps. In my judgment Homer-Dixon shows what sophisticated scholarly study of the polycrisis looks like—and why governments and others around the world should invest in it.
A fourth systems map comes from the Fan Initiative which also has a strong team of scientific experts behind it. The Fan has an influential categorization of twelve “blades” of the fan that interact. They include toxification, soils, population, oceans, health, governance, freshwater, energy, economy, climate, biodiversity and behavior.
There are academic centers focused on variants of the polycrisis like the Center for the Study of Existential Risk at the University of Cambridge. Their research interests include biotechnology, artificial intelligence, technology risks more generally, environmental risks, and justice risks. Unlike the other projects above, they are less comprehensive on the polycrisis and more focused on explicitly existential risks to human survival.
Another outstanding contributor to polycrisis understanding is Nate Hagens’ The Great Simplification and his podcasts, Frankly. His tagline is “people, society and earth’s systems midway through the carbon pulse.” Here’s an example of his thinking: “How do the catalysts triggering the SVB collapse compare to the 2008 financial crisis? What might world financial market reactions indicate as we move closer to The Great Simplification?.. One thing I’m pretty confident of: world governments and central banks are gonna need bigger boats as more and more entities require bailouts and guarantees. Eventually that ‘boat’ may become so large that it will be ‘Too Big to Save.’”
A major recent development in the field is the United Nation (UN) Foundation’s Accelerator for Systemic Risk Assessment. “The UN Foundation announced today the new Accelerator for Systemic Risk Assessment (ASRA), to be led by Ruth Richardson as its inaugural Executive Director. The three-year initiative is designed to contribute to the emerging field of systemic risk analysis with particular attention to helping leaders and practitioners—especially those in the public sector—better understand, assess, and incorporate sensitivity to systemic risks into their decision-making. It will work closely with practitioners, multilaterals, academics, the public and private sectors, as well as other partners across institutions, sectors, and geographies.”
Historically, one of the most influential of all systems analyses of the polycrisis came from Donella Meadows and her colleagues in their report to the Club of Rome, “Limits to Growth” in 1972. What is remarkable about their model is that it has proven highly accurate for fifty years.
These are simply examples. What they have in common is their effort to understand the underlying drivers of the polycrisis and their interactions in some systematic way.
Narrative Maps
There is another way of thinking about the polycrisis that we might call narrative maps. We are taking this approach in our Omega Resilience Awards project, which focuses on exploring polycrisis maps with younger leaders in the Global South.
This approach focuses on exploring different narratives of the polycrisis as they are understood in different places and different situations. These are not necessarily systematic maps. This is story telling or meaning-making in a vast variety of forms.
Many contemporary commentators offer us narrative maps—though these maps are also often systematic. The Columbia historian Adam Tooze, the New York Times contributor Ezra Klein and the Financial Times Chief Economics Commentator Martin Wolff are analysts whose ongoing analyses of different dimensions of the polycrisis are widely respected.
Science fiction—or speculative fiction—offers another influential example of a narrative approach. “The Ministry for the Future” by Kim Stanley Robinson is a brilliant example of the genre of speculative utopian fiction that examines in detail how the climate crisis could actually be resolved.
Poets, novelists, film-makers, artists, and video game producers are among the many creative people who are telling stories and making narrative maps of the polycrisis.
A Map of Ten Top Polycrisis Drivers
What I offer below is a phenomenological map focused on issues as they emerge in the informed public media. This map is designed to change as the global polycrisis “weather system” changes. It is a kind of “polycrisis weather report.” My map is a mix of a worldview, systems and narrative map.
My starting point is the question I posed at the start. Why did the polycrisis explode into global awareness this year? I suggest that the polycrisis emerged as three principle drivers accelerated in sequence—climate, COVID, and the Ukraine war.
First, public attention was focused on the climate emergency. Then COVID turned the world upside down. Then a completely unexpected land war erupted in the middle of Europe. That war forced a great power confrontation, scrambled alliances around the world, and accelerated the last phase of the breakdown of American global hegemony. These three developments unfolding in sequence are, I believe, what brought the polycrisis to global attention.
Once the polycrisis was firmly established in the informed media and public mind, new developments kept confirming the increasing pace of global change and the reality of the polycrisis.
The new United States-China cold war is a classic example of the inevitable conflict between a rising power and a declining hegemon. The United States—unwisely from a geopolitical perspective—undertook to confront both Russia and China at the same time, hence driving these two great powers into alliance.
The new breakout developments in artificial intelligence (AI) are again transforming the world. Bill Gates has likened this new technology to the development of the computer in terms of its significance.
Almost every few months, a new salient polycrisis driver seems to emerge. You can’t fully grasp this process with abstract systems maps alone. You need a “changing global weather systems” map that tracks the phenomenological developments in the public media and public mind.
The Polycrisis Pop Charts
What I attempt here is a phenomenological map of what informed Western media are throwing up the “Polycrisis Pop Charts.” I borrow the “pop charts” analogy from popular music where the pop charts track the popularity of different songs. Polycrisis drivers are like pop songs that move up and down the polycrisis pop charts of public attention. Some stay at or near the top for long periods of time. Others enjoy only a brief stay.
Here are seven diverse candidates to add to a potential high level public awareness threat matrix for a “Polycrisis Top 10.” (climate, COVID, and conflicts without end are already on the Top Ten list.)
The end of American hegemony. The multi-centric geopolitical realignment of the world is taking place rapidly. Russia, China, Iran and other countries have aligned against Western domination. India, Saudi Arabia, Turkey, Brazil, and other countries are asserting their own independent interests, often playing both sides off against each other. The end of American hegemony is coinciding with the end of 500 years of Western domination of the world. It also coincides with the end of Western colonialism and imperialism. While these interlinked forms of dominance have been eroding for decades, the rapidity of developments now is astonishing
The resurgence of autocratic regimes. The western democratic model of free markets and representative democracy has never worked everywhere. (One can argue it never worked anywhere, but that is a different conversation.) Newly empowered by technologies of mass surveillance, a growing number of autocratic leaders of “illiberal democracies” and more totalitarian regimes are asserting themselves. They are far less constrained today by eroding democratic norms. They are far less concerned about American or Western disapproval. They regard the Western democracies as weak and decadent. They are more assertive of shared cross-ideological interests. In many places, the autocrats have strong, or at least majoritarian, support from their home populations. It may be true that the impulse toward freedom is universal. But that aspiration must be measured against other goods provided by regimes that meet essential human needs—for food, energy, shelter, economic progress, health, education, safety and the like. China is an excellent example. In a polycrisis world, it is an open question as to what forms of governance will actually work best in the interests of the people of different nations.
The explosion of AI technologies. Brought to public awareness by GP-Chatbox, Microsoft, Meta, Google, and others, the developers of AI technologies have abandoned caution—even as hundreds of scientists signed a letter urging a moratorium based on potentially catastrophic risks. A survey of AI scientists found them estimating a 10% chance that AI could ultimately wipe out human life on earth. AI is not alone. Biotech, nanotech, and robotics are what Bill Joy famously called the three “technologies of mass destruction.” The difference between these technologies of mass destruction and weapons of mass destruction, Joy said, was that the weapons required a large industrial base while the technologies could be cooked up by someone working out of their bedroom and posted to the Internet. This category is actually a stand-in for all the explosive technological developments transforming our world literally beyond understanding.
Global financial system chaos. Economic researchers warn that the global debt overhang may soon be “too big to avoid failure.” The likelihood of a global recession, or worse, is believed to be increasing. The fight to control inflation without ending growth puts central banks in a quandary. On the other hand, ending conventional growth as we know it is essential to a better future. The dollar as the dominant global currency may well be coming to an end. It is overdue in historical terms.
The migration crisis. Over 100 million forcibly displaced people are desperately seeking refuge as barriers to safe havens go up everywhere. The number will continue to grow exponentially. The migration crisis is among the greatest human tragedies of the polycrisis. No one has compassionate solutions that are politically acceptable in the West—or elsewhere for that matter. But mitigation strategies are profoundly important—curbing climate change, improving food production, reducing conflict, making home countries safer, aiding those caught at frontiers, and much more.
The risk of a nuclear accident or tactical nuclear arms use. The focus is Ukraine, but the risk is global. So is the risk of the use of dirty bombs or the deliberate targeting of nuclear plants by terrorists or a nuclear meltdown caused by an electric grid going down from a terrorist attack or other causes.
World food, water, work and safety deficits. Billions of people around the world are at increasing risk for the basics of life. This is more an outcome measure than a primary driver, except that this outcome drives all kinds of other feedback loops.
This list is, as I said, highly arbitrary. My list is heavy on the end of American hegemony, the rise of new autocracies, financial chaos, the migration crisis, nuclear risk, and the global food, water, and safety deficits. I add these seven to the list that set off polycrisis awareness—climate, COVID, and conflict without end.
What seems incontrovertible is that the number of polycrisis drivers keeps increasing and their interactions are every more rapid, unpredictable, and powerful.
Disaster Capitalism and Other Opportunities
The other side of any global threat matrix list consists of the global opportunities for advantage that countries, corporations, communities, and non-state actors are exploring on all sides. Whether it is disaster capitalism, opportunities for criminal gangs, cybercrimes, or legitimate new markets, the opportunists are enlivened everywhere. Likewise there are truly hopeful developments. We have to keep in mind breakout developments on the upside. Whatever the future brings, there will be winners and losers—even if the winners inhabit a devastated planet of universal scarcities.
The Thucydides Trap–the Prospect for U.S.-China War
The Chinese-mediated detente between Iran and Saudi Arabia has underscored China’s new role as a global power broker.
French President Macron was criticized by allies for his China visit and his explicit push for European geopolitical and economic autonomy. But many other European Union leaders think along Macron’s lines. Europe has no intention of giving up trade with China. Volkswagen and the chemical giant BSF are planning major expansions in China to offset the high cost of operating in Europe. The better European environmental regulations, the more attractive markets and manufacturing bases like China become.
Both Europe and China have lasting strategic reasons to build economic and political ties that lessen the threat to both an unreliable and fading global hegemon. Both China and Europe are caught for now balancing their conflicts over the Ukraine and Taiwan against their long-term interests in economic ties and strategic autonomy. But in the longer run, both know the Ukraine war will end, the Taiwan conflict will resolve, and they need each other in the new multi-polar world.
The Biden administration’s call for a global alliance of democracies against authoritarians rings increasingly hollow to people around the world. There is too long a history of what 500 years of Western hegemony has wrought. There is too much awareness of America’s classic hegemonic descent. The U.S. has wasted blood and treasure in foreign wars, devastated counties in the name of defending democracy, overturned democratic governments that threatened U.S. interests, and moved from soft power supporting shared interests to hard power for increasingly nationalistic goals. This is the well known trajectory of fading hegemons.
The U.S.-China confrontation is also the classic “Thucydides Trap.” In 12 of 16 past cases, the confrontation between a ruling power and a rising power led to war. The world has a great deal at stake in avoiding it.
A Multi-Centric Sci-fi Future?
The world simply isn’t buying the American narrative any longer. There are too many persuasive counter-narratives emerging from the Global South, from neo-Marxism, from post-colonial writers, and indeed from the internal critiques within the Global North and within America—to say nothing of counter-narratives from right wing nationalist parties, which appeal to very large numbers of people in countries around the world.
Yet, in a multi-centric world, it’s hard to see how the narrative we need—for new global governance structures that bring us together in the urgent global cause—will attract sufficient support.
It looks more and more to this observer as if the future will be a multi-centric world of ever-shifting alliances in which hybrid warfare and lower level conflicts among state, corporate, and non-state actors will launch us into an entirely unpredictable sci-fi future. That’s only one scenario, but in my mind it is the most likely one.
Archipelagos – Linking Islands of Coherence in a Sea of Chaos
There are hopeful trends. Many of the global stressors have substantial upsides. Systems theory makes it clear that we can create virtuous cascades as well as endure negative ones. This is a central thesis of Homer-Dixon’s work at the Cascade Institute.
At a recent Commonweal conference with leaders of our Omega Resilience Awards hubs in India, Nigeria and Argentina, Mark Valentine mentioned Ilya Priogene’s observation on the power of “islands of coherence” in a complex system in chaos. Here’s the quote:
“Ilya Priogene demonstrated scientifically that when complex systems are far from equilibrium, small islands of coherence can shift the entire system to a higher order.”
We liked this concept of focusing on creating “linked islands of coherence” at the grassroots level and at every possible level. It’s doable, achievable, and hopeful. Many of the Nordic countries are engaged in conscious efforts to create societal resilience in the polycrisis. So is Switzerland, so is New Zealand. They may become islands of coherence that offer hope and models for others.
Local communities, grassroots social movements, service organizations, and local governments are slowly coming to grips with the reality of the polycrisis. And they are crafting solutions. New economy theorists and practitioners are imagining ways to strengthen resilient local economies based on self-help, local currencies, and more.
Polycrisis Thinking as a Lens for Exploring Resilience
We believe the polycrisis cannot generate a single strategic agenda. Unlike the climate emergency, or the fight against hunger, the polycrisis doesn’t lend itself to universal shared objectives and solutions.
Rather, polycrisis awareness is a lens through which we can assess the most effective strategies for whatever we are working on. As one colleague put it, “if you don’t factor in the polycrisis, your strategies are far more likely to fail.”
For example, imagine that the power grid goes down whether from a cyberattack or other causes. Or imagine that the food system breaks down leaving people dependent on local food resources. Or imagine a financial collapse takes place and we enter a new global depression. Who would be prepared to respond—and how?
One of the lessons from past disasters is how rapidly the structures that sustain life can collapse. Most people don’t have the bandwidth to think about these questions. Their survival needs or personal concerns are too urgent. But it helps if in every community or organization at least some people think this way.
Cultivating a “Polycrisis Eye”
It is entirely possible to cultivate a “polycrisis eye” that enables you to watch developments across many spheres and witness the unfolding of the polycrisis in all its complexity and unpredictability. When I read the news I am constantly tracking these intersections.
If Russian gas is cut back in the EU, Norway becomes the bloc’s primary supplier despite cries of anguish from its environmental community. Likewise Biden breaks a pledge and allows new oil development in the Alaskan wildlife refuge. Germany closes its last three nuclear plants which makes it more dependent on fossil fuels and renewables. The constant eruption of new developments continuously reconfigures whatever sector they appear in and those changes flow out to other sectors as well.
So it’s not just the polycrisis world view maps, the polycrisis systems maps, and the polycrisis narrative maps that help us navigate. It’s cultivating a “polycrisis eye” with which to watch as this accelerating global weather system evolves, changing local weather conditions everywhere. A “polycrisis eye” refines our ability to use a “polycrisis lens” to understand and navigate this turbulent time.
A Caveat
Though I have continuously referenced polycrisis analyses emanating from the Global South and the emerging multicentric world, this essay has drawn primarily from Global North examples of polycrisis maps and thinking. The principal reason is that while the Global South and the multi-centric world have experienced by far the greatest burden of the polycrisis,the polycrisis analysis has developed primarily in Europe (where the term first emerged) and the United States. That said, one of our principle goals at Omega and the Omega Resilience Awards is to support polycrisis analyses and narratives emerging in Africa, India and Latin America. Those analyses will be the subject of later essays.
A Crown of Feminine Design
We can hold the ultimate hope—the real hope—that we will emerge from this time of chaos and peril to build a better world. It might ideally be, as Randy Hayes, the founder of Rainforest Action Network proposes, a world of continental networks of bio-regional economies.
The critical question for global governance is whether a new set of global institutions can emerge to replace the Bretton Woods institutions from World War II. There may be a remote possibility that this will happen—as it does in “Ministry for the Future.” But in a polycentric world of widely diverse interests, it will be hard to achieve.
At the community level, most disaster preparedness has common themes. Communities need to be able to meet basic human needs for food, water, clothing, shelter, energy, safety, communications, and the spirit and tools to rebuild a better way of life. Building this capacity builds resilient communities—islands of coherence that could shift the whole chaotic system toward a higher level of functioning.
We know what local and regional self-reliance and resilience look like. Less than a century ago, community self-reliance was a way of life all around the world. It is still practiced in many communities today. If we can remember those lessons we’ll have a better chance, come what may. This is what Nate Hagens envisions as “the great simplification.”
All around the world people are coming together in the face of all the challenges to create communities of hope and resilience. They work with the skills and tools available to them. The fight for a better world is never won. It goes on forever. We’ll do that best if we are clear-eyed about what we are facing.
Whatever happens, our consciousness will have a powerful impact on how we face whatever is coming. Like all great life crises, the polycrisis has the potential to awaken us to what really matters in our lives. Perhaps the polycrisis could even stimulate a great global awakening of what we all need to do together to create a more liveable world. It’s possible.
I close with this line from the great Indian saint Sri Aurobindo, “the future, if there is to be a future, must wear a crown of feminine design.” The structures of wealth and power that we have built in this world are mostly of masculine design. We might amend Aurobindo and say that the future, if it is to be a compassionate one, must honor Mother Earth and evoke the feminine in us all.
That’s a thought worth holding.
Michael Lerner is the president and co-founder of Commonweal, a nonprofit center in Bolinas, California. Commonweal works in health and healing, education and the arts, and environment and justice with more than 40 programs. His principal work at Commonweal is with the Cancer Help Program, CancerChoices.org, the Omega Resilience Projects, the Collaborative on Health and the Environment, and The New School at Commonweal. Michael received a MacArthur Prize Fellowship for contributions to public health in 1983. He is co-founder and president emeritus of the Smith Farm Center for Healing and the Arts in Washington, D.C. He is president of the Jenifer Altman Foundation. He is co-founder and chair emeritus of the Health and Environmental Funders Network. He lives with his wife and colleague Sharyle Patton in Bolinas and on Whidbey Island north of Seattle.
Editor’s note: Iran is mostly in the news for its nationwide protests against the Islamic Republic, and for its brutal treatment of women who refuse to cover their hair with a hijab. But there’s another crisis unfolding, not so much covered on the news – the ecological crisis.
In Iran we witness overshoot that leads to the land being uninhabitable in the future: water scarcity, loss of fertile land, overpopulation, government mismanagment, pollution, and poverty.
The oppression of women, gays and lesbians in a country ruled by Shariah – Islamic law based on the Quran – together with the denial of respecting nature, is a recipe for collapse.
Record temperatures, prolonged droughts, and the drying up of rivers and lakes are displacing tens of thousands of Iranians each year, experts say.
Many of the climate migrants are farmers, laborers, and fishermen who are moving with their families from the countryside to major urban areas in Iran in search of alternative livelihoods.
Iranian officials have blamed worsening water scarcity and rising desertification on climate change. But experts say the crisis has been exacerbated by government mismanagement and rapid population growth.
While the exact number of climate migrants is unknown, Iranian media estimated that around 42,000 people in 2022 were forced to migrate due to the effects of climate change, including drought, sand and dust storms, floods, and natural disasters. The estimated figure for 2021 was 41,000. Observers say the real figures are likely much higher. Experts say a growing number of Iranians are likely to leave rural areas as more areas of Iran — where most of the land is arid or semiarid — become uninhabitable every year.
“It is visible because Iran is very dry, there is little rainfall, and a significant part of the country is desert,” Tehran-based ecologist Mohammadreza Fatemi told RFE/RL. “As a result, the slightest change in the climate affects the population.”
Fatemi cited the drying up of the wetlands and lakes in Iran’s southeastern province of Sistan-Baluchistan as an example. The Hamun wetlands were a key source of food and livelihood for thousands of people. But as the wetlands have diminished, many locals have migrated to the cities.
“Many people lived there, [but] they all moved to [the provincial capital] Zahedan and [the city of] Zabol,” said Fatemi. Now, he adds, many are moving from these cities to other provinces.
Environmentalist Mehdi Zarghami from Tabriz University recently estimated that some 10,000 families have left Zabol for other parts of Iran during the past year due to drought and sandstorms.
Fatemi estimates that around 70 percent of migration inside Iran is driven by the effects of climate change. “We’ve entered the phase of crisis. The next level could be a disaster,” he said.
‘Water Bankruptcy’
Some Iranian officials have warned that many parts of the Islamic republic could eventually become uninhabitable, leading to a mass exodus from the Middle Eastern country.
In July, officials warned that more than 1 million hectares of the country’s territory — roughly equivalent to the size of Qom Province or Lebanon — is essentially becoming unlivable every year.
In 2018, then-Interior Minister Abdolreza Rahmani Fazli said that drought and water scarcity could fuel “massive migration” and eventually lead to a “disaster.”
Iran is among the countries most vulnerable to climate change in the Middle East, which is warming at twice the global average.
Ahad Vazifeh of Iran’s Meteorological Center said in October that average temperatures in Iran had increased by 2 degrees in the past 50 years.
But experts say that climate change only partly explains the environmental crisis that Iran is grappling with.
Tehran’s failed efforts to remedy water scarcity, including dam building and water-intensive irrigation projects, have contributed to the drying up of rivers and underground water reservoirs.
Kaveh Madani, the director of the United Nations University Institute for Water, Environment, and Health, told RFE/RL’s Radio Farda that Iran’s “water bankruptcy” had been fueled by government mismanagement and the building of dozens of dams.
More on Iran’s water problem
“Iran’s consumption is more than its natural sources of water,” he said. “Therefore, [the authorities are] using underground sources of water. [In response,] the wetlands have dried up, rivers have dried up, and now climate change has added to this equation.”
“Temperatures are rising, there’s more dust, soil erosion will increase, and desertification will increase,” predicted Madani, a former deputy head of Iran’s Environment Department.
In this 2018 photo, a man walks his bicycle under the 400-year-old Si-o-seh Pol bridge, named for its 33 arches, that now spans a dried up Zayandeh Roud river in Isfahan.
The government’s mismanagement of Iran’s scant water resources has triggered angry protests in recent years, especially in drought-stricken areas.
Water scarcity has also led to conflict. Iran and Afghanistan engaged in deadly cross-border clashes in May after Tehran demanded that its neighbor release more upstream water to feed Iran’s endangered southeastern wetlands.
Social Problems
Some experts say rapid population growth in Iran has also contributed to the environmental crisis, although growth has slowed in recent years.
Iran’s population has more than doubled since the 1979 Islamic Revolution, rising from about 35 million to almost 88 million, with about 70 percent of the population residing in cities.
Climate migration has put a growing strain on infrastructure and created socioeconomic problems in Iranian cities, including rising poverty, homelessness, and overcrowding, experts say.
A dust storm hits Zabol in October.
Researcher Mohammad Reza Mahbubfar told the Rokna news site in February 2021 that Tehran was a major destination for many of the country’s climate migrants. “Contrary to what officials say — that Tehran has a population of 15 million — the [real] figure has reached 30 million,” he said.
Mahbubfar added that “unbalanced development” had “resulted in Tehran being drowned in social [problems].”
The influx has led some wealthier Tehran residents to move to the country’s northern provinces, a largely fertile region that buttresses the Caspian Sea.
“My mother, who has a heart problem, now spends most of her time in our villa in Nowshahr,” a Tehran resident told Radio Farda, referring to the provincial capital of Mazandaran Province.
“My husband and I are hoping to move there once we retire to escape Tehran’s bad weather and pollution,” the resident said.
Reza Aflatouni, the head of Iran’s Land Affairs Organization, said in August that about 800,000 people had migrated to Mazandaran in the past two years.
Local officials have warned that Mazandaran is struggling to absorb the large influx of people.
Copyright (c)2023 RFE/RL, Inc. Used with the permission of Radio Free Europe/Radio Liberty, 1201 Connecticut Ave NW, Ste 400, Washington DC 20036.
Editor’s Note: The scientific method is considered the best at explaining natural phenomenon – for good reason. However, science also has limitations.
First, science has a limited scope. It requires evidence beyond reasonable doubt for any explanations to be considered reliable. It can only make predictions based on those explanations. What if there are some real phenomena that cannot be “proven” yet? In that case, what alternative assumptions do we use to make predictions?
Second, (quite contrarily to what most scientists claim) science is not value free. And science cannot be value free, as long as the scientists remain value laden.
The alternative assumptions that science uses to make real life predictions are based on those values of the scientists, and of science as a field of study. Most often than not, these values support the status quo.
There is a reason that climate scientists have repeatedly failed to make reliable predictions about the upcoming ecological collapse. The sooner that scientists accept and acknowledge these (and other) limitations, the better it is for the natural world! The following piece explores some of these issues.
“Science, as it is practiced in our society, is a nearly perfect expression of human supremacy. It’s all for us (humans); it’s all about us.” – Tom Murphy
Scientists have been in the news of late fretting that their projections about the onset of disasters caused by a warming climate may have been off the mark.It appears that Mother Nature has pushed the “fast forward” button and we are all paddling, choking, and sizzling much sooner than sober science had led us to expect. We will be hard-pressed to devise a plan of action commensurate with the trouble we are in if we come at that task wielding flawed assumptions.Events cannot speak of their own accord but if they could recent ones would surely be telling us that any forecasts based on conditions prevailing even until yesterday are not worth much. We have entered a new phase in the life of our planet and, by all appearances, do not have a clue about what that circumstance demands of us as inhabitants.I am not a scientist, but I did recently encounter a related case of cluelessness that I thought I might try to diagnose. Writing in The New Yorker (07/24/2023), Louis Menand pauses at the end of an essay on the rise and fall of neoliberalism to take stock of its achievements and failings. On the positive side, he claims that globalization has lifted a billion people out of poverty, lowered the cost of many household items, turned formerly marginal nations into “economic players,” and broken the monopoly held by First World powers on modern technology. On the debit side, he notes a deepening “trend towards monopoly” in every major industry and a disturbing increase in inequality. This latter, he believes, fouls the workings of democracy and thus poses a threat to civic order.Menand is not a hack. He is a diligent researcher, a thoughtful cultural observer, and a gifted stylist whose books are read and discussed within and beyond the academy. The reader who consults any of his books and essays for insight into American history or contemporary politics will find much of substance to chew on. Yet his summary assessment of the ideas that have been dominant in official circles for the last four decades lags even farther behind the visible course of events than the too-cautious calculations of the climate scientists. Perhaps he and the scientists have inherited the same conceptual defect.Suppose that Shell Oil hires several dozen young Nigerians to help protect its facilities from any local villagers who might harbor ill will against it for poisoning the land base that once supported an economy of small market fishing and farming. As long as these new hires make more than $2.15/day they would count among the billions being lifted out of poverty by globalization. That is how the World Bank, the source of Menand’s numbers, measures economic progress. The wholesale destruction of entire ecosystems, along with the ways of life that flourished for centuries within them, do not figure in these calculations. The World Bank cannot quantify such things so Menand finds no occasion to discuss them. Overheating oceans and atmospheres, environmental degradation, species extinctions, soil depletion, water scarcity, drought, fire, flooding, crop failures, mass migrations – none of these worrisome developments make their way onto Menand’s ledger, even as all of them were either caused or sharply accelerated by fossil fuel-powered globalization. Progress is happening when people who once farmed and fished for a living get funneled, by whatever means and onto whatever station, into the wage economy. So long as “our” household items stay cheap, we have cause to celebrate. So long as the list of “players” in this game keeps expanding and the technology needed to keep the global machine humming gets spread around a bit, what’s to worry?As recently as seven or eight years ago I might have nodded along with Menand’s assessment of neoliberalism. It is reasonably argued by the standards I then used to measure what it was reasonable to consider when exploring such a topic. Now, such arguments provoke the kind of irritation we feel when someone adopts an attitude of command after, in plain view, missing the boat entirely. What happened?Two things. First, there is the news. The polycrisis, as many are calling it, has unsettled my preferred means of making sense of the world. Procedures that once seemed soundly empirical suddenly appear woefully constricted. Facts that once grounded the kinds of arguments I deemed credible were dwarfed by realities that no one seemed willing or able to treat as facts of relevance to what was going on around me. Second, my realization that I have been poorly served by the analytic tools I knew how to use inspired me to search for replacements in places that I would have not thought to visit before. I read books on animal intelligence and plant communication. David Abram’s books shattered the foundations of my philosophical outlook, creating cracks for wilder, less head-heavy insights to grow. I stopped feeling sheepish about nodding in agreement with Derrick Jensen and Paul Kingsnorth. My growing suspicions about the serviceability of Western science opened me up to Robin Wall Kimmerer’s respectful humbling of it and to the value generally of indigenous modes of understanding. I read nearly everything written by Wendell Berry and Gary Snyder.I am most likely a pagan now, if by that term we mean someone who believes it was a really bad idea to drain all of the spirit out of the natural world and invest it in a single, vengeful sky god whom we must propitiate in a manner prescribed by one pleasure-phobic priesthood or another. I am not an atheist because when I am hiking alone under old trees or watching seabirds in flight I frequently feel myself drawn into a force field of enchantment where words fail and the mind stalls. I believe it is historically warranted to call that field “sacred” and, if we are to undo the damage done by those who believe otherwise, strategically necessary.From where I sit now, it seems clear that Menand and the climate scientists were betrayed by a desire to appear reasonable. In the gap between their conclusions and the horizon where the hard edge of reality now cuts we can measure the obsolescence of Reason as it has been conceived in the West for the last four centuries. Events quite near at hand are making it increasingly difficult to dismiss, as “external” factors or “secondary qualities” irrelevant to any disciplined act of understanding, whatever cannot be abstracted, reduced, and counted. It is no longer reasonable, in particular, to abstract humans from the natural world, reduce them to self-aggrandizing egos, and then feed their doings alone into our computations. Social systems are embedded in ecosystems, humans are enmeshed in webs of interdependence with the other-than-human.Analyses, social or natural scientific, that remain indifferent to these insights are rapidly becoming unreliable, and visibly so, as descriptions of the real world. As empirical backing for moral arguments or policy decisions, these analyses are serviceable only to those who have a stake in keeping the blinders firmly secured.Menand’s analysis of neoliberalism, for example, is all numbers and people. For him, being reasonable means taking such facts as can be configured mathematically and assembling a balanced account of them. All the thirsting, wheezing, and keeling over in the street, the struggling for food and safety now being experienced by millions of people worldwide, the winking out of species – these consequences of neoliberal globalization are unmistakably real but somehow inadmissible as evidence. Menand is no doubt aware of them – who couldn’t be? – but he is constrained from factoring them in by his manner of being a reasonable intellectual. The balance he achieves by adding some downsides to a World Bank success narrative comes only after leaving the weightiest items off the scales. If the people being lifted out of poverty are at the same time, and by action of the same press of circumstances, being lowered into their graves, that is probably a fact worth noting.The scientists are well aware of ecosystems and non-humans. But they too are duty-bound to appear reasonable. The manner in which they do so affirms the foresight of those who etched into the founding tablets of modern science a commandment never to mix facts and values. In private, climate scientists confess to being scared shitless by what their most trustworthy empirical projections suggest is awaiting us just around the bend (for this side of the story, see the interview with climate scientist Bill McGuire in the 07/30/2022 Guardian). When facing the public, professional etiquette requires that they adopt a “just the facts, ma’am” demeanor. Those few who violate that code and speak their fears as responsible moral actors are chastised in the media and, often, in the academic journals for tarnishing the hallowed objectivity of science.The facts do speak, but from beneath such a thick overlay of well-mannered reasonableness that only the scientists themselves can catch their true import. With rare exception, they are not sharing with us what those facts say to them. This institutionalized cautiousness infects their sense of what we should consider normal and of how – at what rate, along which dimensions – we should expect things to deviate from that norm in the future. Their fears find no purchase in such calculations, surfacing only over drinks or in bed after the work of science is done.I recently sat in on a conference panel where two well-informed observers traded speculations about what the future might hold. The social scientist had authored a book which, it was argued, had influenced some of the thinking and language in the Biden Administration’s Inflation Reduction Act. Her vision of the future teems with solar panels, batteries on wheels, and windmills – our tickets, if we would just invest in them, to “sustainability.” The other panelist, a science fiction writer who had woven climate change into the plotline of a best-selling novel, seconded her enthusiasm for all-out electrification. An audience member wondered what we should make of the same administration’s approval of the Willow project in Alaska and its decision to remove any legal barriers local residents had been using, out of desperation, to obstruct completion of the Mountain Valley Pipeline in Appalachia. The science fiction writer argued that just because the drilling infrastructure is built, we shouldn’t assume any oil will actually be pumped out of the ground and burned. Perhaps there is a deeper, strategic logic to the approval of Willow. Sensing perhaps the astonishment that lit up some faces in my vicinity at least, he then informed us that there are some amazing young people working on energy policy in the Biden Administration. I doubt that I was alone in my inability to find this reassuring, but it seemed to do the job for the panelists. They then went on the offensive, invoking “the narcissism of small differences” as a way to understand the complaints of those who do not share either their confidence that right-thinking young people will be shaping policy from lowly positions in the Department of Energy or their faith in the wisdom of the “electrify everything’ agenda altogether. Skeptics, apparently, will have to pay for some therapy before that wisdom can sink in.That exchange gives us a glimpse into how most progressives and environmentalists are now drawing the line between reasonable and unreasonable in the matter of new drilling projects and pipelines. Another glimpse was provided by a keynote speaker at the same conference. Billed as a “visionary green entrepreneur,” he floated point-clinching charts and breezy rhetoric above the stage to ornament a case for full tilt electrification. He was favorably received.This speaker handled in three ways the argument that all the mining, manufacturing, and transport required to affect a transition to green energy would have an environmental impact as devastating as the fossil fuel economy has had. At the outset of his talk, he said with mock exasperation that “yes, we are going to have to dig some holes in the ground.” Like the anti-narcissists, he claimed the real world as his domain and chided the mass electrification skeptics for their refusal to live in it.
A bit later he flashed a chart with different sized circles designed to contrast the amount of coal, gas, and oil we now use to power our economy with the amount of what he called “transition metals” (most prominently lithium, cobalt, and nickel, along with aluminum and steel at the end of the list) that would be consumed in a green economy. The circles for the fossil fuels (figures were from 2019) were huge, as one might expect, visually dominating the chart. There were two circles for the transition metals, both quite puny by comparison, which was the point of the graphic. The first represented the amount of these metals consumed in 2020, its puniness attributable to the fact that the transition had only begun. The second circle represented the same variable for 2050 – a projection based on what somebody had calculated all this might amount to at the end of the transition.
His third tactic for handling the skepticism he knew to be festering in audiences like this was to pin it all on the fossil fuel companies. Like the cigarette makers of yore, the bad guys in this story were muddying the waters so they could keep their product burning at full volume into the future. The implication seemed to be that if you were experiencing any of this skepticism you were being duped by industry propaganda. It was not reason but partisan skullduggery that was prompting your misgivings about the green energy script.
Call me a narcissist if you must, but my misgivings arose from my own reading around in these issues and they were not being quelled by this presentation. I balked at the size of the 2050 circle – is it really possible to calculate, from where we sit now, all the materials a fully green economy would consume? Given the scale of this construction project and the unknowns sure to crop up along the way, an estimate made a quarter century before completion is bound to be an underestimation – most likely a sizable one. And were these calculations inflected in any way by a partisanship, opposed to that of the fossil fuel propagandists but in play nonetheless, that I should worry about? Early in the presentation the speaker had flashed a chart showing that “total energy-related CO2 emissions” had peaked and were trending steadily downward. He urged the audience to take pride in what had been accomplished and cautioned that we not grow complacent, as if the hard work of transition might be behind us. That was puzzling. If one consults any available graph for total CO2 emissions, one will discover that they continue to trend upwards. This fact has been widely reported and causes much consternation among those alarmed by climate change. I do not know what had to be excluded from consideration to get the downward-trending graph – i.e., exactly how “total energy-related CO2 emissions” differs from “total CO2 emissions” – but it was apparent that the speaker had selected the celebratory numbers so we might feel that we were on the right road and just needed to do more of what we were already doing in the way of sustainability to get things fully under control. The maneuver called to mind the factors Menand left out of his review of neoliberalism and, for me, drained the last bit of credibility out of the teeny 2050 “transition metals” circle.
The costs of digging some holes in the ground become more tangible if we visit a place where that is already underway. A New York Times correspondent recently (08/18/2023) filed a report on a Chinese mining facility in Indonesia, which has some of the world’s largest deposits of nickel. Chinese investors wanted to mine and smelt this critical “transition metal” (needed in batteries for electric vehicles) offshore so the operation would not add to the already poor air quality of most Chinese cities. The project proved a boon for local merchants who service the thousands of workers drawn to the site but every other impact was devastating. An aerial photograph of the site looks eerily like those taken of the Athabascan tar sands in western Canada – a lunar landscape of total ecological destruction. Pools of toxic waste nestle up against farmland. Those who make their living from agriculture – who, in the reporter’s phrase, “coaxed crops from the soil,” as if they were the ones out of synch with nature here – voiced sharp opposition to the project, as one would expect. Locals don masks on bad days; health clinics are full of people reporting lung ailments. Hours at the smelter are long, working conditions are horrendous, deadly accidents are commonplace. Non-native workers often find that their visas have been confiscated; a disturbing number choose suicide as their only avenue of escape. They wear helmets that signal by color their rank in the job hierarchy – yellow for those on the bottom, red, blue, and white for the workers and supervisors tiered by category above them. Nearly all the yellow helmets are worn by Indonesians, the rest by Chinese. The immigrant Chinese are sometimes prohibited from leaving the vicinity of their barracks lest the mere sight of them fan the animosity of native Indonesians into violence. Protests against the pollution and the caste labor system have been brutally suppressed by police and, when necessary, Indonesian army units.
Conditions such as these were not represented in the green visionary’s cost-of-transition circles. The mathematical representations diverted our attention from such realities as could be observed by the naked eye and invested our hopes in the very development – a growing “green economy” – that brought those conditions into being. This maneuver transported the discussion to a place beyond the reach of moral judgment. Anything that might provoke outrage – what most of us feel when we read about such things – had to be excluded so that the work of empirical calculation could proceed unsullied by any outpouring of empathy. Beyond that, these are just some holes in the ground. Rabbits and groundhogs, whom we tolerate, dig them too.
Also visible at the site, but buried within his math, were the energy sources that undermine the green visionary’s “we’ve bent the curve, people” cheeriness. Along with millions of tons of mined nickel spilled across the Sulawesi landscape, the reporter observed a “structure the size of several airplane hangars [holding] mountains of coal waiting to be fed into the park’s power plant to generate electricity.” Of course he did. All the major components of the “green economy” – windmills, photovoltaic cells, EV batteries – require fossil fuels for their production.
China licenses two new coal-fired electricity-generating plants a week to power its manufacturing facilities, including the ones that make those components. That is why CO2 emissions continue to rise with the numbers for renewable energy usage. As the fossil fuel companies are well aware, it is an integrated system. The economy envisioned by “green growth” enthusiasts, with its carbon capture scams and electrify everything fantasies, gives those companies a new lease on life. If they are to be put down, it will be by other means.
The reporter placed Jamal, a construction worker hired to build dormitories to accommodate the influx of smelter workers, at the center of his story. He had boosted his income by building a few rental units of his own and used that money to put tile on his floors and an air conditioner in his house. The “crux” of the matter, which the reporter derived from Jamal’s situation, was the trade-off Indonesians seemed willing to accept – “pollution and social strife for social mobility.” As Jamal put it, “the air is not good but we have better living standards.”
That does get us to the heart of things, although not in the way Jamal or the reporter imagines.
Notice that air quality is not perceived to be a component of living standards. The ecological and economic values are segregated, calculated separately, and then thrown on the scales to achieve the unhappy balance that marks the arrival of a reasonable conclusion. It mimics exactly Menand’s analysis of neoliberalism and every other account you will find online about nickel mining in Indonesia or, indeed, the mining and manufacture of anything needed for the “green transition.” The script is classically tragic – a lamentable situation unfolds that people, the reasonable ones at least, must accept as their share of a fated outcome.
So we look away from the holes in the ground and carry on, sadder perhaps but wiser. We collect data and mind our business. We add well-trained voices to those tasked with prettifying an administration which is building out the infrastructure for fossil fuel production faster and bigger than anybody. We applaud glitzy, upbeat presentations that assure us we can keep the consumer extravaganza going with batteries and solar panels. Nothing seems to shake our faith in the righteousness of that extravaganza, even as we are beset at every turn, in our communities and our homes, by despair and unhappiness.
There are plenty of bad actors in this story but rest assured that I am not placing anyone I have refenced here in that category. The explanations and projections of these observers fall short, as I see it, because they are coming at things with a stock of assumptions that is being depleted along with everything else. The intellectual climate, too, has grown chaotic. More precisely, a fissure has opened up between two ways of being reasonable. The old one, in place since the scientific revolution and on display in the arguments I have reviewed, is showing itself to be inadequate to the challenges – to reliable comprehension and sensible conduct – we now face. But a new one has arisen to supplant it. Those who nudged me in a new direction are not monks scribbling away in a monastery but writers with large readerships (Braiding Sweetgrass stayed on the NYT best seller list for over two years). The commitments that bind them as a group – to holism rather than dualism; to ecological rather than reductionist approaches to the natural world; to beauty and mutuality as defining features of that world and the need to take both into account when engaging with it for any purpose; to the worth and significance of every being, not just the humans, on the scene; to the value of being rooted in a particular place if we are to live free, well, and wisely – are shared as well by the millions of ordinary folks worldwide who have never been pried loose from these commitments in the first place. Further, those aspiring to be reasonable in this way exhibit remarkable diversity in political and religious beliefs. Among them you can find reactionaries and radicals, Christians and Buddhists, animists and atheists. Established methods for sorting out and evaluating political options and spiritual possibilities, like the old way of being scientific, have been compromised by serious weather damage. They are not worthy of repair. A new mass constituency for fundamental change – the new way of reasoning made flesh – is visible amidst the blight and the rot. No member of this constituency would find it reasonable to trade clean air for cheap household items, health and justice for toys and gadgets.
Here is real cause for optimism. Here is a transition sure to reward the hopes we place in it. The change in consciousness that must happen if we are to live within the planetary limits we have so foolishly imagined we could ignore is underway. Too slowly, and as yet on too small a terrain, but it is underway.
Map of orange stream observations across Arctic Inventory and Monitoring Network (ARCN) parks in northern Alaska. Picture inserts show aerial images of select iron-impacted, orange streams. Map created by Carson Baughman, U.S. Geological Survey. Photos by Kenneth Hill, National Park Service. Public domain.
Impacts of iron mobilization in a stream tributary of the Akillik River located in Kobuk Valley National Park, Alaska. These images were taken two years apart. The clear picture was taken in June 2016 and the orange picture was August 2018. Photos by Jon O’Donnell, National Park Service.
