Latest CaitOz Fix ... if only because I hadn't previously heard of Discordianism

The Problem Isn’t Human Nature, The Problem Is A Few Manipulative Sociopaths. Caitlin Johnstone. March 30, 2021.

The Principia Discordia is the primary text of Discordianism, which has been described as either an elaborate joke disguised as a religion or a religion disguised as an elaborate joke, depending on who you ask.

One section describes a short dialogue between the Principia‘s author “Malaclypse the Younger” (Mal-2) and “the Goddess”, who speaks to him through a radio:

One day Mal-2 asked the messenger spirit Saint Gulik to approach the Goddess and request Her presence for some desperate advice. Shortly afterwards the radio came on by itself, and an ethereal female Voice said YES?

“O! Eris! Blessed Mother of Man! Queen of Chaos! Daughter of Discord! Concubine of Confusion! O! Exquisite Lady, I beseech You to lift a heavy burden from my heart!”

WHAT BOTHERS YOU, MAL? YOU DON’T SOUND WELL.

“I am filled with fear and tormented with terrible visions of pain. Everywhere people are hurting one another, the planet is rampant with injustices, whole societies plunder groups of their own people, mothers imprison sons, children perish while brothers war. O, woe.”

WHAT IS THE MATTER WITH THAT, IF IT IS WHAT YOU WANT TO DO?

“But nobody Wants it! Everybody hates it.”

OH. WELL, THEN STOP.

At which moment She turned herself into an aspirin commercial and left The Polyfather stranded alone with his species.

“WELL, THEN STOP.” As you would expect from a joke disguised as a religion (or religion disguised as a joke), this is both funny and profound.

Because doesn’t it kind of feel like that’s the message we’ve been getting? From the divine if you like, or from the universe, or just from the mundane reality of our situation? Humanity’s leading problems at this point in history are not due to sabre-toothed tigers or deadly plagues whose nature we don’t understand, but are instead generated by humanity itself. War, tyranny, exploitation, ecocide–these are human-generated problems.

So it kind of feels like the message we’re getting here is, “WELL, THEN STOP.” If we don’t like how things are, we should knock it off. Stop waging wars. Stop exploiting and impoverishing each other. Stop killing the ecosystem. Don’t do those nutty things.

And of course the joke is that while this is true, it’s much easier said than done. It’s one thing for some lofty deity to tell us “WELL, THEN STOP” from on high, and quite another for us to actually do it.

But for those who care about our world, it’s still a question that needs to be taken seriously. Really, why don’t we stop?

One answer you’ll run into a lot is that this is just human nature. That it’s human nature to be selfish, competitive, predatory, exploitative, tyrannical, vicious, brutish, and violent. Some people strongly believe this, and get quite defensive if you challenge that belief.

Personally, I never turn my back on such people. Someone who says it’s human nature to be selfish, competitive, predatory, exploitative, tyrannical, vicious, brutish and violent isn’t telling you about human nature, they’re telling you about their own nature. I look within myself and find none of those things, but if you tell me that’s what you find when you look within yourself, I believe you.

The self-destructive behavioral patterns we’re seeing play out in our species are not the result of some unalterable feature inherent in our nature. This is evidenced by the existence of many human beings whose behavior is kind, gentle, generous, and collaborative. Humans are not inherently self-destructive, it’s just a behavior we see exhibited to varying degrees in some humans.

Most adults understand that it’s wrong to judge a racial, ethnic or religious group for the immoral actions of a few of its members, but sometimes it seems like they often fail to extend this same principle to humanity as a whole. The problem is not “human nature”, the problem is that some humans fail to develop functioning empathy centers in their brains, often as a result of early childhood trauma. Those humans then use the competitive edge their lack of empathy gives them in a system which rewards competitiveness and a willingness to do anything to get ahead to ascend to positions of power. That is why we are in the mess we’re in.

This is an important distinction, because it means we’re not up against some intrinsic aspect of our being here. We’re up against a small minority of manipulative sociopaths and psychopaths and a system which rewards a lack of empathy. The maxim that there are more of us than there are of them remains true, and it means that we can indeed use the power of our numbers to force real change. To move our world into health. To stop.

There’s nothing inherently wrong with humanity itself that is making a mess of things. The problem is that we’re swimming in lies that we’ve been indoctrinated into by liars who benefit from our remaining deceived. All our problems can be solved by moving from lies to truth.

There are no human-generated problems that can’t be solved by truth. The truth about imperialism. The truth about capitalism. The truth about power. The truth about propaganda. The truth about mental narrative. The truth about consciousness. There’s nothing inherently wrong with us as a whole; we’ve just been confused by lies.

All that’s required is for enough people to become sufficiently aware of what’s true for a real revolution against our sociopathy-rewarding systems to become possible. All positive human behavioral changes are always the result of our becoming more aware of the dynamics underlying our negative behaviors, whether you’re talking about addictions, poor anger management, bigotry and prejudice, or unjust political systems. Every single positive development in the way humans behave in the world has been preceded by an increase in awareness, throughout our entire history.

This is how we change things. This is how we stop. We become sufficiently aware in sufficient numbers of the abusive nature of our systems, and of who is doing the abusing, to open up the possibility of a revolutionary movement away from our sociopathy-serving competition-based models to systems in which we collaborate with each other and with our ecosystem for the common good.

There is nothing in us which is preventing this. We’re just not aware enough yet. We have yet to wake up. But just like awakening from sleep, awakening from our propaganda-induced coma can happen suddenly, and lead immediately to a situation that is unrecognizably different from the situation which preceded it.

He's Back! Tom Murphy back to blogging at Do The Math

Not only is he back, but he's written a textbook. Not only has he written a textbook, but he has made the PDF freely available!

Textbook Tour. Tom Murphy, Do the Math. March 22, 2021.


Last week, in the first Do the Math post in years, I kept the post brief, only pointing out the new textbook: Energy and Human Ambitions on a Finite Planet, and giving a brief account of the backstory.

In this post, I take a bit more time to introduce new elements in the book that Do the Math readers have not seen represented in some form in earlier posts. In other words: what new insights or calculations lurk within the book?

The following is organized into three sections. The first takes a brief tour of the book, pointing out large, new blocks that are not already covered by Do the Math in some form. The second highlights the results of new calculations or figures that bring new context to our understanding. Finally, I summarize some of the new big-picture framing that emerges in the book.

Rather than laboriously inserting associated graphics into this post, my intent is that you treat this as a companion to be used side-by-side with the downloadable PDF of the book. References are to sections, figures, boxes, etc. rather than page numbers, which vary between electronic and print forms. So go ahead and get a version of the PDF up, and let’s jump in…


Brief Tour of New Content

The Preface may be worth reading for overall framing and motivation. The middle part about student learning and approach to mathematics/problems might not be as worthwhile, but the beginning and end are likely of interest.

The first four chapters attempt to lay out constraints on growth, initially hewing closely to the first two Do the Math posts on Galactic Scale Energy and Can Economic Growth Last. Chapter 3 on population echoes some points in The Real Population Problem, but adds substantial analysis of the demographic transition. I felt this was an important addition because many academics look to this mechanism to “solve” the population problem. What I point out is that the transition is a double-whammy for planetary resources: even though the result is zero-growth, the road to that point involves a population surge and increasing resource usage per capita. More people multiplied by a higher per-capita resource use is bad news for resource constraints. The dream, therefore, has a nightmarish element that might be neglected by many because demographic transitions of the past were not constrained in this way and seemed to be very positive, on balance. A recurring message: the highly abnormal recent past offers poor guidance to the future. Finally, Chapter 4 echoes the popular Why Not Space post, closing off this exit—or at least prompting the invested believers to cast the book aside and waste their time in a manner more to their liking.

Chapter 5 is a dry one on units, and does not exist on Do the Math except in a static page called Useful Energy Relations. Chapter 6 consolidates several posts on thermal energy and heat pumps. Chapter 7 is basically new, as a snapshot of U.S. and global energy and plots of recent trends.

Elements of Chapter 8 on fossil fuels can be found among the Do the Math posts—especially those on peak oil. But no overview of fossil fuels really existed on the blog. Chapter 9 on climate change is similar to the Recipe for Climate Change in Two Easy Steps, but is considerably expanded to detail the expected impact on temperature, explore limiting-case scenarios for the future, and delve into the thermal requirements for heating the ocean and melting ice.

Chapter 10 provides an overview of Earth’s energy budget and introduces the alternative and renewable energy options. This short chapter has no direct analog in Do the Math.

The heart of the book covers topics that do not change much over time: technologies for harnessing alternative energy. Prices might change, but the fundamentals tend not to. Thus, Chapters 11 through 16 largely echo Do the Math content. Note that the writing itself is new, and has benefited from extensive student feedback to improve clarity and accessibility. So it’s not a cut-and-paste job, but the overall take-aways are going to be familiar to Do the Math readers. Chapter 17 is the book’s version of The Alternative Energy Matrix, and is the closest thing to cut-and-paste in the book, being billed as a slightly edited reproduction of an existing chapter in the State of the World 2013 book.

The two main changes in the alternative energy chapters have to do with solar prices going down (now at under $3/Watt for residential and $1/Watt for utility-scale installations; the panels themselves being $0.50/Watt) and new recommendations for wind-farm turbine spacing, lowering the estimated power per land area available. I also added state-by-state maps for hydroelectricity, wind, and solar photovoltaic utilization in the U.S., for four different attributes (total power, power per area, power per person, and capacity factor).

The last three chapters depart the most from Do the Math content, although containing familiar elements like an exploration of personality types and a description of the Energy Trap. Chapter 20 bears some resemblance to posts on household energy and dietary choices. But the packaging may be different enough that it does not feel like repetition of Do the Math.

The Epilogue is completely new, and likely of interest to Do the Math readers.

Appendix D is the most thoughtful Appendix. Of greatest interest will be D.3 on electric transportation, D.5 on the long view of human success, and D.6 on an evolutionary perspective regarding human intelligence and how that may or may not mesh well in the natural world.

Highlights of New Results

The following tidbits are arranged in chronological order, and for the sake of brevity only represent the more thought-provoking additions.

In Chapter 2, Figure 2.3 on lighting efficiency progress surprised me in that the same 2.3% growth rate adopted for Chapters 1 and 2 on growth of energy fits the lighting history rather well. If the trend continues, we reach theoretical limits well before century’s end.

Chapter 3 has one new development and one new presentation of interest. The development is the recognition that the population surge associated with a demographic transition is proportional to the exponential of the change in birth/death rate times the lag between declining death rate and declining birth rate (Figure 3.16). The factor can easily more than double the pre-transition population. The new presentation is in Figure 3.17, exposing how preposterous the “dream” scenario looks of advancing a growing population to “western” energy standards by the year 2100. Substances that facilitate such delusions are usually illegal.

The only thing I’ll say about Chapter 4 here is that I planted an (accurate) Easter egg in Figure 4.2—only applicable to the electronic version.

I was surprised by Figure 7.9, showing the U.S. as a literal super-power (as measured in Watts) in the mid-twentieth century—using more than 80% of global natural gas and over 70% of global petroleum. I don’t think it’s a coincidence that some Americans long to return to these “glory” years (not at all glorious for less privileged individuals, it should be noted). The mistake is thinking that it’s a matter of choice. America’s dominant role in the world had a resource foundation, and that ship has sailed. It’s not a matter of politics: it’s physics, and anger won’t solve it.

Figure 8.8 made an impression on me as well. A simple calculation based on discovery and consumption of conventional oil, as presented in Figure 8.7, provides a measure of how many years appear to remain in the resource. Simply dividing unconsumed reserves by current consumption gives a timescale, and this can be tracked as a function of time as new discoveries accumulate and consumption rate increases. The startling result is that the predicted endpoint has not budged from around the year 2050 for about four decades! I caution readers not to take this literally to mean that oil runs out in 2050. First, the plot only applies to conventional oil reserves. Second, reduced consumption rate due to scarcity, prices, policy directives, or suitable substitutes will mean a tapering beyond 2050 rather than abrupt termination. Still, it’s a relevant and alarming data point: conventional oil is unlikely to persist in its present dominance for even three more decades! I think that’s big news, people. How many decades old are you?

A number of new results accompany Chapter 9 on climate change. Most rewardingly, I “took it up a notch” from the previous calculations of annual and cumulative CO2 emissions from fossil fuels and used annual data on fossil fuel use to produce a graphs of emissions from the three fossil fuels across time (Figure 9.3). Doing so shows coal’s prominence as the king of CO2 emitters—now and throughout the past. Since we still have more coal than any other fossil fuel, it may just be the gift that keeps on giving. But most remarkable was the exercise of plotting the predicted emission on top of measurements in Figure 9.4. Prior to this, I was satisfied by getting the annual and cumulative emission numbers to match measurements. But to see it graphically: faithfully following the curvature and lying right atop the measurements brought a smile of despair to my face. The same approach lends itself well to exploring CO2 emissions scenarios for fossil fuel expenditures going forward: what happens if we cease growth in consumption; if we replace all coal with natural gas; or if we taper off entirely by 2100 or 2050. Only the last, draconian option limits the ultimate temperature rise to 2.0°C, according to my math.

I also had some “fun” in Chapter 9 stepping through the process by which a radiative imbalance equilibrates (Figure 9.15), and computing the timescales for melting ice and heating up the ocean (section 9.4.2).

Box 13.3 in Chapter 13 looks at solar-powered transportation. Why had I never before computed that a Boeing 737 could only get 4% of its cruise power from direct solar power? It’s an important demonstration of physical limitations.

Box 14.3 computes the thickness of all life on the planet, if squashed to a uniform layer surrounding the globe. It’s 4 mm thick! Or should I say 4 mm thin? That’s precious thin: a fragile wafer. It’s what makes this planet special, and our own lives possible. That’s the ultimate treasure of the planet, and deserves every protection we can offer.

Figures 15.14 and 15.15 are my attempt to explain the origin of nuclear waste, and why the neutron-rich daughter nuclei are radioactive hazards. This resurfaces in Figure 15.19 on nuclear waste radiated power, which I derived from probabilities and decay energies found in the Chart of the Nuclides. On another front, a quick-and-dirty financial assessment for both fission and fusion does not put them in a favorable light against (also expensive) solar, while solar is much safer.

The only good part about Chapter 16 is the fish duo in Figure 16.2.

Box 17.1 is a bit of a follow-up to Box 13.3 on solar transportation, exploring electric (battery-powered) passenger airplanes, concluding that for the same “fuel” load, range would be cut by a factor of 20 (to about 200 km), making them sort-of useless.

Chapter 17 also introduces an alternative scoring of the Matrix, based on student weights for the ten attributes of each source. I was interested to see if the fossil fuel gap persists (it does), and if the rankings change (mostly, they don’t).

Box 19.1 takes a stab at quantifying the dollar value of Earth. It’s a crude approach, and not entirely defensible. But even under dubious assumptions, the resulting price is so preposterously large that the point is fairly robust: Earth is far more valuable than our global annual economy, by as much as a factor of a million. Decisions based on money (i.e., most decisions) are therefore woefully misguided. Earth and its ecosystems should come first in societal decisions. Sorry if capitalism gets hurt in the process. Money ceases to have meaning without a life-bearing planet. Priorities!

Chapter 20 works to frame individual adaptation and quantitative assessment of energy footprints. The biggest new piece is the quantitative toolset developed in Section 20.3.4 for assessing dietary energy impact. I think this kind of analysis has the potential to meaningfully reshape our habits and expectations around food choices.

Section D.3 in the Appendices represents a first attempt on my part to nail down the implications of electrified transport for shipping as well as personal transport. Part of the work was already done for Box 17.1 (airplanes), but I had never put pencil to paper on cargo ships or long-haul trucking. The results address the “why can’t we just…” musings on electrifying all transportation. It’s hard. Table D.2 is still new enough to me that I need to study it more and internalize it.

Big Stuff

Okay—that takes care of the nuts-and-bolts additions. What larger messages might emerge from the textbook that may not have been apparent in previous Do the Math content?

Life is Precious

Much of the focus of this blog, and of the textbook, is on energy and resources. But a consistent undercurrent advocates prioritizing nature above ourselves. See, for instance, the reference to Box 14.3 in the section above. Also, Box 19.1—in computing the monetary value of the planet—stresses the backwards way we assess value. We put the flea (economy) in charge of the dog (Earth), ignoring the important fact that the flea can’t live without the dog. An upcoming post will illustrate this theme in an absurd yet compelling manner.

In the end, as the Epilogue wraps up, I try to encapsulate this in a message to the future (but not too soon to adopt the message now!!): Treat nature at least as well as we treat ourselves. It’s a partnership, and the health of the former is a prerequisite to the health of the latter.

Focus on the Long Term

Chapters 18 and 19 discuss the limitations of short-term focus in the face of our challenges. Democracy and business interests tend to have a very short focus, making us vulnerable to the Energy Trap.

But Section D.5 in the Appendix takes this to an expansive vista. It starts with the observation that civilization (cities, agriculture) began roughly 10,000 years ago. Lest we be nearer our end than the beginning, we should be thinking about practices consistent with another 10,000 years on this planet, at least. Maintaining uninterrupted civilization (preserving knowledge without a catastrophic reset) for this long is what we will call successful. Failure to do so is, well, failure.

What would it take to achieve success? As spelled out in section D.5, almost nothing we do today contributes to ultimate success. Therefore most of our actions today only make failure more likely. To me, that is sad to contemplate. Each passing day that we do not prioritize the natural world makes ultimate success a more distant prospect.

Section D.6 follows this up with musings on the role of human intelligence in an evolutionary context. My conclusion is that evolution tinkers, and is capable of producing a being that is too smart to succeed. We have the power to create our own failure, and take many species down with us. It’s time to “ask not” what we can do with our power, but what we should do to best ensure a long, rewarding existence in partnership with the rest of nature.

This Moment is Abnormal

Perhaps the most important message the new textbook can convey is that the abnormality of the last few centuries has turned us into the worst judges of future possibilities. Several times in the book, I compare the present era to a fireworks show: dazzling, awe inspiring, and a short-lived exception to “normal” activity. At least we can appreciate the aberration that a fireworks display represents by comparing it to a longer baseline: we have a broader context. Yet for those born and raised entirely within the fireworks show, it is easy to understand how their world view would be badly distorted.

Margin note 12 in Chapter 2 and the one below it points out our tendency to extrapolate, and think that just because we got “lucky” once (finding and learning to exploit fossil fuels) does not mean the trend will continue indefinitely. People often process the abnormality of our time in a dangerous way: because people 200 years ago could not possibly have predicted the amazing life of today, we are equally ill-equipped to fathom the miracles of tomorrow. I appreciate the bigness of thought that it takes to conceive of this. It’s a fair and alluring point. But it also ignores data and context: physical limits; a “full” earth; exhaustion of one-time resources; climate change perils; systemic collapses in ecosystems around the globe. Please work harder to incorporate these “wrinkles” into an otherwise grand notion.

Somewhat relatedly, margin note 24 in Chapter 2 and note 11 in the Epilogue make reference to the “Boy Who Cried Wolf” parable. This is a story told by adults to caution kids against raising false alarms, as setting up a reflexive dismissal of “fake news” can have damaging consequences. But consider two overlooked aspects of this story: first, a wolf did eventually appear and wreak havoc; and second, shouldn’t the adults bear responsibility for not protecting the town? Is the child really to blame? What idiots would put the responsibility of town protection on a child? I say that the failure rests mostly on the adults. They should recognize that children are prone to false alarms, and admonish them for knowingly creating disruption—after checking on the possibility of a real threat, for goodness sake! They utterly dropped the ball, and paid the price.

I came to think as I put finishing touches on the textbook that if asked to pick one message to communicate with this book it would be that the recent highly anomalous past has cruelly misshapen our perception of future possibilities. I put this into the abstract (and the back cover of the paperback), and sprinkled it into the text as an afterthought (search the word fireworks for some instances). As important as this point is, its presence throughout is implicit. I will likely try to more directly integrate the thought into a future edition.

A grounded understanding that our time is grossly abnormal in the long view is, I think, a necessary first step in snapping out of our current mindset, shaking off fantastical dreams, and getting to work defining and implementing a future that can actually work. It’s time to break the spell.

HELP SPREAD THE WORD

I am too close/biased to judge whether this book has enough intrinsic merit and appeal to “catch on” and reach a broad audience. But people will not give it a chance and instructors won’t adopt it for classrooms if too few people even know about it. Because I intentionally bypassed a for-profit publisher to make the book freely available, I lose the benefit of any publicity apparatus a publishing company might provide. So it’s down to “the people” to let others know of its existence. Fortunately, social media channels are well suited to this. Please consider sharing this book with others (reference the link to the book, not this “inside baseball” post). I hope the book is written in a way that can draw people in and then inspire them to keep turning pages. If recommending to friends and family, perhaps think about targeting a section or two to avoid their feeling overwhelmed by a textbook-sized reading assignment. If you can think of a personal connection to make it more directly relevant to them, all the better.

I don’t think I have ever asked for this sort of favor, and am not wholly comfortable with the appearance that I am shamelessly self-promoting here. But since I receive no financial benefit (even from the printed book) or prospect of job promotion as a result, I can convince myself that it’s out of a hope that the book might have some power to change minds and play some small role in setting us onto a more successful path. Call it optimism, bias, over-confidence, or whatever, but if the book can gain significant traction, then perhaps it deserves every chance and advantage. If months or years go by, this “old news” textbook will no longer have the shiny luster of newness, and will be less likely to spark a flame equal to the task ahead of us. The book may flop on its own (lack of) merits; then it flops—so be it. But let’s at least be able to say that it wasn’t for lack of trying to make people aware of its presence.




Sir David Nails It. Tom Murphy, Do The Math. March 30, 2021.


If you have not already watched A Life on Our Planet, serving as a witness statement from Sir David Attenborough, please find a way to do so. During his experience-rich lifetime, Attenborough has had a front row seat to the steady whittling down of nature. Any contemporary nature show will justifiably sound the climate change horn, as A Life on Our Planet does as well. But Sir David digs deeper, as few tend to do, and scoops up the essence of the matter.

I have now watched the show three times. The first instance resonated strongly with recent revelations and writings of my own, and I gladly watched it a second time with my wife. The third time, one hand hovered over the pause button while the other scribbled notes and captured key quotations. This post delivers said quotes and connects them to themes dear to my heart. Note: the quotes in the show are delivered verbally, so any formatting emphasis is my own.


The introduction elegantly frames the story as a tragic loss of wild places, in which we mindlessly eliminate biodiversity and unwittingly dismantle our own life-support machine on this spectacular marvel of a planet. Starting a clock when he was a boy of eleven years, in 1937, key figures are updated during the course of the show. Collected in one place, the figures are as follows:

Year	Population	CO2 ppm	Wild Spaces
1937	2.3 B	280	66%
1954	2.7 B	310	64%
1960	3.0 B	315	62%
1978	4.3 B	335	55%
1997	5.9 B	360	46%
2020	7.8 B	415	35%

The 1950s are portrayed as a time of boundless optimism. World War II was over; the middle class was growing and prospering; technologies, innovations, ideas, and conveniences flooded into peoples’ lives. What could humanity not accomplish?

It was toward the end of the 1960s that a sense of limits began to creep into consciousness. Wild spaces are finite and need protecting, it was realized. The iconic blue marble image of Earth from the Apollo 8 excursion around the moon emphasized our vulnerable isolation: a thin shell of life containing all of humanity, save three temporary tourists. To this, he says:

We are ultimately bound by, and reliant upon, the finite natural world about us.

Amen to that, brother. The first four chapters of my new textbook, Energy and Human Ambitions on a Finite Planet, try to make the same case, as do the first two posts of this blog and an early one on space. Shortly after the decade wrapped up, the groundbreaking Limits to Growth work emerged, planting a cautionary flag intoning that the good times can’t last forever. Therefore, some have appreciated what awaits for 50 years.

In the 1970s, we started noticing extinctions taking place right before our eyes. Attenborough makes the point that no one wanted animals to become extinct, but that lack of awareness and a focus on personal benefits obscured the unfolding tragedy. Having largely eliminated or isolated ourselves from predators, achieved control over diseases, and mastered food to order, nothing was left to restrict or stop us.

We would keep consuming the earth until we had used it up.

Whole habitats were starting to disappear. Cutting down forests was seen as a win–win: timber/lumber supplies, and land to use for human development. Sure, when we only think of ourselves in the short term (as markets are geared to do, incidentally), it is easy to see the logic. After detailing a number of crushing losses perpetrated by human expansion, the bombshell quote drops—as obvious as day following night:

We can’t cut down rain forests forever; and anything that we can’t do forever is—by definition—unsustainable.

Immediately on its heels:

If we do things that are unsustainable, the damage accumulates, ultimately to a point where the whole system collapses. No ecosystem—no matter how big—is secure: even one as vast as the ocean.

Such statements should be so self-evident that they do not need saying. Yet, picture humanity looking up, crumbs on all the faces, wearing blank stares; sensing that something important was just said, but not fully grasping it. Back to the donuts. My mental image is of adolescents having found an abandoned mine. They discover great pleasure knocking out the wooden support columns, enjoying their power to alter their environment, and perhaps burning the wood for light and toasty comfort. It’s fun until it isn’t. Those columns serve a vital function. Humans are present on this planet in the context of many functioning, overlapping ecosystems that provide the support structure for our lives. We’re not separate; better than; above it all. Appendix sections D.5 and D.6 in Energy and Human Ambitions on a Finite Planet explore this theme more fully. We’re smart enough and powerful enough to change our environment, but not wise enough not to. This is echoed by Attenborough’s statement:

Our blind assault on the planet has finally come to alter the very fundamentals of the living world.

Be assured that a production of this magnitude has obsessed over every word in the script. The final word choices reflect important awarenesses. “Blind” conveys unwitting. “Assault” conjures a powerful, armed attack. “Finally” communicates that the consequences are becoming apparent at last. “Fundamentals” tries to tune us in to the underlying immutable principles at play. “Living” focuses attention on the true prize of this world—that which distinguishes us from the various other beautiful yet apparently barren hunks of rock and gas hurtling around the vacuum of space.

Having completed his “witness statement,” attesting to the loss of more than half the wild world under his watch, Sir David transitions to describe what may transpire if we fail to develop awareness of our self-imposed peril. He begins with the series of quotes:

The security and stability of the Holocene—our Garden of Eden—will be lost.

We are facing nothing less than the collapse of the living world: the very thing that gave birth to our civilization; the thing we rely upon for every element of the lives we lead.

No one wants this to happen. None of us can afford for it to happen.

My less charitable translation: people don’t mean harm, they’re just being dumb about it. Bless their hearts.

And then the crux of his advice:

It is quite straightforward. It’s been staring us in the face all along [picture a baby orangutan’s face here]. To restore stability to our planet, we must restore its biodiversity: the very thing that we’ve removed. It’s the only way out of this crisis we’ve created. We must re-wild the world.

We will return to this theme in a bit, but in the interim, the presentation lost me for a while—holding up Japan as a model for stabilizing population. But the accompanying visuals were discordant: city-scapes, not natural spaces. Japan, like all developed nations today, depends heavily on profoundly unsustainable practices: from energy requirements to material inputs. How much does Japanese lifestyle depend on a global net of resource collection from previously wild spaces of the world. That’s not our template, folks.

One must endure the obligatory raft of techno-fix solutions that risk communicating: no need to change your expectations and demands; smart people will make it all work out. I suspect this is all in service of the show’s producers insisting that our psyches be soothed and not perturbed too drastically, lest the audience experience yucky feelings of blame or despair. But eventually he pulls out of this chicanery and returns to substantive messaging:

With all these things, there is one overriding principle: nature is our biggest ally and our greatest inspiration. We just have to do what nature has always done. It worked out the secret of life long ago. In this world, a species can only thrive when everything else around it thrives, too.

The word “just” is often a trigger for me—in this case making something that has eluded us for a few centuries seem like a snap. But I agree with the overall sentiment, which is rephrased by asking us to embrace the following reality:

If we take care of nature, nature will take care of us.

This is very similar to how I end the Epilogue in the textbook: Treat nature at least as well as we treat ourselves. He elaborates:


It’s time for our species to stop simply growing: to establish a life on this planet in balance with nature.

It should be a partnership, not an unwitting (note the word “simply,” as in simpletons) exploitation satisfying immediate desires.

Again echoing musings in Appendix sections D.5 and D.6 of the textbook, Attenborough points out that:

As hunter-gatherers, we lived a sustainable life, because that was the only option. All these years later, it is once again the only option. We need to rediscover how to be sustainable—to move from being apart from nature to becoming a part of nature, once again.

I keep harping on Appendix section D.5 in the textbook, because it is incredible how well aligned some of the thinking is. This section explores what ultimate success really means, concluding that the words success and sustainable are essentially interchangeable. One will not exist without the other, in the long run.

We’re in the middle of a fireworks show, or a giant party, that looks nothing like “normal” times on this planet and has severely mangled our judgment. It’s a party financed by the one-time inheritance of the planet, unlocked and unleashed by the lubricating effect of fossil fuels. Fossil fuels give us the power to access more fossil fuels, mine deep deposits, and clear forests to make way for precious people and their needs. If we don’t begin to use our power to prepare a successful, sustainable path, the party will end in disgrace and regret—an all too familiar experience for many.

Appendix section D.6 also explores relevant aspects of the evolutionary compatibility of lifestyles far from the sustainable-by-design hunter-gatherer state. Evolution wove an ecosystem web that is essentially founded on sustainability, as unsustainable means unsuccessful and therefore not capable of forming a lasting element of ecosystems. As soon as we began combining our best-in-class intelligence with new stocks of materials that had hitherto not been part of the ecosystem’s balanced equation, we lost the protection of evolution’s built-in near-guarantee of success. That’s fine as long as the stocks remain available and are all we need.

But neither are true. The exploited resources are being exhausted, and even aside from that are insufficient on their own to sustain us. We need living, thriving ecosystems for our own survival, yet we hack and burn, knocking out the supports that create a livable space. It’s starting to be less than fun. Let’s stop, yeah, before we cause the roof to come down on our heads.

The final thought in Attenborough’s show, delivered while wandering the ruins of Chernobyl, is:

We’ve come this far because we are the smartest creatures that have ever lived. But to continue, we require more than intelligence: we require wisdom.

This is very much in line with my assessment as well. At this juncture, we have a choice to use our intelligence to “engineer” wisdom: adding a software layer that may not be part of our innate hardware, on the whole. Our guts might say “more for me, please,” but perhaps our heads can intercede to prevent our impulses from getting the better of us.

On the whole, I was deeply impressed by the core messages of this program. It is well aligned with my own conclusions in most places, and dares to look beyond the superficially evident perils of climate change to the deeper foundations of the collision course we have set ourselves upon. Our outsized power as a species bestows on us a grave responsibility to prioritize nature above ourselves, which ironically is the best way to prioritize our own long term happiness on this marvel of a planet.

Heinberg: Capitalism, the Doomsday Machine

Capitalism, the Doomsday Machine (or, How to Repurpose Growth Capital). Richard Heinberg. Feb. 24, 2021.

David Fleming, the late British economist, contributed many blazing insights; one that’s captivated my attention recently has to do with capital. Fleming counted six kinds of capital (natural, human, social, scientific/cultural, material, and financial), and noted that all six can be used in either of two ways: as foundational capital (for the ongoing maintenance of society) or as growth capital (for the expansion of population and consumption). Here’s the crux of his insight: a healthy society preserves its foundational capital, but periodically destroys or depletes capital that might be used for growth.

To modern minds, this seems insane—like burning piles of paper money. Why would a society do this? Simply because a healthy society recognizes that unrestrained growth is suicidal. When population size and consumption rates exceed environmental carrying capacity, famine (or disease or war) will intervene to prune society back. If the overshoot is large, the pruning will be intense enough to be called “collapse.” And that is something to be avoided.

How do healthy societies destroy their growth capital? Sometimes, just by throwing a big party. Small societies with only semi-permanent settlements that subsisted by horticulture typically hosted annual feasts in which surplus food was eaten, and clothing and other possessions given away or burned. The “Big Man,” the most prestigious member of the society, maintained his position by giving away or destroying virtually everything he had. The potlatch feasts of the Native American peoples of the Pacific Northwest were an example of this cultural feature. More complex pre-industrial societies devoted immense amounts of capital to the building of pyramids or cathedrals and to the fashioning of useless ornaments, as well as to intensive preparations for lengthy carnivals. All these activities served, among other things, to burn off excess energy among young men, who are most often the troublemakers in any society.

In small societies with simple social structure and rudimentary technology, growth is self-limiting over the shorter term, so these kinds of societies more reliably tend to destroy their growth capital. In big societies with complex social structures and technologies, the self-defeating results of growth take longer to show up, because resources can be imported from further away—so it’s easier for people in these societies to ignore eventual peril and push the accelerator pedal to the floor for the giddy immediate thrill that growth delivers.

Welcome to the Machine

Modern industrial society does just the opposite of what a healthy one does: it consumes its most important foundational capital (especially natural resources—forests, fisheries, and minerals), and exploits all six forms of capital for purposes of sustained growth.

Capitalism can be defined as the deliberate and systematic societal encouragement of the accumulation of growth capital through the use of money and debt, the enforcement of private ownership rights (especially of land and natural resources), and the proliferation of incentives and protections for investors. Once set in motion, this dynamic set of arrangements tends to be self-reinforcing, for reasons I’ll unpack in a moment. A rudimentary growth machine was invented roughly 5,000 years ago with the emergence of state societies with money, writing, and slavery. A supercharged capitalist version has gotten going at least twice in history: in China in the eleventh century (though it was quickly halted by traditional authorities who saw it as a threat to their power), and in Europe starting in the sixteenth century (where the rising mercantile class eventually triumphed over ecclesiastical and aristocratic opponents).

If a society is geographically bounded, the systematic encouragement of the accumulation of growth capital just results in localized overshoot or collapse. Once it gets into gear, the eventual outcome is certain. But now the growth mechanisms of society have become global in many important respects, and the impacts of its growth are also global (see climate change). The networked economy has become a kind of a superorganism with a collective metabolism and an inherent imperative toward expansion at all cost. That means collapse will also be global—indeed a kind of doomsday, after which the continuation of the human experiment may be very difficult. There will likely be survivors—human and non-human—but they may be few and miserable, and unable to mount a meaningful ecological or social recovery, perhaps for many centuries if ever.

Doomsday machines were a fixture of 1950s science fiction and futuristic war planning (for example, the classic 1964 Stanley Kubrick film Dr. Strangelove featured a doomsday machine in its plot). In essence, a doomsday machine is a theoretical device that’s powerful enough to destroy all life on Earth. In many fictional scenarios, once the machine’s timer is triggered to start its countdown, any effort to disarm the device will simply result in its immediate detonation.

Industrial capitalism resembles this latter kind of doomsday machine. If left to continue its “countdown” to the bitter end, it will consume nearly all of Earth’s resources and natural habitat while filling waste sinks to overflowing. That is an outcome no one would wish for. But we have all become dependent on the machine for our livelihoods, and stopping it in its tracks will result in economic collapse, throwing billions of people into a state of misery and famine. So, everybody wants the economy to grow—and thus for the machine to continue toward its inevitable destruction. But the longer growth continues, the bigger the eventual collapse. Our entire society is the machine, and we are cogs in its gears.

It’s no accident that the doomsday machine of global industrial capitalism has been constructed largely at the expense not just of nature’s ability to continue functioning, but also the labor of the poorer segments of humanity, who will also be most immediately impacted by the machine’s destruction. As Jason Hickel points out in a brief and searing interview, “the Global South contributes about 80 percent of the labor and resources that go into the global economy, and yet the people who render that labor and those resources receive about five percent of the income that the global economy generates each year.”

Ironically, the doomsday machine in which we live was constructed with what seemed at times to be the best of intentions. Consumerism, the system in which advertising and consumer credit stoke ever-increasing demand for manufactured products, was invented by business and government elites starting in the 1930s as a solution to the very real problems of overproduction and underemployment—which were side effects of earlier growth (as newsman Eric Sevareid once said, “The chief cause of problems is solutions”). Now “green” growth is being sold as the solution to the problems resulting from our use of fossil fuels, which were themselves solutions for all sorts of problems, including stagnating agricultural production due to the need for more sources of nitrogen.

Nearly everyone wants more economic growth so as to patch our problems in the short run, even if it will make matters much worse in the long run. But nobody wants to be around when the timer reaches zero.

Is There Any Way Out of This Thing?

Not many people understand that they’re in a doomsday machine. But those who do naturally feel a responsibility to extricate themselves and others in a way that minimizes overall damage and destruction. Remember: the sooner the machine stops, the fewer the total casualties; however, stopping the machine suddenly now would result in casualties sooner rather than later. What strategy makes the most sense?

Redesign and reform the machine. Theoretically, it might be possible gradually to take the machine apart from the inside, and redesign and replace each of its components with one that at least simulates the way a healthy culture functions—all while the machine is still operating. After a time, everything would have changed without anyone being seriously inconvenienced. How might this work? In industry after industry, the current linear economic model (mining to manufacture to waste disposal) could be made more circular (reuse and recycle; repeat endlessly). We could replace fossil fuels with low-carbon energy sources. We could undo the global economic arrangements that systematically and intentionally funnel wealth to some countries while intensifying poverty in others. Meanwhile, we could replace economic indicators (notably GDP) that promote growth in resource consumption with alternative indicators (such as Gross National Happiness) that promote quality of life. This strategy has been advocated most explicitly by ecological economists, but also by women’s reproductive rights advocates and campaigners for a wide range of environmental regulations.

Build alternatives. Some people have pursued the strategy of building communities that abide more by the principles of a healthy culture. Their hope is that, as the machine increasingly shows signs of imminent failure, people will abandon it in favor of the alternatives. The machine will still self-destruct, but there will be more survivors, who will already have developed some of the skills needed in a post-collapse situation. The folks who have advocated for this course of action include leaders of the ecovillage, permaculture, Transition, and economic localization movements.

Preserve cultural and natural foundational capital. Indigenous societies could survive and adapt, as long as they somehow keep from being swallowed up by global capitalism or the breakdown of the ecological systems on which they depend. Therefore, it makes sense to defend such peoples from capitalist onslaught, not just in order to safeguard their human rights but to promote human survival. At the same time, some ecosystems are still wild; they need to be protected from capitalist exploitation if they are to continue providing habitat for non-human species and indigenous humans. Conservationists and indigenous rights groups have been pursuing these strategies for decades.

Sabotage. The logic is simple: if total casualties will be worse the longer collapse is postponed, then bring it on—the sooner the better! The idea of deliberately initiating societal collapse has been circulating quietly for some time, but for obvious reasons almost no one has talked about it openly (the Unabomber manifesto was a notable exception). Now that’s changing. “Accelerationists” on the political left and right (mostly the latter) acknowledge that industrial capitalism is unsustainable and are looking for ways to bring it to an untimely end. One serious drawback to these schemes—from the standpoint of those who aren’t in on them—is that accelerationists of various stripes bring their own social agendas to the table; so, depending on who is engineering the collapse, survival might be achieved on terms that are terrible for most people (think warlords and serfs; think genocide). Further, if collapse is already in its initial stages, then speeding it up might bring little benefit to anyone, now or in the future. Whoever triggered collapse would likely have blood on their hands. Most ways of doing it would be highly illegal, and it runs the risk of leaving a huge number of unintended casualties.

Preparing for What’s Next

Altogether, these four strategies have made limited headway so far. I say that not to denigrate the folks doing the good work of redesign, protection, and conservation; just to acknowledge that there haven’t been enough of them, and the forces they are pushing against are formidable.

The fact that the machine is still on its path to world annihilation suggests that we may need a fifth strategy. A phrase comes to mind: “brace for impact.”

For the past few years, my organization, Post Carbon Institute, has advocated building community resilience as a pathway toward survival and the widening of opportunities for recovery. Other organizations—including the Rand Corporation, the world’s biggest think tank—have also adopted resilience thinking, though often with only a partial understanding of the global threats that make resilience such a priority.

Resilience—the ability to withstand a shock and recover or adapt—can be cultivated as an individual psychological trait, a household goal, or a community project. As wildfires, droughts, and extreme weather events become more common and severe, towns and cities around the world are beginning to prepare. We at PCI advise a goal of “deep resilience,” in which communities make efforts to assess which practical services and cultural features are most essential, and initiate ways to fortify them through redundant support structures. Further, we advise redesigning economies and institutions so that they will continue to function in a post-carbon, post-growth future. The resilience assessment and planning processes should ideally include representatives from all major segments of the community and participants should be granted the resources to initiate projects on the scale that’s actually needed.

Resilience building begins with identifying vulnerabilities and opportunities. More attention is typically given to threats and vulnerabilities—for example, the likely impacts of floods, fires, and extreme weather on food and water systems. This is as it should be: there’s lots to prepare for, and most communities are woefully vulnerable (as we’ve just seen in Texas). The ongoing coronavirus pandemic has provided many communities with hard lessons about their vulnerabilities to “known unknown” risks, and the likelihood that a crisis in one system or area of the world (e.g., an epidemic originating in Wuhan, China) can trigger cascading failures in other systems in other places. National risk assessments in EU countries have sought to identify and rank potential threats, and to initiate ways of reducing vulnerability. Communities around the world could take similar measures, as we have advised in our Think Resilience video series, using assessment tools such as one developed by the Stockholm Resilience Centre. Some cities, including Amsterdam, are adapting Kate Raworth’s “doughnut economics” to their resilience planning.

But if we take Fleming’s insight to heart, we should also envision ways to maximize our opportunities as the doomsday machine careens toward its inevitable ruin. Recall: capitalism prioritizes the accumulation of growth capital. At this point, after decades of accumulation, growth capital is stashed in enormous quantities in ways and places that make it deadly to ordinary people and ecosystems, but also inaccessible and useless for any reasonable humane purpose. The obvious example is the trillions of dollars held by just a few extremely wealthy individuals—far more money than such folks could conceivably spend in a hundred lifetimes. For people like these, increasing the number of their dollar holdings by one more order of magnitude is a goal in and of itself; it need have no practical point—other than to boost their investments so as to add yet another zero to the end of the bank balance. What good could all that money do if directed toward ecosystem restoration—or toward the building of truly beautiful and durable civic infrastructure, or the alleviation of misery among the burgeoning numbers of the world’s poor?

When the machine crashes, enormous amounts of financial capital will likely simply disappear. In a way, that will be a good thing: most of that capital was ultimately being used to extract more resources and produce more pollution. But the crash may also represent billions of missed opportunities—because institutions, machines, and money all geared for growth could instead be repurposed as foundational capital for a modest, sustainable culture.

Just think of all the commercial real estate waiting to be inhabited by currently homeless people or turned into crafts workshops; or the airport runways waiting to be attacked with pick and shovel and planted as community gardens. What to do with all the tons of irregular concrete chunks from torn-up streets, runways, and ugly office buildings? Call them “urbanite” and use them to build paths and walls.

David Holmgren has written extensively about how lightly-inhabited suburbs could be repurposed as permaculture villages. Rob Hopkins encourages us to use our imagination to envision specific ways in which economic re-localization could make life more interesting and creative for everyone; imagination is also needed in order to get us thinking outside the capitalist box.

Why wait for collapse? Repurposing growth capital now could help unwind the doomsday machine sooner rather than later. It’s a subversive act (see strategy 4 above) as well as a regenerative one. Look around and start to catalog the forms and locations of growth capital begging to be used either for laying the foundation for sustainable culture—or for throwing one hell of a party. When we eventually come out of the pandemic, there will be innumerable opportunities not just to “build back better,” but to completely rethink systems so that they reduce our vulnerabilities, rather than adding to them.

As the doomsday machine’s detonation looms closer and closer, it becomes easier to see how all five strategies can be pursued together in synergistic ways. Redesign, preserve, build alternatives, subvert, and brace for impact: for the remainder of this century, these should be our watchwords.