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Monday, December 19, 2022

Murphy's Simple Story

The Simple Story of Civilization. Tom Murphy. Dec. 19, 2022
(go to tom's site via the link above in order to access all the links from his work)


The stories we fashion about ourselves are heavily influenced by our short life spans during an age of unprecedented complexity. We humans, it would seem, are unfathomably complicated creatures who defy simple “just-so” characterizations. Animals, or humans tens of thousands of years ago are fair game for simple stories, but not so for transcendent modern humans.

Two major problems I have with this attitude are that 1) we are animals, and 2) we have exactly the same hardware (albeit with slightly smaller brains) as we had 100,000 years ago.

So allow me to pull back from our present age of baffling complexity to outline a simple story covering the broad sweep of the human saga. The result may be a little startling, and, for a number of readers, sure to be rejected by cultural antibodies as “not applicable” (see also my views of our civilization as a cult).


Story Timeline

In order to make comprehensible the vast tract of human time on this planet—itself 5,000 times shorter than the age of the universe—I will compare the 2.5–3 million year presence of humans (genus Homo) on Earth to a 75 year human lifespan: a span that we can grasp intuitively. On this scale, we get the following analogous periods:
  1. First 70 years: various species of humans evolve and coexist (sustainably) on the planet;
  2. Last 5 years: the age of Homo Sapiens (about 200,000 yr; mostly sustainably);
  3. Last 15 weeks: the age of civilization (agriculture; then cities) (10,000 yr);
  4. Last 4 days: the age of science (400 yr);
  5. Last 36 hours: the age of fossil fuels (150 yr of increasingly significant use);
  6. Last 12 hours: the age of rapid global ecological devastation (50 yr).

On this lifetime scale, agriculture is a recent, unexpected hobby we picked up, and one that is still pretty new to us in the scheme of things. Or maybe we can compare it to a gateway drug that radically changed our behavior, values, attitudes, and expectations (gave us the munchies?). Or maybe it’s like the rapid onset of a mental disorder. In any case, our friends and relatives would be pretty alarmed by this uncharacteristic change toward the end of a long life.


In the last four days, we took our hobby to a whole new level. Agriculture is about control of at least part of nature. Science put that control on steroids. Maybe it’s like cocaine following the gateway drug. It gave us a mechanism by which to learn from controlled experiments and then exercise (imperfect, problematic) control over an expanding set of domains. It “amped” things up.

In the last day or so, we found an even more potent enabler. Let’s see…I’ve already used steroids for the previous step, so what would steroids on steroids be? Fossil fuels equipped us with superpowers to carry out our scientifically-guided ambitions to previously-unimaginable new levels. I seem to recall from the “scare” films in my youth that drugs like PCP can make us think we have superpowers so we’re prone to jump out of a window, convinced we can fly. Similarly, the superpowers granted by this short-lived finite resource have tricked us into thinking that these powers are an intrinsic human quality: owing to our big brains, not the substance. Beguiled by this false flattery, we tell ourselves that nothing can stop our boundless juggernaut of innovation!


In this altered state, we find ourselves on a destructive rampage, as evidenced by the severe toll on habitats and biodiversity: about 85% of primary forest is gone; vertebrate populations have declined by about 70% on average since 1970; and now 96% of mammal mass on the planet is embodied in humans and our livestock. The dots are not difficult to connect. The combination of methods and substances available to us have allowed explosive exploitation of resources on a global scale. A paltry and decreasing amount of habitat—increasingly fragmented—remains. The healthy, biodiverse regions are disappearing fast.

So, reflect on how you would react to a 75-year-old relative who went on a euphoric bender as extreme and damaging as the one in this story. It’s as if this otherwise stable and (mostly) harmless person spiraled into manic behavior so quickly as to leave us stunned. It’s as jarring as a crash; like slamming into a brick wall. We might even suspect an alien baby gestating in our relative’s stomach cavity, so outlandish is their behavior. For the safety of your relative and all those around them, you’d probably want them sedated and strapped to a bed in a hospital for observation. Ironically, our recent “hobby” obsession with control has left us spiraling out of control.

The backdrop, or fabric of your entire existence—the few hours for which you’ve been alive on our scale—seems entirely normal to you, but the whole point of this post is that it’s really just not.


No Facile Solution

This condition seems unlikely to be solved by technology. Wouldn’t we say that technology is a primary ingredient of the illness? Cleverness and an illusion of control got us here, and they are not our best tools for extracting ourselves from the mess.

I have written other pieces about the foundational flaws in our growth trajectory on a finite planet; about the idiotically narrow construct of money (Box 19.1 in textbook), and how decisions based on money will be bad ones (if it makes economic sense, it almost certainly batters the ecosystem). I have posted about the cognitive distortion produced by fossil fuels, and the tragic fallacy of building an enormous human population on the back of a finite resource that threatens a devastating population crash when its availability inevitably declines. The real, ultimate value is in biodiversity and ecosystem health, which suggests de-emphasizing the primacy of humans and becoming subordinate partners on the planet rather than its self-appointed and ultimately inept overlords presiding over the demise of our transitory empire.

But stepping back and using our temporal framework as a mental guide, we are justified in asking whether our path of civilization is wrong at its very roots. That might seem extreme, but we are indeed at an extreme nexus in the history of our planet. I didn’t start out thinking this way (as the long evolution of this blog series attests). I mean, I knew our growth path could not last, and that fossil fuel substitution would be harder than many appreciated, but I never entertained the idea that civilization itself was a bad idea. It is not eagerly that I tread these waters.

The surprisingly recent gateway experiment of agriculture led—in a causally-connected way—to surplus, storage, permanent settlements, accumulation of material possessions, hierarchy, standing armies, property rights (the laughable conceit that we own the land!), patriarchy and monotheism, subjugation of humans and animals, soil degradation, habitat destruction, extinction rates far above normal, and all the rest. A bad trip—all for the sake of controlled food production and storage, the lack of which did not prevent humans from living sustainably for millions of years. Likewise, wild animals in healthy ecosystems don’t appear to live in constant misery: they’ve got it figured out in a way that works and is stable. We don’t look at a bird chirping and flitting through the trees and react in horror at the pitiful state it must find itself in, lacking the means to control its environment. Why should we look at pre-agricultural humans and imagine horrific misery, as many are inclined to do?

Since our civilization is not built on a foundation of sustainable principles, it is no surprise that we find it now to be utterly unsustainable. Unsustainable means certain failure, by the way. Thus, our civilization was custom-built for failure. Congratulations. The unfolding story just transpires over enough life spans that it all seems gradual to us as individuals, and therefore does not feel pressing or inevitable based on our narrow direct experience. In hindsight, I suspect it will be forehead-slapping obvious—to the point of making us look rather dull-witted.

I like flight analogies here. A rock is not designed on the aerodynamic principles of sustainable (indefinite, level) flight. A rock can nonetheless become airborne, follow a graceful and exhilarating arc through the air, but then certainly plummet back to Earth. Likewise, our civilization—also not founded on principles of sustainability—can soar upward for a time (during our inheritance spending spree) and seem like great fun—giving its paying passengers tremendous satisfaction for a time. Patiently waiting for us is Earth and planetary limits.

An important aside is that this condition is not intrinsic to the human animal. Most of our life on this planet has not been characterized by a smash-and-grab rampage. That’s our new trick for the last 15 weeks, recently perfected and at fever pitch. Dazzling! We can learn other tricks—take up new hobbies that don’t wreck our lives and those of our loved ones (i.e., other species): slow, thoughtful hobbies rather than this frenetic one.


Can’t We Just…?

You might be thinking: well okay, maybe we’ve overhsot a bit and need to dial things back…but surely (Shirley?) we can hold on to something we would recognize as civilization—I mean, come-on! Well, truthfully, I don’t know if it’s possible to preserve civilization—and neither does anyone else! To state the obvious: wanting civilization to continue is not enough without biophysical backing. I suspect that for most people who assume a continuation and even expansion into space, their examination is paper thin—not based on a careful consideration of biophysical limits, but more a matter of uncritical and fantastical extrapolation based on an admittedly head-spinning recent binge…I mean history.

My reasonable doubt is semi-quantitative. We have consumed a sizable fraction of our non-renewable inheritance (mineral concentrations, fossil fuels, etc.) on the time scale of a century. Even at a tenth the current scale (itself a terrifying prospect to many), we might slow the draw-down to give us another 1,000 years or so—another few weeks in our life span analogy. Aggressive recycling and more resources than I credit might stretch things for 10,000 years (translating to a few months). Keep in mind, this is already in the context of a substantially and deliberately dialed-down human footprint, lacking any precedent. Note that 10,000 years is still very short in the scheme of things and signals that we may well be nearer the end of civilization than the beginning. The doctor is saying: we have—at best—a few weeks or months to live unless we make a radical change in our lifestyle and practices. At this rate, it’s more likely mere days. If we heed the advice and make a major course correction, be prepared for the detox experience to be unpleasant, but necessary.

I’m not interested in fantastical or magical thinking. The suggestion—against mounting evidence to the contrary—that we could (or should) maintain the architecture for this ecologically devastating mode of living for any significant duration strikes me as simply wishful and also heartbreaking. I’d like to get beyond that and be hard-nosed about what can really happen, subject to planetary limits: most importantly, preserving habitat and biodiversity.


But Big Brains?

A common reaction is: can’t we use our big brains to solve this problem? Extending civilization for even another 1,000 years will surely give us time to think of something, our faith tells us. What if that “something” is the realization that civilization is inherently unsustainable and must be replaced with alternate, simpler (but richly meaningful) approaches to life on Earth? Maybe we can use our brains to save ourselves some time, agony, and further devastation by reaching this conclusion sooner.

Implicit in the leading question above is usually the notion of a technological solution. My viewpoint has become that technology is not the right tool to solve a predicament caused by a technological approach. But yes, we can (and should) use our big brains. It’s just that the task at hand is to figure out how to adopt a whole new way of living on this planet and how to dismantle civilization in a way that is least destructive to biodiversity and to humans. We need to relinquish our hubristic (and illusory) grip on control and our naive ambition of total mastery. We fall into the trap of thinking: “if we just learn a little more, we’ll finally have it.” But it’s never enough, and never can be. We have barely scratched the surface of understanding the machinery of Earth’s ecosystems, and it’s a fool’s quest to imagine we can achieve the requisite omniscience to maintain a successful reign—especially as the biophysical clock ticks more and more urgently.

What we need to learn instead is how to live with the long-term constraints of the natural world as it is presented to us—not take it upon ourselves to shape it to our unrealistic wants and whims, which is a proposition certain to fail. It’s about responding and adapting in an attitude of humility, not solving, mastering, exerting, defining, and dictating. Our brains are nowhere near big enough to pull off complete wizardry over nature, but maybe they are big enough to make this leap of intentional humility. We’ve been there before. I hope we still have what it takes.


Priorities for Success

It is in this context that the push to transition to renewable energy is misguided, in my view. The implicit aim is to preserve civilization in essentially its current glorious state by keeping it fueled to carry on in the least disruptive way. Disruptive to what? Economic concerns? Civilization is proving to be frighteningly disruptive to the natural world. In prioritizing a preservation of civilization, we are elevating this ephemeral, artificial construct above biodiversity and a healthy ecosystem: a prescription for certain failure. It’s doubling down on the wrong thing: propping up and accelerating the machine that’s eating the planet alive. Barreling forward on renewable energy is the last thing Earth’s critters would vote for, and would be considered one of the more disruptive decisions we could make.

Granted, any sustainable future must by definition utilize renewable energy in the broadest sense, as humans did until very recently. The current practice is the anomaly. I can’t rule out the notion that photovoltaic panels might play a role in the far future. But dependence on mined materials makes this gizmo less likely to fit into a truly long-term scheme. My inclination is to not sweat projections at that level. If we get the foundation right, the rest will follow as it may.

Any path to success must start on a sound ecological foundation, whatever the field of concern: economics, politics, belief systems, human rights, science, engineering, and the rest. Is that the first chapter/lecture in any of these fields? Of course not, but it ought to be. Otherwise we are teaching a blind path to failure. Think of it this way: what would you trade (technology, comforts, materials, even relationships) for all the (non-human) animals/life on Earth? Probably nothing, upon realizing that we ourselves can’t live without a functioning (healthy) ecosystem, and that we are just one of ten million species. Okay. Then we need to act like it. Make biodiversity and ecological health the highest priority and work within the resulting constraints. All decisions should start with the question: “would this action help or harm the (larger, and ultimately more important) non-human world?”


Post-Script: Recent Influences


As my posting history reveals, I have been on a journey of expanded thinking about the nature of our predicament, moving beyond the initial phase of quantitative assessment of energy (during which I was still in the mindset of a tech-driven solution space), into deeper questions of what we’re all about and why we do the things we do. In the summer of 2022, after several recommendations over the years, I finally sat down to read Ishmael, a novel by Daniel Quinn. I was simultaneously impressed by how familiar the logic already was to me and by the degree to which it sharpened my ability to separate successful approaches from (ultimately) unsuccessful ones. I followed this up by the two other installments in the series (The Story of B and My Ishmael) and Quinn’s non-fiction framing work, Beyond Civilization. I have valued them all, and view them as helping to crystalize the path I was already walking down. I wouldn’t call myself a faithful adherent—accepting all arguments/premises—but a largely-resonant admirer of the worth of these important works. Check your library and give it a try!

More recently, I read An Inconvenient Apocalypse by Wes Jackson and Robert Jensen. This work also deeply resonated as a careful, deliberate, sober, thoughtful, and insightful approach to how we deal with the predicament of civilization. It’s not a go-to resource for making the case that we’re in deep trouble, although it plucks some of those chords. Mostly, it reflects on our reactions and choices in this moment, and offers valuable food for thought for those who already sense that this deal is going sideways. My small-town library had a copy, to my surprise and delight.

Other voices are starting to broadcast what I think is an accurate message. I already posted last year praising David Attenborough’s powerful conclusion. In the last few weeks, articles in The Intercept (amazing!) and New York Times made the case for biodiversity and ecosystem health above secondary concerns like climate change and the usual technological “solutions” proffered in response. Although, I have to complain that the NYT article contained one of those paragraphs almost always accompanying warnings about an animal’s endangerment: what potential benefits those animals have to humans, including the ever-present dangling of a possible key to some medical cure. It drives me crazy that we are so transactional as to require direct benefit to us to justify another animal’s existence.

To echo a provocative sentiment others have used to great effect: What good is a Honduran white bat, you ask? Well, what good are you? How have humans, or you personally, (on balance, or in net terms) helped the planet’s wild species or overall ecosystem health? Are you more valuable, or less valuable to sustaining biodiversity than the bat, the newt, or even the mosquito? Yeah, that hard truth stings me, too.

Saturday, December 3, 2022

John Bellamy Foster on Extractivism

Extractivism in the Anthropocene. John Bellamy Foster, Monthly Review. Nov 22, 2022.


Over the last decade and a half, the concept of extractivism has emerged as a key element in our understanding of the planetary ecological crisis. Although the development of extractive industries on a global scale has been integral to capitalist mode of production since its onset, commencing with the colonial expansion of the long sixteenth century, this took on a much larger worldwide significance with the advent of the Industrial Revolution of the late eighteenth and nineteenth centuries, marking the beginning of the age of fossil capital. Nevertheless, it was only with the Great Acceleration, beginning in the mid-twentieth century and extending to the present, that the quantitative expansion of global production and of resource extraction in particular led to a qualitative transformation in the human relation to the Earth System as a whole. This has given rise to the Anthropocene Epoch in geological history, in which anthropogenic (as opposed to nonanthropogenic) factors for the first time in Earth history constitute the major force in Earth System change. In the Anthropocene, extractivism has become a core symptom of the planetary disease of late capitalism/imperialism, threatening humanity and the inhabitants of the earth in general.

The Great Acceleration is dramatically depicted by the Anthropocene Working Group of the International Commission on Stratigraphy in the form of a series of twenty-four charts, each showing a hockey-stick-shaped curve of economic expansion, resource depletion, and overloading planetary sinks, representing a sudden speeding-up and scaling-up of the human impact on the earth, similar to the famous hockey stick chart on increases in global average temperature associated with climate change. Viewed in this way, the Great Acceleration is seen as having brought the Holocene Epoch of the last 11,700 years of geological history to a sudden end, ushering in the Anthropocene Epoch and the current planetary crisis.

Recent research has shown two separate periods where global resource use (including all biomass, minerals, fossil fuel energy, and cement production) has increased much more rapidly than global carbon emissions; which can be characterized as the first (1950—1970) and second (2000—2015) accelerations in resource use within the Great Acceleration as a whole. The first resource acceleration is associated with the rapid economic expansion of North America, Western Europe, and Japan after the Second World War; the second resource acceleration coincided with the rapid growth of China, India, and other emerging economies beginning around 2000. In the case of the wealthy capitalist countries or “developed economies,” resource use per capita has tended to level off in recent years, while remaining at levels far beyond overall sustainability from a limits to growth perspective. Yet, much of this apparent decline in natural resource use has been due to the outsourcing of world industrial production to the Global South, while consumption remains highly concentrated in the Global North, driving an “imperial mode of living.” In 2016, the Global Material Flows and Resource Productivity Report of the United Nations Environmental Programme indicated that “since 1990 there has been little improvement in global material efficiency [i.e. efficiency in the extraction of primary materials]. In fact, efficiency started to decline around 2000.” Global extraction of materials tripled in the four decades prior to the 2016 report. These conditions have resulted in an acceleration of extractivist pressures in key regions throughout the earth, particularly in the Global South.

In many countries in the Global South, particularly Latin America and Africa, primary commodities, including both agriculture and fossil fuels/minerals dominate the export economy, reminiscent of an earlier age, with percentages of primary commodities in merchandise trade exports in 2019 as high as 67 percent in Brazil and 82 percent in both Chile and Uruguay. In Algeria, export dependence on fossil fuels is almost complete, now accounting for 94 percent of the value of its merchandise trade exports. In Latin America, in particular, the import-substitution industrialization era of the early post-Second World War years, which promoted manufacturing, has been succeeded in the new era of accelerated resource extraction and by a new dependence on primary commodities, including both agricultural goods and fuels/minerals. In 2017, natural resource rents (including mineral, oil, natural gas, and forestry rents) accounted for 43 percent of GDP in the Republic of Congo. In Africa, the drive for resources and new agricultural lands has fueled vast land grabs throughout the continent, made possible by the failure of the decolonization process in securing the rights to the land for Indigenous populations. In island nations around the globe, fishing and resource rights over vast ocean territories have been ceded to multinational corporations as the ocean commons are being intensively exploited. New technologies have led to a race for new rare minerals, as in the case of lithium mining. A vast financialization of the earth, in which international finance based in the Global North is taking over the commodification and management of ecosystem services, primarily in the Global South, is now underway.

Nor is this acceleration of resource extraction and extractive infrastructure confined simply to the periphery of the capitalist world economy. The United States is now the world’s largest oil producer as well as the world’s largest oil consumer. There are 730,000 miles of oil and gas pipelines worldwide, equal to thirty times the circumference of the earth. The United States and Canada alone account for about 260,000 miles of fossil fuel pipelines, or over a third of the world’s total. In Canada, primary commodities in 2019 accounted for 43 percent of export value in merchandise trade, while in Australia it was 81 percent.

The ecological consequences of all of these trends are catastrophic, extending all the way from the devastation of the land and communities up to climate change and the destruction of a human-habitable planet. Fifty years after The Limits to Growth report was published by the Club of Rome, resource depletion is following what it referred to as its threatening “standard scenario,” with the result that the very existence of planet Earth as a home for humanity and innumerable other species is threatened.

In Latin America, in particular, these conditions and their effects on the ground have led to the development of extractivism as a critical concept, which in recent theoretical discussions has often taken on an expansive meaning, encompassing wide aspects of capitalism and forms of exploitation. Numerous academic analyses have sought to stretch the notion to account for the entire set of economic, political, cultural, and ecological problems of modern times, largely displacing capitalism itself, encompassing questions as varied as modernity, violence, production, exploitation, environmental destruction, digitalization, and new “ontological assemblages.” For such thinkers, extractivism is viewed as the insatiable source of capitalist modernity’s destructive and non-reproductive drive to commodify and consume all life and all existence, what some theorists refer to “total extractivism” or the “world eater.” Such views end up displacing the critical concept of capital accumulation itself, as well as removing attention from the very concrete popular struggles occurring at the ground level against extractive capitals.

For this reason, Eduardo Gudynas, a leading Latin American analyst of extractivism, has insisted that the concept be approached in relation to modes of production/appropriation, giving extractivism a very definite meaning directed at the development of a broad political-economic-ecological critique. Gudynas specifically objects to what he sees as the loose academic approach that now proposes vague and ambiguous “labels for extractivism such as ‘financial,’ ‘cultural,’ ‘musical,’ and ‘epistemological,’” creating endless sources of confusion, and removing the concept from its basis in political economy and ecological critique. “Extractivism,” he writes, “cannot be used as a synonym for development or even for an exporting primary economy. There is no such thing as extractivist development. … Extractivisms … do not account for the structure and function of an entire national economy, which includes many other sectors, activities and institutions.”

Gudynas’s own theory of extractivisms, which will be a central focus of what follows, can be seen as having arisen out of the broad historical materialist tradition. Thus, in order to understand the significance of his work, it is necessary to situate it within a larger historical materialist tradition, going back to the classical analysis of Karl Marx and Frederick Engels, related to issues of the appropriation/expropriation of nature, extractive industries, and the metabolic rift. In this way it is possible to provide the foundations for a critique of extractivism in the Anthropocene.


Marx and the Expropriation of Nature

The notion of “extractive industry” dates back to Marx in the mid-nineteenth century. Marx divided production into four spheres: extractive industry, agriculture, manufacturing, and transport. Extractive industry was seen by him as constituting the sector of production in which “the material for labour is provided directly by Nature, such as mining, hunting, fishing (and agriculture, but only in so far as it starts by breaking up virgin soil).” In general, Marx drew a line between extractive industry and agriculture, insofar as the latter was not dependent on raw materials from outside agriculture itself, but was capable of building up from within, given agriculture’s reproductive, as opposed to nonreproductive characteristics. This, however, did not prevent him, in his theory of metabolic rift, from seeing capitalist industrial agriculture as expropriative, and in ways that we now call extractivist.

Some of Marx’s most critical comments with regard to the capitalist mode of production are directed at mining as the quintessential extractive industry. In his discussion of coal mining in Capital, vol. 3, he treats the absolute neglect of the conditions of the coal miners, resulting in an average loss of life of fifteen people a day in England. This led him to comment that capital “squanders human beings, living labour, more readily than does any other mode of production, squandering not only flesh and blood but nerves and brains as well.” But the destructive effects of extractive industry and of capital in general, for Marx, were not restricted to the squandering of flesh and blood, but also extended to the squandering of raw materials. Moreover, Engels, in writing to Marx, famously discussed the “squandering” of fossil fuels resources, and coal in particular.

In interviews that he gave responding to radical and Indigenous movements against extractivism, Ecuadorian President Rafael Correa rhetorically asked: “Let’s see, Señores marxistas, was Marx opposed to the exploitation of natural resources?” The implication was that Marx would not have opposed contemporary extractivism. In response, ecological economist Joan Martinez-Alier pointed to Marx’s famous analysis indicating that “capitalism leads to a ‘metabolic rift.’ Capitalism is not capable of renewing its own conditions of production; it does not replace the nutrients, it erodes the soils, it exhausts or destroys renewable resources (such as fisheries and forests) and non-renewable ones (such as fossil fuels and minerals).” On this basis, Martinez-Alier contends that Marx, though he did not live to see global climate change “would have sided with Climate Justice.” Indeed, the extraordinary growth of the Marxian ecological critique, building on Marx’s analysis in Capital of the “negative, i.e. destructive side” of capitalist production in his theory of metabolic rift, has provided the world with penetrating insights into every aspect of the contemporary planetary crisis.

Key to a historical materialist analysis of extractivism is Marx’s analysis of what he called “Original Expropriation,” a term that he preferred to what the classical-liberal political economists called “Previous, or Original Accumulation” (often misleadingly translated as “primitive accumulation).” For Marx, “so-called primitive [previous] accumulation,” as he repeatedly emphasized, was not accumulation at all, but rather expropriation or appropriation without equivalent. Taking a cue from Karl Polanyi—and in line with Marx’s argument—we can also refer to expropriation as appropriation without reciprocity. Expropriation was evident in the violent seizure of the common lands in Britain. But “the chief moments of [so-called] primitive accumulation” in the mercantilist era, providing the conditions for “the genesis of the industrial capitalist,” lay in the expropriation of lands and bodies through the colonial “conquest and plunder” of the entire external area/periphery of the emerging capitalist world economy. This was associated, Marx wrote, with “the extirpation, enslavement, and entombment in mines of the Indigenous population” in the Americas, the whole trans-Atlantic slave trade, the brutal colonization of India, and a massive drain of resources/surplus from the colonized areas that fed European development.

Crucial to this analysis was Marx’s very careful distinction between appropriation, understood in its most general sense, as the basis of all property forms and all modes of production, and particular forms of appropriation, such as expropriation and exploitation under the regime of capital. Marx conceived appropriation as rooted in the free appropriation from nature, and thus as a material prerequisite of human existence, leading to the formation thereby of various forms of property, with private property constituting only one such form, which became dominant only under capitalism. This general historical theoretical approach gave rise to Marx’s concept of the “mode of appropriation” underlying mode of production. These distinctions were to play an important role in Marx’s later ethnological writings, and his identification with the active resistance to the expropriation of their lands by Indigenous communities in Algeria and elsewhere.

Not only was the expropriation of land and bodies recognized in Marx’s analysis, but the earth itself could be expropriated in the sense that the conditions of its reproduction were not maintained, and natural resources were “robbed” or “squandered.” This was particularly the case with capitalism, in which the appropriation of nature generally took a clear, expropriative form. In Marx’s analysis, the free appropriation of nature by human communities, constituting the basis of all production was seen as having metamorphosed under capitalism into the more destructive form of “a free gift of Nature to capital,” no longer geared primarily to the reproduction of life, the earth, and community as one largely indivisible whole, but rather dedicated solely to the valorization of capital. The “robbery” of the earth and the metabolic rift—or the “irreparable rift in the interdependent process of social metabolism” between humanity and nature—were thus closely interwoven. Although some contemporary theorists have attempted to define extractivism as meaning the non-reproduction of nature, it is much more theoretically meaningful to view this in line with Marxian ecology in terms of what Marx called the robbery or expropriation of nature, of which extractivism is simply a particularly extreme and crucial form.


Gudynas and the Extractivist Surplus


These conceptual foundations arising out of Marx’s classical ecological critique allow us to appreciate more fully the pathbreaking insights into extractivism provided by Gudynas in his Extractivisms. A crucial point of departure in his analysis is the concept of modes of appropriation. In his pioneering work, Underdeveloping the Amazon of the mid-1980s, environmental sociologist Stephen G. Bunker introduced the concept of “modes of extraction” to address the issue of extractive industry and its nonreproductive character, contrasting this to Marx’s larger concept of “modes of production.” Gudynas claims that Bunker was generally on the right track. However, in contrast to Bunker, Gudynas does not adopt the notion of modes of extraction. Nor does he retain Marx’s notion of modes of production, arguing unaccountably that Marx’s concept has been “abandoned,” citing anthropologist David Graeber. Rather, Gudynas turns to the concept of “modes of appropriation,” while seemingly unaware of the theoretical connection between appropriation and production and between modes of appropriation and modes of production that Marx had constructed in the Grundrisse, and how this is related to current Marxian research into these categories. Still, Gudynas’s modes of appropriation approach allows him to distinguish between human appropriation from the natural environment in general and what he refers to as “extractivist modes of appropriation,” which violate conditions of natural and social reproduction.

Gudynas defines extractivism itself in terms of processes that are excessive as measured by the three characteristics of: (1) physical indicators (volume and weight); (2) environmental intensity; and (3) destination, with extractivism seen as inherently related to colonialism and imperialism, requiring that the product be exported in the form of primary commodities. Not all appropriation of nature carried out by extractive industries is extractivist. This is perhaps clearest in his short piece, “Would Marx Be an Extractivist?” Writing, as in Martinez-Alier’s case, in response to Correa, Gudynas states:
Marx did not reject mining. Most of the social movements do not reject it, and if their claims are heard carefully, it will be found that they are focused on a particular kind of enterprise: large scale, with huge volumes removed, intensive and open-pit. In other words, don’t confuse mining with extractivism….Marx, in Latin America today, would not be an extractivist, because that would mean abandoning the goal of transforming the modes of production, becoming a bourgeois economist. On the contrary, he would be promoting alternatives to production, and that means, in our present context, moving toward post-extractivism.
Today’s global extractivism, what Martin Arboleda has called The Planetary Mine, is identified with “generalized-monopoly capital” and conditions of “late imperialism.” A central concern of Gudynas’s work is a critique of the renewed imperial dependency in the Global South resulting from neo-extractivism, raising the question of “delinking from globalization” as perhaps the only radical alternative. A similar view was powerfully developed by James Petras and Henry Veltmeyer in their Extractive Imperialism, which described the new extractivism as a new imperialist model, forcing countries into a new dependency, the ground for which had been prepared by neoliberal restructuring, which had virtually annihilated many of the earlier forces of production in agriculture and industry.

Gudynas’s signal contribution, however, lies in his attempt to connect extractivism to the concept of surplus, in order to explain the economic and ecological losses associated with the reliance on extractivist modes of appropriation. Here he relies on the concept of economic surplus developed by Paul A. Baran in The Political Economy of Growth in the 1950s, which was designed to operationalize Marx’s surplus value calculus in line with a critique that had rational economic planning as its yardstick. Gudynas notes that in Baran’s surplus concept, in conformity with Marx’s surplus value, “ground rent and interest on money capital” are components of total surplus rather than production costs. In introducing the concept of economic surplus, Baran sought to reveal forms of surplus value that were, in capitalist accounting, as Gudynas puts it, disguised forms of “what is essentially an appropriation of the surplus.”

Employing this idea, Gudynas seeks to add to the economic or social dimension of surplus, based on the exploitation of labor, two environmental dimensions of the surplus in the context of extractivist modes of appropriation. The first of these, the environmental-renewable surplus is seen as related to the classic Ricardian-Marxian theory of agricultural ground rent focused primarily on renewable industry. It is meant to capture surplus not only associated with monopoly rents and thus integrated directly into the economic calculus, but also, according to Gudynas, to grapple with how ecosystem services, such as pollination, are extractively appropriated/expropriated. Gudynas indicates that a larger “monetized surplus” is created for corporations by neglecting such crucial environmental aspects as soil and water conservation, thus generating an artificially large surplus based on the extractivist appropriation of renewable resources. This is related to what Marx called the “robbing” or expropriation of the earth, part of his theory of metabolic rift.

The third dimension of the surplus (the second environmental dimension), according to Gudynas, is the environmental-nonrenewable surplus related to non-renewable resources, such as minerals and fossil fuels. “The key distinction here,” he writes, “is that the resource will be exhausted sooner or later, and therefore the surplus captured by the capitalist will always be proportional to the loss of natural heritage that cannot be recovered. Similarly, the space occupied by a mining enclave will be impossible to use for another purpose, such as agriculture.” Whatever extractivist surplus is obtained has to be set against the loss of natural wealth associated with resource depletion, something that is disguised by the common employment of the concept of “natural capital,” conceived today not, as in classical political economy, in terms of use value, but rather, in accord with neoclassical economics, in terms of exchange value and substitutability.

In Marx and Engels’s classical historical materialism, a very similar analytical approach was adopted with respect to the expropriation of nonrenewable resources to that presented by Gudynas in his analysis of the environmental-nonrenewable surplus. For Marx and Engels, the destructive expropriation of nonrenewable resources could not be treated as a straightforward case of robbing, as in the case of the soil, forests, fishing, etc. Hence, they approached extractivism with respect to nonrenewable resources under the rubric of the squandering of such resources, a concept that was especially used in relation to the avaricious expropriation of minerals and fossil fuels, particularly coal, but also applied to the extreme “human sacrifices” in extractivist industries, related to what is nowadays sometimes called the “corporeal rift.” Capitalism’s relation to both renewable and non-renewable resources was thus seen in the classical historical materialist perspective as pointing to the destructive expropriation of the earth, either as the “robbing” or the “squandering” of nature—an approach that closely corresponds to Gudynas’s two forms of extractivist surplus appropriation/expropriation.

Gudynas’s approach to what he calls the “extractivist surplus” associated with his two environmental dimensions of surplus is meant to encompass externalities, highlighting the fact that the “actual surplus” appropriated—to use Baran’s terms—is, in some cases, artificially high, in relation to a more rational “planned surplus,” as it does not account for depletion of fossil fuels and other natural resources. This basic approach is employed in the remainder of Gudynas’s analysis to engage with struggles on the ground over this bleeding of the extractivist economies, and the relation of this to late imperialism, which carries out such bleeding on ever-larger scales to the long-term detriment of the relatively dependent peripheral (or semi-peripheral, that is, emerging) economies. As he argues in Extractivisms, this ultimately becomes a question of “extractivism and justice.”


Extractivism and the Crisis of the Anthropocene

Given that the Anthropocene, though still not official, has been defined as that epoch in which anthropogenic rather than nonanthropogenic factors, for the first time in geological history, are the primary forces determining Earth System change, it is clear that the Anthropocene will continue as long as global industrial civilization survives. The current Anthropocene crisis, defined as an “anthropogenic rift” in the biogeochemical cycles of the Earth System, is closely associated with the system of capital accumulation and is pointing society toward an Anthropocene-extinction event. To avoid this, humanity will need to transcend the dominant “accumulative society” imposed by capitalism. But there will be no progressive escaping from the Anthropocene itself in the conceivable future, since humanity, even in an ecologically sustainable socialist mode of production will remain on a razor’s edge, given the current planetary-scale stage of economic and technological development, and the fact that the limits of growth will need to be accounted for in the determination of all future paths of sustainable human development.

It was the recognition of these conditions that led Spanish geologist Carles Soriano, writing in Geologica Acta, to propose the Capitalian as the name of the first geological age of the Anthropocene Epoch. According to this outlook, the current planetary ecological crisis has to be seen in terms of the generation of a destructive expropriation of nature, which needs to be transcended in the process of going beyond capitalism and the Capitalian Age. Others independently have proposed the name Capitalinian Age for this new geological age, while also pointing to the notion of a Communian Age—standing for communal, community, commons—as the future geological age of the Anthropocene that needs to be created in coevolution with nature—with a “great climacteric” in this respect necessarily occurring by the mid-twenty-first century.

In the present century, combatting the capitalist expropriation of nature, and in particular the extractivism that is more and more dominating our time—along with combatting the present accumulative system itself—has to take priority at all levels and in all forms of social struggle. In the classical historical materialist perspective, production as a whole, not simply extractive industry, but also agriculture, manufacturing, and transportation, need to be confronted, in order to transcend the contradictions of class-based capital accumulation. In this regard, the insights of the broad historical materialist tradition are crucial. As Marx observed,
Since actual labour is the appropriation of nature for the satisfaction of human needs, the activity through which the metabolism between man and nature is mediated, to denude labour capacity of the means of labour, the objective conditions for the appropriation of nature through labour, is to denude it, also, of the means of life. Labour capacity denuded of the means of labour and the means of life is therefore absolute poverty as such.
Today we are faced with an even bigger problem, arising out of this one, since the denuding of labor of its role as the direct mediator of the metabolism between humanity and nature, and the substitution of capital in this role through its control of the objective conditions of the appropriation of nature, has meant, with the growth of accumulation, that the means of life on the planet as a whole are being destroyed. The only answer is the creation of a higher form of society in which the associated producers directly and rationally regulate the metabolism between humanity and nature, in accord with the requirements of their own human development in coevolution with the earth as a whole.

Tuesday, October 25, 2022

CaitOz: Once Upon A Time

Once Upon A TimeCaitlin Johnstone. Oct. 09, 2022.


Once upon a time there was born a baby universe.

Like most babies, it didn’t have a lot going on for itself at first. It existed as nothing but a plasmic ocean of energy roaring outward from its point of origin, as simple as could be.

As the universe matured and cooled down a bit, things got a bit more complex. Atomic systems began to emerge. Stars started to form. Matter as we know it began to coalesce.

The emergence of stars allowed for the birth of heavier elements, which in turn allowed for the birth of planets. But while there was matter and light, the universe was still “dark” in a sense, because, like a newborn baby, it lacked self-awareness. There did not yet exist any perception in it.

That all changed as the universe continued cooling and complexifying. Just as the stars gave birth to planets, a planet gave birth to living organisms.

Just as was the case with the birth of the universe, when life first arrived it was as simple as could be. It remained in that state of radical simplicity for a very long time, like a kind of incubation period, before hatching and exploding into organisms of greater and greater complexity.

As evolution took its course, the baby universe gradually became more and more capable of experiencing itself. It opened its eyes. Sensory systems were evolved. And nervous systems. And brains.

The dawn of life brought the universe into a new stage of rapidly telescoping complexity. Matter was suddenly complexifying not over the course of billions of years but millions, and brains were emerging as the most complex form of matter.

As organisms and their brains became more and more advanced, the universe became capable of consciously perceiving itself in greater and greater depth. Colors. Sounds. Smells. Tastes.

And, eventually, thought.

The human brain is the most complex matter in the known universe, and once it arrived on the scene the telescoping of complexity went from happening on the scale of millions of years to thousands of years, to hundreds of years, to tens of years. Humanity’s ability to perceive and understand the universe with unprecedented depth and complexity allowed for more and more rapid leaps of innovation which have shaped the very face of this earth.

The arrival of the human brain gave the universe the ability to experience itself through not only sensory organs and nervous systems but through thought and through science. Suddenly the stardust was able to not just look at itself but to think about itself. To philosophize about itself. To meditate on itself. To explore itself. To run experiments on itself. To know itself with greater and greater intimacy.

Telescopes and microscopes of greater and greater sophistication emerged, giving the universe the ability to peer inward and outward with greater and greater depth. Instruments enhancing perception and measurement exploded in advancement. The arrival of computers augmented the human brain’s ability to think and understand, and the internet connected those augmented human brains across the planet.

And that’s where we now find ourselves: in the midst of the highest and most complex point of self-perception the universe has ever achieved, which is only continuing to telescopically elevate. We ourselves as individuals participate in this unfolding of universal self-perception when we learn things, when we share ideas and information, when we explore our own inner worlds and bring consciousness to our inner processes, when we contribute to collective understanding, when we help humanity move out of its evolutionary animal conditioning and become a more conscious and sane species.

The story of the universe is a story of expanding perception. The story of beingness getting better and better at perceiving itself. We collaborate with that unfolding when we expand our own awareness both inwardly and outwardly, and when we help the rest of humanity expand its awareness both inwardly and outwardly. Expanding awareness is what life is about.

We can know this is true because expanding awareness, perception and understanding is the only thing that has ever made things better. It’s what has made scientific innovations possible which have enabled us to live longer and better lives. It’s what has made societal changes possible which have caused us to treat each other more kindly and fairly. It’s what causes personal transformations which allow us to move through life with greater skill and harmony. The more aware the universe becomes on any level and at any scale, the more pleasant human life becomes on that level and at that scale.

We are not separate from the stardust of this universe. We are one with its continual adventure of self-discovery, as surely as a wave is one with the ocean. That’s why we only feel truly satisfied in life when we are consciously participating in that movement of discovery: when we are continually growing in self-knowledge, when we are learning, when we are helping others understand this life and this world. When learning, growth, exploration and expression stops, dissatisfaction sets in and life feels awkward, for the same reason it would look awkward to see a wave frozen and unmoving offshore.

We participate in the unfolding of universal awareness with any activity that helps anyone become aware of any aspect of beingness they weren’t aware of before. Bringing awareness to our own psychological habits. Exploring the nature of our own consciousness. Engaging in journalistic activity. Bringing attention to injustices and abuses. Creating art which helps people see and experience differently. Learning. Teaching. Exploring. Discovering.

That’s how we feel like we’re at harmony with the universe, and that’s how we bring harmony to the universe. For however long this adventure continues to unfold, the key to happiness and harmony is participation in the expansion of universal consciousness.

Tuesday, September 20, 2022

Tom Murphy's writing, always technically superbly informative, strikes me as getting deeper and wiser

okay, I probably shouldnt do this

i probably shouldn't post his material in full

I should probably just post a teaser excerpt here and let you read his post in full at his blog

so, why dont I do that?

because I think almost no-one reads this blog of mine here

and even if a few dozen or a few hundred hearty souls did... or even a few thousand..., I can't imagine someone who is promulgating the message that Mr Murphy is doing would be perturbed by someone else trying to convey his message to a (microscopically) broader audience

and partly I am posting it in full so I can come back to it later for future research purposes without having to worry about the risk that his blog gets de-activated somehow; ... and that I have bolded the parts that particularly resonate for me

but mostly I am posting it in full because its just too good not to; where would one cut it off? what piece of it isn't essential?

what else can I say, other than that I hope he accepts my posting of his work here in full in the spirit that it is meant, in gratitude for his perspectives, which are sadly uncommonly rare and as such so important:


Murphy: A Climate Love Story. Sept. 20, 2022.

The year is 2050. Things are unimaginably better than anyone in 2022 might have predicted. Such turnarounds are not without precedent. After all, the boom time in the 1950s came on the heels of the Great Depression and a crippling world war against ominously dark forces.  From the depths of those hard years, it would have been hard to foresee the glory days around the bend.

In our imagined 2050, climate change has been tamed by a spectacular suite of technological feats: fossil fuels are all but obsolete except in a few backwater places, replaced by an impressive profusion of solar panels, wind turbines, hydroelectric dams, thorium reactors, deep geothermal installations, and a nascent fusion industry on the verge of commercialization. Electric transport handles most domestic needs, while a bounty of biofuels powers air travel and long-haul shipping.

Breakthroughs in battery technology have resulted in large banks of lithium storage everywhere you look to smooth out the irregularities in renewable production. Seasonal-scale storage is around the corner, so that even places like Alaska will be able to satisfy demand year-round based on a massive energy haul from long summer days.

Freed from the constraints of obtaining energy from petro-states, countries are able to source all of their energy needs within their borders and in fact have more available energy than they did when dependent on primitive fossil fuels. Economies are thriving: global trade is more vigorous than it has ever been because energy is cheap and abundant.

Continued revolutions in computing power and device technology has us swimming in cool gadgets—putting something akin to Star Trek tri-corders in our hands, in contrast to the smart phones we fawn over today (mere walkie-talkies by comparison).

Abundant energy has transformed energy-intensive practices of food production and mining, so that everyone’s dietary and material needs are met, finally ameliorating hunger and gross inequity globally. Based on rising standards of living, birth rates are predicted to stabilize by century’s end so that we are on track to cruise toward a stable, peaceful, sated global regime.

In short, we’re total rock stars for having achieved a whole new phase of prosperity and amazingness. Martian colonies? Why not? While we’re fantasizing, let’s throw those in too! So yes, we are on our way to exporting our conquest to the stars and all is as it should be.

Part of me feels really crummy doing this to you. My motivation is not to be mean, really. Rather, I think it is incredibly important that we approach our future prospects realistically and understand fundamental planetary limits. So I’m afraid this is where I pull the rug out from under you. But see, I’m warning you and apologizing in advance rather than gleefully anticipating your bruising fall. Feel free to step off the fantasy on your own, if you have not already done so. Three. Two. One.

The first thing I will say is that I have never before tried to depict details of the dream scenario, as I did above. I found it shockingly easy to do—probably because we’re immersed in narratives of this sort. I did not have to stretch to conjure credible-sounding nuances. The words on the page were not required to check out against physical reality: I could say anything I wanted, which was liberating in an empty sort of way. I suspect many in our culture find similar joy in spinning hope of this sort, which might explain its prevelance. It’s a romance novel that practically writes itself.

But maybe I’m still being insensitive to the bruises. I get it. I went through the same thing, once implicitly imagining the future in these idyllic terms. Such visions are not limited to wild-eyed techno-optimists. Even many of the folks presently suffering existential dread about climate change would likely embrace this story as the best-case outcome that we hope can come to pass if we put our shoulders into it and advocate the right policies.  Write your Senators!


Facile Fascination

Before getting into the substance of why the dream scenario is likely a prescription for “failure by fantasy,” I’ll point out that our imaginations and ambitions are disconnected from reality by the mere fact that the actual physical world is finite and limited in ways that our thoughts are not. Some react by suggesting that we harness this human virtue of unlimited creativity to shape the world to our vision. For people in this camp, I recommend a simple exercise: come up with five examples of something you can imagine, but will never be possible in this physical universe. If you find it hard to do, we’ve found the problem: stop reading and go work some things out (which likely means absorbing some key concepts in physics). The point is, our brains are capable of visualizing convincing impossibilities in a flash, which can be both a gift and a very dangerous talent.

It is far easier to outline a grand vision than it is to appreciate its myriad practical limitations and unintended consequences. It’s also more appealing. Imagine inviting two guest speakers to a classroom: a fantastical futurist weaving a story of wonder, and a finite physicist pointing out all the ways the real universe will put a damper on those lazy-minded dreams. Which will the students like more, and transmit to their friends later?  I know from teaching physics students that their drooping eyes open wide when I veer into impossible domains like time travel, a journey into a black hole (and back?), faster-than-light drive, teleportation, etc.  We likes the magic.


Finite Materials

If humans are to be successful on this planet for the long term (i.e., tens of thousands of years), we need a healthy ecosystem and we need to live off natural renewable flows rather than continue to spend our finite non-renewable inheritance. We’ve exploited the low-hanging fruit already, so cannot expect mining to continue producing a bonanza of non-renewable goods into the indefinite future. Recycling is also a limited-time prospect. Even a 90% recovery rate on a material that is recycled every 10 years is down to 10% of the original stock in a few short centuries [the number of cycles is log(0.1)/log(0.9) for reaching 10% given 90% recovery]. Long-term success can’t rely on these materials. The enduring commodities are the ones that replace themselves: living matter.

Besides the fact that we have never built any alternative energy infrastructure (dams, photovoltaics, turbines, nuclear) without extensive reliance on fossil fuels, it is not clear how non-renewable materials could be coaxed to maintain a renewable energy infrastructure for the long term.

Meanwhile, plants will continue to capture and store solar energy to fuel virtually all life on this planet, including our own. The natural world is built to last, and has stood the test of time (billions of years)—unlike our grossly unsustainable flash of “modernity” that has done nothing of the sort. Depictions of a gleaming future always leave out the unattractive yet inevitable rust, decay, waste, and cost to the biosphere.


Unlimited Energy

Part of the dream is to slip out of the yoke of finite, non-renewable fossil fuels and bathe in the unending abundance of renewable flows. Roughly speaking, the amount of solar energy striking Earth in one hour exceeds our annual energy appetite. The sun will continue providing this service free of charge for billions of years (before engulfing the earth in plasma). Likewise, enough deuterium exists in ocean water to power our current energy needs for billions of years via fusion—should it ever become practical. These inspirational facts suggest that we just need to round the corner: get through the present pinch point and we’ll be on easy street. Energy will be abundant and—to all intents and purposes—unlimited.

Setting aside for now the practical hurdles that make such visions easier said than done, I want to explore for a moment what success on these fronts would mean.

The question I ask is: what would we do with this energy? The easiest answer is to look at what we are doing with our current energy allowance. We might expect more of the same, just scaled up due to greater energy abundance.

We use energy to get things and build things, to heat things and cool things, to illuminate things and move things. (Energy interacts with things because it’s part of physics.) We use energy to clear forests, plant crops, mine materials, pump water out of aquifers, and provide goodies to satisfy global demand. Historically, we have consumed as much energy as we are able to utilize. More energy has translated into bigger (and more) houses, more cars, more possessions, and less of the natural world.

In other words, energy is the motive agent behind the relentless redistribution of ecological wealth into (ephemeral) human wealth. My last post on hockey stick curves provides a hint of the consequences of our unilateral assault on nature for our own short-term gain. We have now reduced wild mammal mass on the planet so dramatically that the extrapolated curve hits zero by mid-century.  Now humans and our livestock are 96% of mammal mass on the planet, squeezing the remaining wild mammals into an alarmingly tiny box whose walls are still closing in fast.  Deforestation (lost habitat/food) is a large part of the reason, which stands to accelerate as firewood demand tries to pick up the slack of a looming fossil fuel supply shortage as the decades wear on.

As an example, the expansion of biofuels to support air travel and shipping inevitably—as proposed in the introduction—comes at the expense of ecosystem health on a number of fronts: cleared forests, fertilizers, pesticides, soil erosion, habitat elimination, ground water depletion.  Enjoy your flight.

I like an analogy I heard recently (from Dennis Meadows at 26:45 in this podcast): If a man is coming at you with the intent to do you harm, it hardly matters what technology he employs: hammer, gun, knife, mace, sword. The technology is neither the problem nor the solution. The fundamental problem is the intent of the assailant. Unless we radically change our intent on this planet, “unlimited” energy—by any technological means—only accelerates our demise. I think of it this way: if every jackass on the planet has access to cheap and abundant energy, what do you think they’ll do with it? Will they use it to restore ecosystems, or hack more of it down for their own short-term gain?


More to this Planet than Humans

To my knowledge, no species has ever been penalized for putting its own needs ahead of the needs of all other species. In fact, they would not likely have survived natural selection had they done so. Thus, it is no surprise that humans do the same thing. If more for us means less for other species, so be it (or even: all the better). The catch is that humans have reached a state of capability far in excess of any other species—largely facilitated by our ability to amplify our metabolic energy by orders-of-magnitude via the harnessing of external energy sources. So our selfishness is now deadly at an extinction-relevant scale.  We are no longer playing by the rules that got us here as “fair play” members of the ecosystem.

If we do not devise an intentional method of suppressing human exceptionalism, we will foul the nest to the point of self-harm (sound familiar?) by precipitating an ecosystem collapse. In this unfortunate, unwitting undoing, we will have answered evolution’s question: how far can intelligence be pushed as a survival strategy before it is self-terminating? Or worse than self-terminating: taking numerous other innocent species down with us.

Let’s not be those people. The path forward is to put less emphasis on “smart” and “clever” (which got us into this mess), and more on “wise.” This looks like intentionally stepping off our throne as conquerors and masters of planet Earth, appreciating that we are all (all species) in this together, and all need each other to survive. Biodiversity is our greatest ally. Give the squirrels, newts, and nuthatches a voice. Ask what’s good for them, what measures they would vote for, what legal action they would take if they could. Would they vote for “solving” climate change by bestowing more energy and growth on the human race? Does the introduction to this piece leave them applauding in admiration, or diving for cover?


This Time is Unusual

It is easy to get caught up in the heady whirlwinds of modernity. We have accomplished amazing feats in these past few centuries, and our extrapolative minds envision a continued acceleration. Given that our life span overlaps only a portion of the tale, it is easy to lose the context that our boom (the Industrial Revolution and what followed) is almost entirely due to fossil fuels. This energy surge in turn powered a surge in material access and economic activity (and human population) in what is perhaps fittingly described as a fireworks show.

Besides challenging the flawed notion that technology and innovation are still accelerating, we ought to keep in mind that the modern era has been a unique period of rapid inheritance spending. We unlocked the rich cupboards of our planet and have been tearing through available resources to build as fast as practicality allowed. Our financial system is set up to reward the fastest possible growth, so it is no surprise that that’s what we got.

When entertaining a dream scenario as presented at the beginning of this post, reflect on how much the narrative is influenced by our anomalous recent history. All kinds of signals warn that this phase may soon reach its grand finale.

In this context, it should be noted that the remarkable turnaround from the 1930s to the 1950s mentioned in the introduction coincided with the period of peak expansion of fossil fuel energy and resource extraction. It is no accident that the heyday of U.S. global dominance corresponded to a time when the U.S. used over 70% of the world’s oil production and over 80% of its natural gas. That special time had a physical basis that will never be repeated. It wasn’t a matter of policy.  The avenues available then are closing off to us now, limiting what we might expect to accomplish going forward.

Expecting the rest of the world to follow in the footsteps of developed countries in terms of birth rates and affluence overlooks this colossal point: now-developed countries had the tremendous advantage of starting with a cornucopia of untapped resources.  Those just arriving at the party are finding a picked-over scene that is more depressing than fun.  The moment has passed, and the old playbook has been rendered obsolete.


Dream Becomes Nightmare

As “fun” as it was to write the introduction fantasy, part of me was terrified. Looking beyond the shiny surface to the implications for ecosystems on a finite planet already in peril brings an element of horror to each point. I have explained above how abundant energy could backfire and have alluded to the ecosystem destruction accompanying a biofuel expansion. A growing economy is terrible news for the newts. Increasing the standard of living of a growing population makes today’s ecological pressures look adorable. I think of the hockey sticks and fear what happens if they continue to soar upwards—or even just level off at today’s crippling state of accumulating ecosystem damage, for that matter. Aside from CO2, the “dream” scenario makes every hockey stick worse: population, GWP, energy, waste, extinctions, deforestation.

This is why I worry about the disproportionate attention climate change gets. While the problem is serious in its own right, and some of the suggested responses are in the “right” direction (e.g., wean ourselves off fossil fuels; finally value trees—as carbon repositories), focusing on CO2 offers symptom relief without impeding the progression of the underlying disease.  Most of the hockey sticks would be just as bad even if we had no CO2 excess, in fact. Maybe climate change is like a nasty hangover: an unwelcome side effect of our civilization’s drinking habit. The quest to engineer renewable substitutes (better liquors) that don’t have this particular side effect might allow us to keep partying or even party harder, but avoids addressing the core problem and perpetuates the key forces threatening ecological collapse.

Let’s not engineer a nightmare for ourselves in the misguided attempt to realize a poorly considered dream. It starts by recognizing that the vision many hold as “the dream” is itself utterly unsustainable and thus may even accelerate failure, rather than avert it. The predicament has wide boundaries that reach deep foundations of our civilization’s structure. We only succeed by altering our mental models of how we live on this planet—not by finding “superior” substitutes for the very things that have put us in this precarious position—and thus will only dig our hole faster, better, and cheaper.


A Starting Place

I suppose it is unsporting of me to dash dreams and then just walk away without offering some form of hopeful replacement. Unfortunately, I don’t have any fully-formed vision of how to build a future that works. What I can offer is a set of principles that can guide and constrain our thinking.

Some colleagues and I worked on a set of principles that we published in a recent paper, that read:

  1. Humans are a part of nature, not apart from nature.
  2. Non-renewable materials cannot be harvested indefinitely on a finite planet.
  3. The ability of Earth’s ecosystems to assimilate pollution without consequences is finite.
  4. Energy throughput is essential to all human activities, including the economy.
  5. Technology is a tool for deploying, not creating energy.
  6. Fossil fuel combustion is the primary cause of ongoing global climate change.
  7. Exponential growth, whether of physical or economic form, must eventually cease.
  8. Today’s choices can simultaneously create problems for and deprive resources from future generations.
  9. Human behavior is consciously and unconsciously shaped by mental models of culture that, while mutable, impose barriers to change.
  10. Apparent success for a few generations during a massive draw-down of finite resources says little about chances for long-term success.

These may not be perfect (I am working on an alternate/complementary set based on recent inspirations), but perhaps sketch the beginnings of a mindset that could lead to better outcomes. If we hold these truths to be self-evident, what are the logical consequences of the set? What system could we devise that explicitly demotes us to a subordinate partner to the rest of nature, acknowledges and works within planetary limits, shuns growth models, and preserves good things for the far future?

Monday, September 19, 2022

Marxism and Collapse: Climate catastrophe, Collapse, Democracy and Socialism

follow the link to go to the original article to see the info graphics, plus endnotes, etc.:

Climate catastrophe, Collapse, Democracy and Socialism | Noam Chomsky, Miguel Fuentes, Guy McPherson

MARXISM AND COLLAPSE: The following is the first part of the interview-debate “Climate Catastrophe, Collapse, Democracy and Socialism” between the linguist and social scientist Noam Chomsky, one of the most important intellectuals of the last century, the Chilean social researcher and referent of the Marxist-Collapsist theoretical current Miguel Fuentes, and the American scientist Guy McPherson, a specialist in the topics of the ecological crisis and climate change. One of the most remarkable elements of this debate is the presentation of three perspectives which, although complementary in many respects, offer three different theoretical and political-programmatic approaches to the same problem: the imminence of a super-catastrophic climate change horizon and the possibility of a near civilisational collapse. Another noteworthy element of this debate is the series of interpretative challenges to which Chomsky’s positions are exposed and that give this discussion the character of a true “ideological contest” between certain worldviews which, although as said before common in many respects, are presented as ultimately opposed to each other. In a certain sense, this debate takes us back, from the field of reflection on the ecological catastrophe, to the old debates of the 20th century around the dilemma between “reform or revolution”, something that is undoubtedly necessary in the sphere of contemporary discussions of political ecology.

Noam Chomsky
American linguist, philosopher, cognitive scientist, historian, social critic, and political activist. He adheres to the ideas of libertarian socialism and anarcho-syndicalism. He advocates a New Green Deal policy as one of the ways of dealing with the ecological crisis.

Miguel Fuentes
Chilean social researcher in the fields of history, archaeology, and social sciences. International coordinator of the platform Marxism and Collapse and exponent of the new Marxist-Collapsist ideology. He proposes the need for a strategic-programmatic updating of revolutionary Marxism in the face of the new challenges of the Anthropocene and the VI mass extinction.

Guy McPherson
American scientist, professor emeritus of natural resources, ecology, and evolutionary biology. He adheres to anarchism and argues the inevitability of human extinction and the need to address it from a perspective that emphasises acceptance, the pursuit of love and the value of excellence.


1. In a recent discussion between ecosocialist stances and collapsist approaches represented by Michael Lowy (France), Miguel Fuentes (Chile) and Antonio Turiel (Spain), Lowy constantly denied the possibility of a self-induced capitalist collapse and criticized the idea of the impossibility of stopping climate change before it reaches the catastrophic level of 1.5 centigrade degrees of global warming. Do you think that the current historical course is heading to a social global downfall comparable, for example, to previous processes of civilization collapse or maybe to something even worse than those seen in ancient Rome or other ancient civilizations? Is a catastrophic climate change nowadays unavoidable? Is a near process of human extinction as a result of the overlapping of the current climate, energetic, economic, social and political crisis and the suicidal path of capitalist destruction, conceivable? [1] (Marxism and Collapse)

Noam Chomsky:

The situation is ominous, but I think Michael Lowy is correct. There are feasible means to reach the IPPC goals and avert catastrophe, and also moving on to a better world. There are careful studies showing persuasively that these goals can be attained at a cost of 2-3% of global GDP, a substantial sum but well within reach – a tiny fraction of what was spent during World War II, and serious as the stakes were in that global struggle, what we face today is more significant by orders of magnitude. At stake is the question whether the human experiment will survive in any recognizable form.

The most extensive and detailed work I know on how to reach these goals is by economist Robert Pollin. He presents a general review in our joint book Climate Crisis and the Global Green New Deal. His ideas are currently being implemented in a number of places, including some of the most difficult ones, where economies are still reliant on coal. Other eco-economists, using somewhat different models, have reached similar conclusions. Just recently IRENA, —the International Renewable Energy Agency, part of the UN– came out with the same estimate of clean energy investments to reach the IPCC goals.

There is not much time to implement these proposals. The real question is not so much feasibility as will. There is little doubt that it will be a major struggle. Powerful entrenched interests will work relentlessly to preserve short-term profit at the cost of incalculable disaster.  Current scientific work conjectures that failure to reach the goal of net zero Carbon emissions by 2050 will set irreversible processes in motion that are likely to lead to a “hothouse earth,” reaching unthinkable temperatures 4-5º Celsius above pre-industrial levels, likely to result in an end to any form of organized human society.


Miguel Fuentes:

Noam Chomsky highlights the possibility of a global warming that exceeds 4-5 degrees Celsius above pre-industrial levels within this century in his previous response, which according to him could mean, literally, the end of all forms of organised human society. Chomsky endorses what many other researchers and scientists around the world are saying. A recent report by the Breakthrough National Centre for Climate Restoration, for example, points to 2050 as the most likely date for the onset of widespread civilisational collapse. The central idea would be that, due to a sharp worsening of the current climate situation, and the possible transformation by the middle of this century of a large part of our planet into uninhabitable, a point of no return would then be reached in which the fracture and collapse of nation states and the world order would be inevitable [3]. At the same time, he states that the needed goals to avert this catastrophe which will lay the foundations for a transition to “clean energy”, and a more just society, would still be perfectly achievable. Specifically, Chomsky says that this would only require an investment of around 2-3% of world GDP, the latter within the framework of a plan of “environmental reforms” described in the so-called “Green New Deal” of which he is one of its main advocates.

Let’s reflect for a moment on the above. On the one hand, Chomsky accepts the possibility of a planetary civilisational collapse in the course of this century. On the other hand, he reduces the solution to this threat to nothing more than the application of a “green tax”. Literally the greatest historical, economic, social, cultural and even geological challenge that the human species and civilisation has faced since its origins reduced, roughly speaking, to a problem of “international financial fundraising” consisting of allocating approximately 3% of world GDP to the promotion of “clean energies”. Let’s think about this again. A danger that, as Chomsky puts it, would be even greater than the Second World War and could turn the Earth into a kind of uninhabitable rock, should be solved either by “international tax collection” or by a plan of limited “eco-reforms” of the capitalist economic model (known as the “Green New Deal”).

But how is it possible that Chomsky, one of the leading intellectuals of the 20th century, is able to make this “interpretive leap” between accepting the possibility of the “end of all organised human society” within this century and reducing the solution to that threat to what would appear to be no more than a (rather timid) cosmetic restructuring of international capitalist finance? Who knows! What is certain, however, is that Chomsky’s response to the climate threat lags far behind not only those advocated by the ecosocialist camp and even traditional Marxism to deal with the latter, based on posing the link between the problem of the root causes of the ecological crisis and the need for a politics that defends the abolition of private ownership of the means of production as a necessary step in confronting it. Moreover, Chomsky’s treatment of the ecological crisis seems to be inferior to that which characterises all those theoretical tendencies which, such as the theory of degrowth or a series of collapsist currents, advocate the imposition of drastic plans of economic degrowth and a substantial decrease in industrial activity and global consumption levels. The latter by promoting a process of “eco-social transition” which would not be reduced to a mere change in the energy matrix and the promotion of renewable energies, but would imply, on the contrary, the transition from one type of civilisation (modern and industrial) to another, better able to adapt to the new planetary scenarios that the ecological crisis, energy decline and global resource scarcity will bring with them.

But reducing the solution of the climate catastrophe to the need for a “green tax” on the capitalist market economy is not the only error in Chomsky’s response. In my view, the main problem of the arguments he uses to defend the possibility of a successful “energy transition” from fossil fuels to so-called “clean energy” would be that they are built on mud. First, because it is false to say that so-called “clean energies” are indeed “clean” if we consider the kind of resources and technological efforts required in the implementation of the energy systems based on them. Solar or wind energy, for example, depend not only on huge amounts of raw materials associated for their construction with high polluting extractive processes (e.g., the large quantities of steel required for the construction of wind turbines is just one illustration of this), but also on the use of extensive volumes of coal, natural gas or even oil. The construction of a single solar panel requires, for instance, enormous quantities of coal. Another striking example can be seen in the dependence of hydrogen plants (specially the “grey” or “blue” types) on vast quantities of natural gas for their operations. All this without it ever being clear that the reduction in the use of fossil fuels that should result from the implementation of these “clean” technologies will be capable of effectively offsetting a possible exponential increase in its “ecological footprint” in the context of a supposedly successful energy transition [4].

Secondly, it is false to assume that an energy matrix based on renewable energies could satisfy the energy contribution of fossil fuels to the world economy in the short or medium term, at least, if a replication of current (ecologically unviable) patterns of economic growth is sought. Examples of this include the virtual inability of so-called “green hydrogen” power plants to become profitable systems in the long term, as well as the enormous challenges that some power sources such as solar or wind energy (highly unstable) would face in meeting sustained levels of energy demand over time. All this without even considering the significant maintenance costs of renewable energy systems, which are also associated (as said) with the use of highly polluting raw materials and a series of supplies whose manufacture also depend on the use of fossil fuels [5].

But the argumentative problems in Chomsky’s response are not limited to the above. More importantly is that the danger of the climate crisis and the possibility of a planetary collapse can no longer be confined to a purely financial issue (solvable by a hypothetical allocation of 3% of world GDP) or a strictly technical-engineering challenge (solvable by the advancement of a successful energy transition). This is because the magnitude of this problem has gone beyond the area of competence of economic and technological systems, and has moved to the sphere of the geological and biophysical relations of the planet itself, calling the very techno-scientific (and economic-financial) capacities of contemporary civilisation into question. In other words, the problem represented by the current levels of carbon dioxide in the atmosphere, or those related to the unprecedented advances in marine acidification, Arctic melting, or permafrost decomposition rates, would today constitute challenges whose solution would be largely beyond any of our scientific developments and technological capabilities. Let’s just say that current atmospheric carbon dioxide levels (already close to 420 ppm) have not been seen for millions of years on Earth. On other occasions I have defined this situation as the development of a growing “terminal technological insufficiency” of our civilisation to face the challenges of the present planetary crisis [6].

In the case of current atmospheric CO2 concentrations, for example, there are not and will not be for a long time (possibly many decades or centuries), any kind of technology capable of achieving a substantial decrease of those concentrations. This at least not before such concentrations continue to skyrocket to levels that could soon guarantee that a large part of our planet will become completely uninhabitable in the short to medium term. In the case of CO2 capture facilities, for instance, they have not yet been able to remove even a small (insignificant) fraction of the more than 40 billion tonnes of carbon dioxide emitted each year by industrial society [7]. Something similar would be the situation of other ecological problems such as the aforementioned increase in marine acidification levels, the rise in ocean levels or even the increasingly unmanageable proliferation of space debris and the consequent danger it represents for the (immediate) maintenance of contemporary telecommunication systems. In other words, again, increasing threatening problems for which humanity has no effective technologies to cope, at least not over the few remaining decades before these problems reach proportions that will soon call into question our very survival as a species.

Unsolvable problems, as unsolvable as those that would confront anyone seeking to “restore” a clay pot or a glass bottle to its original state after it has been shattered into a thousand fragments by smashing it against a concrete wall! To restore a glass of the finest crystal after it has been smashed to pieces? Not even with the investment of ten, a hundred world GDPs would it be possible! This is what we have done with the world, the most beautiful of the planetary crystals of our solar system, blown into a thousand pieces by ecocidal industrialism! To restore? To resolve? Bollocks! We have already destroyed it all! We have already finished it all! And no “financial investment” or “technological solution” can prevent what is coming: death! To die then! To die… and to fight to preserve what can be preserved! To die and to hope for the worst, to conquer socialism however we can, on whatever planet we have, and to take the future out of the hands of the devil himself if necessary! That is the task of socialist revolution in the 21st century! That is the duty of Marxist revolutionaries in the new epoch of darkness that is rising before us! That is the mission of Marxism-Collapsist!


Guy McPherson:

There is no escape from the mass extinction event underway. Only human arrogance could suggest otherwise. Our situation is definitely terminal. I cannot imagine that there will be a habitat for Homo sapiens beyond a few years in the future. Soon after we lose our habitat, all individuals of our species will die out. Global warming has already passed two degrees Celsius above the 1750 baseline, as noted by the renowned Professor Andrew Glikson in his October 2020 book “The Event Horizon”. He wrote on page 31 of that book: “During the Anthropocene, greenhouse gas forcing increased by more than 2.0 W/m2, equivalent to more than > 2°C above pre-industrial temperatures, which is an abrupt (climate change) event taking place over a period not much longer than a generation”.

So yes. We have definitely passed the point of no return in the climate crisis. Even the incredibly conservative Intergovernmental Panel on Climate Change (IPCC) has already admitted the irreversibility of climate change in its 24 September 2019 “Special Report on the Ocean and Cryosphere in a Changing Climate”. A quick look around the globe will also reveal unprecedented events such as forest fires, floods and mega-droughts. The ongoing pandemic is just one of many events that are beginning to overwhelm human systems and our ability to respond positively.

All species are going extinct, including more than half a dozen species of the genus Homo that have already disappeared. According to the scientific paper by Quintero and Wiens published in Ecology Letters on 26 June 2013, the projected rate of environmental change is 10.000 times faster than vertebrates can adapt to. Mammals also cannot keep up with these levels of change, as Davis and colleagues’ paper published in the Proceedings of the National Academy of Sciences on 30 October 2018 points out. The fact that our species is a vertebrate mammal suggests that we will join more than 99% of the species that have existed on Earth that have already gone extinct. The only question in doubt is when. In fact, human extinction could have been triggered several years ago when the Earth’s average global temperature exceeded 1.5 degrees Celsius above the 1750 baseline. According to a comprehensive overview of this situation published by the European Strategy and Policy Analysis System in April 2019, a “1.5 degree increase is the maximum the planet can tolerate; (…) in a worst-case scenario, [such a temperature increase above the 1750 baseline will result in] the extinction of humanity altogether”.

All species need habitat to survive. As Hall and colleagues reported in the Spring 1997 issue of the Wildlife Society Bulletin: “We therefore define habitat ‘as the resources and conditions present in an area that produce occupancy, including survival and reproduction, of a given organism. Habitat is organism-specific; it relates the presence of a species, population or individual (…) to the physical and biological characteristics of an area. Habitat implies more than vegetation or the structure of that vegetation; it is the sum of the specific resources needed by organisms. Whenever an organism is provided with resources that allow it to survive, that is its habitat’”. Even tardigrades are not immune to extinction. Rather, they are sensitive to high temperatures, as reported in the 9 January 2020 issue of Scientific Reports. Ricardo Cardoso Neves and collaborators point out there that all life on Earth is threatened with extinction with an increase of 5-6 degrees Celsius in the global average temperature. As Strona and Corey state in another article in Scientific Reports (November 13, 2018) raising the issue of co-extinctions as a determinant of the loss of all life on Earth: “In a simplified view, the idea of co-extinction boils down to the obvious conclusion that a consumer cannot survive without its resources”.

From the incredibly conservative Wikipedia entry entitled “Climate change” comes this supporting information: “Climate change includes both human-induced global warming and its large-scale impacts on weather patterns. There have been previous periods of climate change, but the current changes are more rapid than any known event in Earth’s history.” The Wikipedia entry further cites the 8 August 2019 report “Climate Change and Soils”, published by the Intergovernmental Panel on Climate Change (IPCC). The IPCC is among the most conservative scientific bodies in history. Yet it concluded in 2019 that the Earth is in the midst of the most rapid environmental change seen in planetary history, citing scientific literature that concludes: “These rates of human-driven global change far exceed the rates of change driven by geophysical or biospheric forces that have altered the trajectory of the Earth System in the past (Summerhayes 2015; Foster et al. 2017); nor do even abrupt geophysical events approach current rates of human-driven change”.

The Wikipedia entry also points out the consequences of the kind of abrupt climate change currently underway, including desert expansion, heat waves and wildfires becoming increasingly common, melting permafrost, glacier retreat, loss of sea ice, increased intensity of storms and other extreme environmental events, along with widespread species extinctions. Another relevant issue is the fact that the World Health Organisation has already defined climate change as the greatest threat to global health in the 21st century. The Wikipedia entry continues: “Under the 2015 Paris Agreement, nations collectively agreed to keep warming ‘well below 2.0 degrees C (3.6 degrees F) through mitigation efforts’”. But Professor Andrew Glikson already pointed out as we said in his aforementioned book The Event Horizon that the 2 degrees C mark is already behind us. Furthermore, as we already indicated, the IPCC also admitted the irreversibility of climate change in its “Special Report on the Ocean and Cryosphere in a Changing Climate”. Therefore, 2019 was an exceptional year for the IPCC, as it concluded that climate change is abrupt and irreversible.

How conservative is the IPCC? Even the conservative and renowned journal BioScience includes an article in its March 2019 issue entitled “Statistical language supports conservatism in climate change assessments”. The paper by Herrando-Perez and colleagues includes this information: “We find that the tone of the IPCC’s probabilistic language is remarkably conservative (…) emanating from the IPCC’s own recommendations, the complexity of climate research and exposure to politically motivated debates. Harnessing the communication of uncertainty with an overwhelming scientific consensus on anthropogenic climate change should be one element of a broader reform, whereby the creation of an IPCC outreach working group could improve the transmission of climate science to the panel’s audiences”. Contrary to the conclusion of Herrando-Perez and colleagues, I cannot imagine that the IPCC is really interested in conveying accurate climate science to its audiences. After all, as Professor Michael Oppenheimer noted in 2007, the US government during the Reagan administration “saw the creation of the IPCC as a way to prevent the activism stimulated by my colleagues and me from controlling the political agenda”.


2. Have the human species become a plague for the planet? If so, how can we still conciliate the survival of life on Earth with the promotion of traditional modern values associated with the defence of human and social rights (which require the use of vast amounts of planetary resources) in a context of a potential increase of world’s population that could reach over twelve billion people this century? The latter in a context in which (according to several studies) the maximum number of humans that Earth could have sustained without a catastrophic alteration of ecosystems should have never exceeded the billion. Can the modern concept of liberal (or even socialist) democracy and its supposedly related principles of individual, identity, gender, or cultural freedom survive our apparent terminal geological situation, or it will be necessary to find new models of social organization, for example, in those present in several indigenous or native societies? Can the rights of survival of living species on Earth, human rights, and the concept of modern individual freedom be harmoniously conciliated in the context of an impending global ecosocial disaster? (Marxism and Collapse)

Noam Chomsky:

Let’s begin with population growth. There is a humane and feasible method to constrain that: education of women. That has a major effect on fertility in both rich regions and poor, and should be expedited anyway. The effects are quite substantial leading to sharp population decline by now in parts of the developed world. The point generalizes. Measures to fend off “global ecosocial disaster” can and should proceed in parallel with social and institutional change to promote values of justice, freedom, mutual aid, collective responsibility, democratic control of institutions, concern for other species, harmony with nature –values that are commonly upheld by indigenous societies and that have deep roots in popular struggles in what are called the “developed societies” –where, unfortunately, material and moral development are all too often uncorrelated.

Miguel Fuentes:

Chomsky’s allusions to the promotion of women’s education and the social values of justice, freedom, mutual aid, and harmony with nature, as “moral values” disconnected from a broader critique of the industrial system, capitalism, and the class society within which threats such as global warming have been generated and aggravated, become mere phrases of good intentions. On the contrary, the realization of these principles must be thought within a context of a large-scale world social transformation. The latter if those principles are to be effective in combatting the challenges facing humanity today and the kind of civilisational crisis that is beginning to unfold as a product of the multiple eco-social (ecological, energy and resource) crises that are advancing globally. In other words, a process of historical transformation that can envisage the abolition of the current ecocidal industrial economic system, and its replacement by one in which production, exchange and distribution can be planned in accordance with social needs.

But even a traditional socialist approach to these problems, such as the one above, also falls short of accounting for the kind of planetary threats we face. Let’s put it this way, the discussion around the ecological crisis and the rest of the existential dangers hanging over the fate of our civilisation today really only begins, not ends, by giving it a proper Marxist contextualisation. One of the underlying reasons for this is that the traditional socialist project itself, in all its variants (including its more recent ecosocialist versions), would also already be completely insufficient to respond to the dangers we are facing as a species. That is, the kind of dangers and interpretative problems that none of the Marxists theoreticians of social revolution over the last centuries had ever imagined possible, from Marx and Engels to some of the present-day exponents of ecosocialism such as John Bellamy Foster or Michael Lowy [8].

One of these new types of problems that revolutionary theories are facing today is that of the current uncontrolled demographic growth rates of humanity. A problem that would already confer on us, amongst other things, the condition of one of the worst biological (or, in our case, “biosocial”) plagues existing to this day. This if we consider the absolutely devastating role that our species has been exerting on the biosphere in the last centuries. A plague that would be even comparable in its destructive power to that represented by the cyanobacteria that triggered the first mass extinction event on Earth some 2.4 billion years ago, although in our case at an even more accelerated and “efficient” pace than the latter. Is this statement too brutal? Maybe, from a purely humanist point of view, alien to the kind of problems we face today, but not from an eminently scientific perspective. Or can there be any doubt about our condition as a “planetary plague” for any ecologist studying the current patterns of behaviour, resource consumption and habitat destruction associated with our species? Too brutal a statement? Tell it to the more than 10.000 natural species that become extinct every year as a result of the role of a single species on the planet: ours! Tell it to the billions of animals killed in the great fires of Australia or the Amazon a few years ago! Tell it to the polar bears, koalas, pikas, tigers, lions, elephants, who succumb every year as a product of what we have done to the Earth! Very well, we are then a “plague”, although this term would only serve to classify us as a “biological species”, being therefore too “limited” a definition and lacking any social and historical perspective. Right? [9]

Not really. The fact that we possess social and cultural systems that differentiate us from other complex mammals does not mean that our current status as a “plague of the world” should be confined to the biological realm alone. On the contrary, this just means that this status could also have a certain correlation in the social and cultural dimension; that is, in the sphere of the social and cultural systems particular to modern society. To put it in another way, even though our current condition of “plague of the world” has been acquired by our species within the framework of a specific type of society, mode of production and framework of particular historical relations, characteristic of industrial modernity, this does not mean that this condition should be understood as a merely historical product. That is, excluding its biological and ecological dimension. In fact, beyond the differentiated position and role of the various social sectors that make up the productive structure and the socio-economic systems of the industrial society (for example, the exploiting and exploited social classes), it is indeed humanity as a whole: rich and poor, entrepreneurs and workers, men and women, who share (all of us) the same responsibility as a species (although admittedly in a differentiated way) for the current planetary disaster. An example of the above. Mostly everything produced today by the big multinationals, down to the last grain of rice or the last piece of plastic, is consumed by someone, whether in Paris, London, Chisinau or La Paz. And we should also remember that even biological plagues (such as locusts) may have different consumption patterns at the level of their populations, with certain sectors being able to consume more and others consuming less. However, just because one sector of a given biological plague consumes less (or even much less), this sector should not necessarily be considered as not belonging to that plague in question.

Another similar example: it is often claimed in Marxist circles (sometimes the numbers vary according to each study) that 20% of humanity consumes 80% of the planetary resources. This means that approximately 1.600.000.000.000 people (assuming a total population of 8 billion) would be the consumers of that 80% of planetary resources; that is, a number roughly equivalent to three times the current European population. In other words, what this sentence really tells us is that a much larger segment of the world’s population than the capitalist elites (or their political servants) would also bear a direct, even grotesque, responsibility for the unsustainable consumption patterns that have been aggravating the current planetary crisis. Or, to put it in more “Marxist” terms, that a large percentage (or even the totality) of the working classes and popular sectors in Europe, the United States, and a significant part of those in Latin America and other regions of the so-called “developing countries”, would also be “directly complicit”, at least in regards of the reproduction of the current ecocidal modern urban lifestyle, in the destruction of our planet.

But let us extend the discussion to the remaining 80% of humanity; that is, to the approximately 6.400.000.000.000 people who consume 20% of the planetary resources used in a year. To begin with, let us say that 20% of global resources is not a negligible percentage, representing in fact a fifth of them and whose production would be associated with substantial and sustained levels of environmental destruction. The latter in the context of an ever-growing world population that possibly should never have exceeded one billion inhabitants, so that we would have been in a position today to stop or slow down the disastrous impact we are having on ecosystems. Let us not forget that the number of people included in this 80% of the world’s population is more than four times higher than the entire human population at the beginning of the 20th century, which means that the number of basic resources necessary for the survival of this sector is an inevitable pressure on the earth’s natural systems, even if consumption levels are kept to a minimum.

In short, there is therefore no doubt that humanity has indeed become one of the worst planetary plagues in the history of terrestrial life, constituting this a (fundamental) problem in itself for contemporary revolutionary thought and, more generally, for the human and social sciences as a whole. In other words, a problem that today would not be solved by a mere change in the mode of production, the class structure, or the socio-political system, but would be associated with the very “genetics” of the development of industrial society. That is to say, a society based on a particularly destructive (voracious) form of human-nature relationships, which would be at the same time the “structural basis” of all possible and conceivable models of it (capitalists, socialists or any other type). Whether in the framework of a neo-liberal market economy or a socialist and/or collectivist planned economy, it is the industrial system and modern mass society in all its variants, whether capitalist or socialist, its mega-cities, its productive levels, its consumption patterns and lifestyles, its “anthropocentric spirit”, structurally associated with certain demographic patterns in which the Earth is conceived as a mere space for human consumption and reproduction… that is the main problem.

Is it possible to reconcile current levels of overpopulation with the survival requirements of our species? No. We have become a planetary plague and will remain a planetary plague until such time as, by hook or by crook (almost certainly by crook) our numbers are substantially reduced and remain at the minimum possible levels, for at least a few centuries or millennia. Is it possible to solve the problem of overpopulation and at the same time defend the legitimacy of traditional modern values associated with the promotion of human and social rights, at least as these values have been understood in recent centuries? No. Modernity has failed. Modernity is dead. We are going to have to rethink every single one of our values, including the most basic ones, all of them. We are going to have to rethink who we are, where we are going and where we come from. The existence of almost 8 billion people on our planet today, and moreover the likely increase of this number to one that reaches 10 or even 12 billion is not only incompatible with the realisation of the very ideals and values of modern democracy in all its variants (capitalists or socialists), but also with the very survival of our species as a whole and, possibly, of all complex life on Earth. This simply because there will be nowhere near enough resources to ensure the realization of these values (or even our own subsistence) in such a demographic context (there simply won’t be enough food and water). Our situation is terminal. Modernity is dead. Democracy is dead. Socialism is dead. And if we want these concepts -democracy or socialism- to really have any value in the face of the approaching catastrophe, then we will have to rethink them a little more humbly than we have done so far.

Modern civilisation has borne some of the best fruits of humanity’s social development, but also some of the worst. We are in some ways like the younger brother of a large family whose early successes made him conceited, stupid and who, thinking of himself as “master of the world”, began to lose everything. We are that young man. We should therefore shut up, put our ideologies (capitalists and socialists) in our pockets, and start learning a little more from our more modest, slower and more balanced “big brothers”; for example, each of the traditional or indigenous societies which have been able to ensure their subsistence for centuries and in some cases even millennia. The latter while industrial society would not even have completed three centuries before endangering its own existence and that of all other cultures on the planet. In a few words, start learning from all those traditional societies that have subsisted in the context of the development of social systems that are often much more respectful of ecological and ecosystemic balances. Those “ecosocial balances” which are, in the end, in the long view of the evolution of species, the real basis for the development of any society… because without species (be they animal or plant), any human culture is impossible. Scientific and technological progress? Excellent idea! But perhaps we could take the long route, think things through a bit more, and achieve the same as we have achieved today in two centuries, but perhaps taking a bit longer, say ten, twenty or even a hundred centuries? Who’s in a hurry? Let us learn from the tortoise which, perhaps because it is slow, has survived on Earth for more than 220 million years, until we (who as Homo sapiens are no more than 250.000 years old) came along and endangered it.

Guy McPherson:

As ecologists have been pointing out for decades, environmental impacts are the result of human population size and human consumption levels. The Earth can support many more hunter-gatherers than capitalists seeking more material possessions. Unfortunately, we are stuck with the latter rather than the former. Ecologists and environmentalists have been proposing changes in human behaviour since at least the early 20th century. These recommendations have fallen on deaf ears. However, even if it is possible to achieve substantial changes in human behaviour, and if they result in an effective slowing down or stopping of industrial activity, it is questionable whether this is a useful means of ensuring our continued survival. One reason for this lies in the knowledge of what the effect of “aerosol masking” could mean for the climate crisis.

The “climate masking” effect of aerosols has been discussed in the scientific literature since at least 1929, and consists of the following: at the same time as industrial activity produces greenhouse gases that trap part of the heat resulting from sunlight reaching the Earth, it also produces small particles that prevent this sunlight from even touching the surface of the planet. These particles, called “aerosols”, thus act as a kind of umbrella that prevents some of the sunlight from reaching the earth’s surface (hence this phenomenon has also been referred to as “global dimming”) [11]. In other words, these particles (aerosols) prevent part of the sun’s rays from penetrating the atmosphere and thus inhibit further global warming. This means, then, that the current levels of global warming would in fact be much lower than those that should be associated with the volumes of greenhouse gases present in the atmosphere today (hence the designation of this phenomenon as “climate masking”). To put it in a simpler way, the global warming situation today would actually be far more serious than is indicated not only by the very high current global temperatures, but also by the (already catastrophic) projections of rising global temperatures over the coming decades. This is especially important if we consider the (overly optimistic) possibility of a future reduction in the amount of aerosols in the atmosphere as a result of a potential decrease in greenhouse gas emissions over the next few years, which should paradoxically lead, therefore, to a dramatic increase in global temperatures.

Global temperatures should then not only be much higher than they are today, but the expected rise in global temperatures will necessarily be more intense than most climate models suggest. According to the father of climate science, James Hansen, it takes about five days for aerosols to fall from the atmosphere to the surface. More than two dozen peer-reviewed papers have been published on this subject and the latest of these indicates that the Earth would warm by an additional 55% if the “masking” effect of aerosols were lost, which should happen, as we said, as a result of a marked decrease or modification of industrial activity leading to a considerable reduction in greenhouse gas emissions. This study suggests that this could potentially lead to an additional (sudden) increase in the earth’s surface temperature by about 133% at the continental level. This article was published in the prestigious journal Nature Communications on 15 June 2021. In conclusion, the loss or substantial decrease of aerosols in the atmosphere could therefore lead to a potential increase of more than 3 degrees Celsius of global warming above the 1750 baseline very quickly. I find it very difficult to imagine many natural species (including our own) being able to withstand this rapid pace of environmental change.

In reality, a mass extinction event has been underway since at least 1992. This was reported by Harvard professor Edward O. Wilson, the so-called “father of biodiversity”, in his 1992 and 2002 books The Diversity of Life and The Future of Life, respectively. The United Nations Environment Programme also reported in August 2010 that every day we are leading to the extinction of 150 to 200 species. This would thus be at least the eighth mass extinction event on Earth. The scientific literature finally acknowledged the ongoing mass extinction event on 2 March 2011 in Nature. Further research along these lines was published on 19 June 2015 in Science Advances by conservation biologist Gerardo Ceballos and colleagues entitled “Accelerated human-induced losses of modern species: entering the sixth mass extinction”. Coinciding with the publication of this article, lead author Ceballos stated that “life would take many millions of years to recover and that our species would probably soon disappear”. This conclusion is supported by subsequent work indicating that terrestrial life did not recover from previous mass extinction events for millions of years. It is true, however, that indigenous perspectives can help us understand ongoing events. However, I am convinced that rationalism is key to a positive response to these events.