Monday, March 19, 2018

The View from Les Houches: The Seneca Collapse

I gave a presentation focused on the Seneca Effect at the School of Physics in Les Houches this March. Here I show various concepts associated with overshoot and collapse with the help of "Amelie the Amoeba" (This picture was not taken in Les Houches, but in an earlier presentation in Florence).

Here are some commented slides from my presentation. First of all, the title:

And here is an image I often use in order to illustrate the plight of humankind, apparently engaged in the task of covering the whole planet Earth with a uniform layer of cement, transforming it into Trantor, the capital of the Galactic Empire of Asimov's series "Foundation"

I moved on to illustrate the "new paradigm" of resource exploitation: the idea that mineral resources never "run out", but simply become more and more expensive, until they become too expensive.

It is not a new idea, it goes back to Stanley Jevons in mid 19th century, but for some reason it is incredibly difficult to make it understandable to decision makers:

Then, I spoke about the Seneca effect, there is a lot to say about that, but let me just show to you one of the slides I showed during the talk: the Seneca Cliff does exist!

Fisheries are an especially good example of overexploitation (or perhaps a bad example, there is nothing good about destroying all the fish in the sea. And this leads to a rather sad observation:

I also showed how the Seneca Effect can be used for good purposes, that is to get rid of things we need to get rid of. This is an image from a paper that we (Sgouris Sgouridis, Denes Csala, and myself) published in 2016.

You see the Seneca cliff for the fossils, the violet part of the curve. It is what we want to happen and it would be possible to make it happen if we were willing to invest more, much more, in renewable energy. But, apparently, there is no such idea on the table, so the future doesn't look so good.

But never mind. We keep going and, eventually, we'll arrive somewhere. In the meantime:

Saturday, March 17, 2018

The View From Les Houches: What is the origin of Collapse?

At the physics school of Les Houches, in March 2018, Gregoire Chambaz of the University of Lausanne gave a talk on the phenomenon of "collapse caused by diminishing returns of complexity." (The image above is not from Les Houches but from a meeting in Lausanne last year).

In itself, it is already interesting that a meeting of physicists gives space to the idea of societal collapse, but the school of Les Houches was one of the rare cases of a truly interdisciplinary meeting. The result was a wide variety of approaches, including the talk by Gregoire Chambaz who approached the problem examining the concept of "diminishing returns of complexity" proposed by Joseph Tainter already in 1988. You can find a summary (in French) of Chambaz's work at this link.

If you are a reader of this blog, you probably know Tainter's graphic to explain his concept. Here it is.

The idea is that, as societies become larger, they must develop more and more complex control systems in order to manage the whole system. These control systems may be in the form of bureaucracy, an imperial court, the army, the church, the legal system, and more. And, as these systems become larger, they become unwieldy, rigid, and unmanageable. The effort needed to increase their size is not matched by the benefit they provide. According to Tainter, this is the ultimate reason for the collapse of large societies.

As a model, Tainter's one has proved to be hugely popular and surely it is a "mind sized model," easy to understand and providing an immediate grasp of the evolution of the system. The problem is that Tainter's model has no evident basis in physics. There is no precise explanation of what would cause the behavior that Tainter proposes, not it is possible to measure concepts such as "the benefits of complexity." It is only a qualitative model.

Can we model this kind of collapse using physics? Perhaps. In principle, there could be two reasons why the system stops improving its performance as it grows in size. One could be an effect of entropy. If you work in a large organization, you understand how, over time, it becomes a tangle of contradictory rules and of people and offices which seem to exist only to prevent any work being done (OK, I have in mind the University of Florence, but I am sure it is not the only case in the world). But how to quantify this effect?

Then, the reason for this behavior could be another one. Maybe it is not an intrinsic property of a large system to lose efficiency as it grows, but an effect of the slow decline of the net energy that it uses. That would explain many things and I put together a tentative dynamic model a few years ago which seemed to work. We are working on improving it taking into account the dynamics of the Seneca Effect. It is a work we are doing together with my coworkers Sara and Ilaria, but it will take a little time before we publish it.

Overall, the impression I have is that we are starting to develop an extremely rich field of studies, that of critical phenomena in complex networks. Tainter gave us a first indication of the way to go, but there is much, much more to do before we can say we have a solid theory explaining the periodical collapse of civilizations we observe in history.  But we keep going.

Friday, March 16, 2018

The View From Les Houches: The Return of Space Mining?

Robert Ayres, well known for his work on biophysical economics, gave a talk dedicated to space mining at the School of Physics in Les Houches this March. Ayres just touched the subject that gave the title to his talk, spending most of the time to describe the plight of the mining industry, faced with the shortage of rare minerals. Yet, the fact that he used that title is an indication of the increasing popularity of the meme of mining space. It is still a marginal subject of investigation, but you can see the trend in Scopus, here, for the search term "space mining":

In a previous post of mine, I was not optimistic about space mining. I said that there was nothing interesting to mine in space and that the whole idea was proposed by people who knew little or nothing about geology. Asteroids and other small space bodies contain no ores because they never went through the processes of deposit creation that took place on the Earth. No ores- no mining. Basically, the growth of interest in the subject may be more a symptom of growing desperation rather than something that could be plausibly done.

I remain more or less of this idea: going to space to bring minerals back to Earth makes little sense, But, recently, I have been re-examining the concept and I discovered that there may be a logic in it if we just we change the target market from the Earth to space.

Space is a growing business with plenty of interesting applications: communication, exploration, astronomy, earth monitoring and more. Elon Musk is no fool and if he developed a heavy rocket launcher, it is because he saw the need of it. So far, every gram of the devices and the structures sent to space came from the Earth's crust. And sending things to space is awfully expensive. So, it could make sense to examine the possibility of assembling space structures using materials mined in space.

It would still be difficult, perhaps impossible, to mine rare minerals in space, but asteroids are rich of elements such  such as iron, nickel, aluminum, titanium, silicon and even carbon and water in the form of ice. These minerals are not there in the form of ores, but they form a sufficiently large fraction of some asteroids that extracting and purifying them could make sense. Take also into account that space is rich in solar energy that can be transformed into electric power by PV panels and that in space you have little to worry about pollution and greenhouse gases.

Of course, putting together a mining industry in space is a task which was never attempted so far and the unknowns are enormous. It was discussed back in the 1970s when the concept of "space colonies" became popular. But, over the years, it became clear that humans are not made for space; too expensive and too dangerous. Instead, space is a good place for robots which can do the same things human can do in a better and cheaper way. And these robots could be made, at least in part, from materials obtained from asteroids.

Is it possible? It depends on the trajectory of the world's economic system. If we manage to collapse as badly as some models predict, then space robots will soon become something made of the stuff dreams are made of - just like the angels which once were thought to be pushing planets along their orbits. But if humankind manages to keep a functioning industrial economy, then why not? Our robot-children could explore space and maybe build a new silicon based ecosystem, out there. The future is beautiful because it is always full of possibilities.

Thursday, March 15, 2018

The View from Les Houches: Of Rare Metals and Cute Kittens

Les Houches, March 2018. José Halloy of the Université Paris Diderot discusses mineral depletion in his presentation. Note how he utilizes Hubbert curves to estimate the trajectory of mineral extraction. He predicted that the dearth of very rare elements will negatively affect the electronics industry, perhaps killing it completely.

José Halloy's presentation at the Les Houches school of physics was focused on the availability of rare minerals for electronics. This is a problem that's rarely discussed outside the specialized world of the "catastrophists", that is of those who think that mineral supply may be strongly restricted by depletion in a non-remote future. In this field, Halloy seemed to side with the "hard" catastrophists, that is expressing the option that depletion will make certain things, perhaps even the whole electronics industry, impossible.

The problem, indeed, is there: modern electronics is based on the unrestricted use of very rare minerals - the term "very rare" indicates those elements which are present only in traces in the earth's crust and which, normally, do not form exploitable deposits of their own. If you pick up your smartphone, you probably know that it contains several of these very rare elements gallium (for the transistors), indium (for the screen), tantalum (for the condensers), gold (for the electric contacts) and more.

Most of these elements are "hitch-hikers" in the sense that they are produced as impurities extracted from the production of other elements: for instance, gallium is a byproduct of aluminum production. Whether we can continue to supply these elements to the electronic industry in the future depends on a host of factors, including whether we can continue to extract aluminum from its ores. In this sense, recycling is not a good thing since recycled aluminum, of course, does not contain gallium, because it has already been extracted during the refining phase. Note also that recycling tiny amount of very rare elements from electronic devices is extremely difficult and very costly. So, in the future, the supply of these elements is going to become problematic, to say the least.

Does it mean the end of electronics? José Halloy seemed to be very pessimistic in this sense, but I think the question was not posed in the correct way. If you ask whether current electronic devices can survive the future dearth or rare mineral, the answer is obvious: they can't. But the correct question is a different one: what kind of electronic devices can we build without these elements?

Here, I think we face a scarcely explored area. So far, the industry has been produced all kind of devices focusing solely on performance on the basis of the assumption that there aren't - and there won't ever be - mineral supply problems. Can we make a smartphone without gallium, indium and all the rest? That is, limiting the elements used to the basic ones, silicon, aluminum, and other common materials? It is a difficult question to answer because, really, it has never been addressed, so far.

Yet, I think there are excellent possibilities to develop a new generation of electronic devices which are both using very little (and perhaps zero) rare elements and which are designed for complete (or nearly complete) recycling. The basic element of all electronic circuits, transistors, can be made using silicon and, in general, there are alternatives to rare metals for most devices, even though in most cases not with the same performance. For instance, light emitting diodes (LEDs) are currently based on gallium nitride (GaN) and there seem to be no comparable substitutes. Without LED, we would have to go back to the old cathode ray tubes (CRTs) which we consider primitive today. But, after all,  CRTs performed well enough for us up to not many years ago. So, it would be an inconvenience, but not the end of the world.

So, it is clear that we'll have to settle on reduced performance if we want an electronics without rare elements, perhaps on a strongly reduced performance. But maybe we don't need the kind of performance we have been used to in order to keep going. Think about your smartphone: it is an incredibly complex and powerful device used mostly for trivial tasks such as looking at clips of cute kittens and sending likes and thumbs-up to other machines. Does "civilization" really need these devices? It is all to be seen.

For a fascinating discussion of an industrialized world running without rare metals, see the excellent book by Pierre Bihouix "L'age Des Low Tech" (in French - alas!)

Wednesday, March 14, 2018

The View From Les Houches: What Are Models For?

Sandra Bouneau, researcher and lecturer at the university of Paris-Sud, shows her model at the School of Physics in Les Houches, France, in March 2018. As you can see from the image, her model is complex and detailed. It is one of the several models presented at the school which attempt to describe the trajectory of the transition.

Overall, all the models based on physics (including Bouneau's one, as far as I understood it) arrived to similar conclusions, confirming the calculations that myself, Denes Csala, and Sgouris Sgouridis published in 2016. In practice, the transition is possible, but it won't happen all by itself. The economic system needs to be pushed in the right direction, in such a way that it will be able to provide the necessary investments.

The problem is that the system is not being pushed hard enough. Some parts of it, including the US governments, are pushing in the wrong direction, dreaming of an impossible "energy dominance" (and even if it were possible, what good would it be for America?).

At the bottom of the whole problem, it is the fact that policy-makers don't believe in models, although they may declare the opposite. There have been many models developed during the past century or so which would have created a different world if the powers that be had acted on the advice provided - first and foremost "The Limits to Growth" of 1972. But that model was not only disbelieved but positively demonized.

In the end, All models are made to search for trajectories which avoid collapse, so ignoring models ensures collapse. And that's what we are doing!

Monday, March 12, 2018

The View from Les Houches: Thermodynamics vs. Economics

School of Physics in Les Houches, France, March 2018. Juergen Miknes shows some of the concepts that he has developed in his parallel analysis of thermodynamics and economics. It is a remarkable synthesis that you can find described in detail here. In the slide above, he suggests to replace the Cobb-Douglas function, commonly used in economics, with a function based on the concept of Shannon's entropy.

I am not sure of a number of things in Miknes' work, in particular the idea of equating (in some ways at least) the growth of entropy with the growth of production. Nevertheless, it is a fascinating work.

Something that surprised me (but probably I shouldn't have been surprised) was how strongly Miknes was challenged by an economist in the audience. Apparently, economists don't like their field invaded by those pesky physicists. So far, economists have been able to keep physics away from their secluded garden and continue keeping the field open only to people with the right credentials (according to them). For how long, it is all to be seen.

Sunday, March 11, 2018

The View from Les Houches: the Revenge of Lotka and Volterra

Les Houches, March 2018. Fatma Rostom of the University of Paris, shows the basis of her model of the energy transition. It is the good, old Lotka-Volterra model, also known as the "Predator-Prey" or the "Rabbits and Wolves" model. (the LV model, among friends)

Perhaps surprising, this model, presented first in the 1920s, is enjoying a new life today and it was mentioned in several talks. Long considered a toy for freshmen in biology, it turns out to be extremely rich in its capability of describing the stepped dissipation of thermodynamic potentials in a nonequilibrium system.

Dr. Rostom modified the model in order to take into account economic and monetary factors, but even the "raw" LV model can describe real-world phenomena. It was found to be at the basis of the Hubbert Curve (Bardi and Lavacchi, 2009) and it was recently shown to be able to describe the cycle of exploitation of fisheries (Perissi et al. 2017). And, of course, the model is at the basis of the dynamical interpretation of the "Seneca Effect"

The talk by Dr. Rostom was very good for several reasons, one for her emphasis on "mind-sized" models, a concept that I had introduced some years ago under the influence of Seymour Papert. In the current situation of confusion and even of despair, we badly need models that policymakers can understand if they have to act in a meaningful way

But, in the end, what results did Dr. Rostom reported. Well, not very optimistic ones, as you can see in this paper of hers and others

Saturday, March 10, 2018

The View From Les Houches: Can We Move to Renewables Fast Enough?

Les Houches, March 2018. At the School of Physics on the Energy Transition, Gregor Semieniuk of the University of London shows the updated trends in investments in renewable energy. 

Just a few years ago, there was ground to be optimistic about the energy transition. Renewable energy production showed a robust growth and the same happened for investments. If the trend could have continued, renewables would have swamped away fossil fuels easily and seamlessly.

Instead, something went wrong in 2012. The growth of investments stalled, it went up and down for a few years and, by now, it is clear that it has plateaued. Investments in renewable energy are not growing and we don't know if they will ever restart growing.

While it is true that the prices of renewable energy are going down, at these investment rates it is clear that we can't go through the transition fast enough to comply with the Paris targets. Possibly, we won't even be able to replace fossil fuels before they become too costly to produce. This is the result that myself and my coworkers Csala and Sgouridis obtained two years ago. According to our calculations, humankind would need to invest at least ten times as much, likely much more, in terms of energy to go through the transition fast enough.

In his talk, Gregor Semeniuk showed other estimates confirming that the investment rates in renewables are not sufficient for what we need to do. The gist of his presentation was that if governments don't intervene, the transition will not happen fast enough. He showed several examples of past transitions which took place mainly because they were driven by the resources provided by the state.You can find the hugely interesting paper on these matters by Mazzucato and Semieniuk on "Technological Forecasting and Social Change" and also more material at this link.

There remains the fundamental problem: how do we increase investments in renewable energy? Our faith in the free market is not helping us in this issue.

Thursday, March 8, 2018

The View From Les Houches: Saving the World Using Physics

 Above, Carey King from the University of Austin, Texas, shows his Trump socks during his talk at the meeting of the School of Physics in Les Houches, France. I strongly suggest to read King's hugely interesting paper titled Information Theory to Assess Relations Between Energy and Structure of the U.S. Economy Over Time. You may find in it aswers to questions you have been asking yourself for a long time.

The School of Physics in Les Houches, France held a session on Energy Transitions during the week from March 4th to March 9, 2018. About 70 scientists, mostly physicists, gathered in a remote village in the French Alps to discuss the energy transition, the supply of mineral resources, and climate change.

It was one more attempt by scientists to save the world. Having been there, I can say that the task is difficult but this group managed to come up with several good ideas, some of which might even work.

In future posts, I'll try to summarize some of the talks at the school. For the time being, let me just thank the organizers for the good experience:

Hervé Bercegol
Marie Degremont
Zeynep Kahraman
Jacques Treiner

Tuesday, March 6, 2018

Italian Elections: The Great Five-Star Surprise

Nearly definitive results of the Italian national elections of March 4, 2018. the "five-star movement" (M5s) got the most votes, although the center-right wing coalition (CDX) has the largest number of seats in the Italian parliament. For the center-left (CSX), it was a total disaster. So, what made the M5s party so successful: my impression is that their mode of functioning could be described as  "government by Facebook, for Facebook, in the name of Facebook." Is it our political future?

In several senses, it is not difficult to understand the results of the recent Italian elections. Think of the center-right leader, Mr. Berlusconi, as an older Mr. Trump. At nearly 82, Mr. Berlusconi still tries to play the role of the alpha-male while his acolytes built up a program based on building a barrier against immigrants (not exactly a wall, because there is a sea in between Italy and Africa, but the concept is the same.). The center-right is also pursuing policies akin to "making Italy great again" (or perhaps grate again, if they were referring to Parmesan cheese). In short, the Italian right and the American right are very similar, including such details as allowing citizens to carry firearms.

The left - what remains of it - is represented by Mr. Matteo Renzi, the perfect equivalent of Ms. Clinton, in terms of being both hateful and out of touch with reality. Just like Ms. Clinton, Mr. Renzi and his followers managed to conduct an unbelievably obsolete and counterproductive campaign. The left carefully avoided any references to new ideas or - God forbid! - ideas that could be understood as being "leftist". During the campaign, they gave the impression of being completely dominated by the right, desperately trying to tell voters that they would do the same things that the right was proposing, just with a little extra human touch - maybe. One wonders whether Mr. Renzi was actually paid for the job of finishing off the remnants of the Italian left. It was a necessary outcome anyway, the only surprise was how well the Italian left played the role assigned by the Gods to those whom they want to destroy - that is, of becoming crazy. (at least, however, so far the Italian Dems didn't blame Putin for their defeat(*).)

But how about the "five-star" movement? Who are they? Why did they win? For sure, there is no equivalent of the M5s in the US or anywhere in the West - so far. Their strong point, it seems, was the obsolescence of the traditional political parties. Politicians are widely perceived as thieves and, perhaps worse than that, they are deeply embedded and compromised with the "system."

In the US, the "system" is mainly represented by the military-industrial complex, pushing for more and more money for more and more useless wars overseas. In Italy, there is less emphasis on the military system, but the government is surely embedded with this and other traditional power centers, including the oil and gas industry. Otherwise, how would you explain that the Renzi government engaged in the destruction of the Italian renewable energy industry, killing tens of thousands of jobs? Do this and more idiocies, and eventually, the people will remember that and punish you, if they can.

In the end, Italians seem to have reasoned that their political system is so deeply corrupt to be unrecoverable, at least in terms of the traditional political forces (e.g. the left). So, they rewarded a force claiming to be composed of honest citizens - in a way amateurs rather than professional politicians. And the M5s movement won despite the concerted effort of both the Left and the Right to defame them.

My impression, however, is that there is more than that. The M5s movement may be the harbinger of things to come.Maybe the M5s success will turn out to be short-lived. But the great intuition of the founders of the M5s movement (Beppe Grillo and Roberto Casaleggio) that social media are destined to become more and more important. And that not just as tools for politics. Social media are becoming politics.

If you look at how the M5s movement works, you see that it is unlike anything you would call a "political party." I could say it looks like more like a version of Facebook. No leaders, no plans, no ideology, just a general idea that a networked group of people debate to find the best solutions for the problems we face. It seems to work - it is a new way to manage the system.

Government by Facebook, in the name of Facebook, for Facebook? Maybe.

*Note added on March 9: As we might have expected, Putin has been accused to have meddled in the Italian elections. The task fell on Samantha Power, former UN envoy during the Obama administration, presently in the midst of a scandal involving abusing her of power when she was at the UN. I don'think anyone took that seriously on either side of the Atlantic Ocean. Power's tweet was ignored by the American press and ridiculed in the Italian press in the rare cases when it was considered worth of attention.

Monday, February 26, 2018

Where is the proof that CO2 warms the Earth?

A persistent element of the climate debate is the claim that "there is no proof" that CO2 and other greenhouse gases warm the atmosphere. This has generated a number of amateurish demonstrations of how the greenhouse effect works  A good example of how NOT to carry out such a demonstration is shown above. Nobody told this poor kid how to perform a scientific measurement. If he had switched his jars he would have discovered that the effects he observes are only the result of one of the two jars being closer than the other to the light source. And they didn't even explain to him how the greenhouse effect actually works: you cannot see any warming in this set-up unless you place a light adsorber (e.g. a piece of black cloth) in the jar discuss this and other disasters in a post of mine (in Italian), see also here.

Imagine that someone asks you to prove that the Moon orbits around the Earth because it is pulled by the force of gravity. Your first reaction would be to say something like "huh?" But - assuming you are in a good mood - you might try to explain how Newton's law of universal gravitation works and how it can be used to describe the moon's trajectory.

"So," your opponent could say, "is it correct to say that nobody ever measured the gravity pull of the Earth at the Earth-Moon distance?"

"Aw... No. What for? It would be terribly expensive. And useless, too."

"Then, you have no proof that the Moon goes around the Earth because of gravity. So, can you prove that the Moon is not being pushed by invisible angels, instead?"

That would end the civil conversation, but there is some logic in this kind of questions. You can't reproduce the Moon's motion in a lab, here on the Earth. Instead, to prove that Newton's law is valid you create a model based on the law and then use it to describe the movement of moons, planets, and stars. The model works, hence the law behind it is correct. No need of measuring the Earth's gravity pull at the Earth-Moon distance (and no need of invisible angels pushing).

Now, let's translate all this to a question often asked in the climate debate. What proof do we have that greenhouse gases, and CO2 in particular, warm the Earth's atmosphere? As a question, it is similar to the one about the Moon orbiting the Earth, in the sense that we can't reproduce the properties of a whole planetary atmosphere in the lab.

To answer the question, we can start from laboratory experiments showing that CO2 absorbs infrared radiation - they were done already by Tyndall in the 19th century. We don't need amateurs today to remake those experiments, doing the job poorly. Then, we create models that describe the Earth's atmosphere and we use them to fine-tune the parameters of the warming effect. The models follow reasonably well the warming trends of the past so that we confirm that CO2 warms the Earth.

In addition, we even have direct experiments showing that, as the atmosphere warms, more infrared radiation is radiated to space, while at the same time less infrared radiation escapes at the wavelengths where CO2 absorbs radiation. It is what we expect a greenhouse gas should do.

Case closed, then? Not really. The Moon-Earth system is relatively simple and, unless you really want to believe in invisible angels, there is no doubt that the Moon is kept in its orbit by gravity, and by gravity only. Instead, the Earth's ecosystem system is a tangle of subsystems interacting with each other in ways that - in many cases - we have troubles in quantifying exactly. Newton could never have described the Earth's atmosphere by means of a single universal equation. So, how to disentangle the various contributions to the Earth's temperature: albedo, atmospheric particulate, vegetation cover, and more?

This is the task of models, coupled with various kinds of measurements. For what we can say nowadays, the rising CO2 concentration is the main factor in the observed warming, but that's subjected to changes and refinements as we have new data. Among other examples, a very recent paper appeared in Nature quantified the effects of the vegetation cover. This is mainly a local effect and changes little to the overall picture, but it shows how dangerous it can be to say that "the science is settled." Of course, that doesn't mean jumping to the conclusion that angels are warming the Earth with their breath. And it doesn't mean to engage in silly games of data torturing. It just means recognizing the complexity of the problem.

Then, there is an even deeper problem: complex systems such as the Earth's ecosystem are just that: complex. They may react to perturbations in a strongly non-linear way, amplifying or dampening the perturbation. In a complex system, it is always difficult to say what causes what. You can say that in a complex system there are no causes and no effects, only forcings and feedbacks. So, when people say that the increase in CO2 concentration is not a cause but an effect of global warming, are they wrong? Yes, they are basically wrong, but it is also true that increasing concentrations of greenhouse gases may be both a cause and an effect of global warming. Complex systems are dominated by feedbacks. And that means they can amplify the effect of a small forcing, turning it into a disaster. This is, by the way, the origin of the "Seneca Effect"

In the end, it all means that we have to recognize that the Earth's climate could react to perturbations in ways we can't even imagine. And more than seven billion humans on the planet have been a huge perturbation, no matter how we want to see the relative importance of what we have been doing. We ignore that at our risk.

Friday, February 23, 2018

Our only hope for long term survival

Sometimes, a good rant is needed. Here is one by Geoffrey Chia

by Geoffrey Chia, February 2018

Language warning: Many may find the following article offensive, such as:
  • Technocornucopians - eg geoengineering and carbon drawdown fantasists, blinkered university academics and engineers, TZM, Elon Musk etc
  • People who think reducing population and/or consumption are sacred cows which should never be mentioned
  • People who are shocked by and reject the idea that billions will die this century
  • Economists - who know the price of everything but the value of nothing
  • The Pope (who jumped on the bandwagon too late, but nice dress though)
  • Christians and other religious types
  • Global warming deniers
  • Economists 
  • Creationists
  • Politicians
  • Most Americans (they are mad)
  • Kim Jong Un (slightly less mad)
  • NBL fanatics (not referring to the basketball league here)
  • Economists

If you take umbrage at this article please consider the possibility you may be a fw rather than a sp

I agree entirely with Dennis Meadows that climate change should be regarded as a symptom or complication or side effect of our overshoot. Climate chaos will relentlessly worsen to become the worst problem threatening our very existence, but it is not the core problem. Furthermore it is not the most urgent problem right now. Despite many areas having been hit by severe weather events, global industrial civilisation is not immediately at risk of being brought down by climate change 1. Financial and economic collapse, which are intimately linked with the depletion of “easy” (high EROEI) oil and the looming net energy cliff (which will cause all resource outputs to fall off their respective Seneca cliffs) are much more immediate threats.

I assert that those who endeavour to study our predicaments should categorise threats according to what is worst, what is at the core and what is most urgent. Climate change is just one manifestation of the Limits to Growth and is not a core problem. Trying to address climate change in isolation is and always was futile. Solitary focus on “fixing” climate change alone will result in:

  • failure to solve it
  • unintended consequences eg acid rain from sulphates, failure of the monsoons, marine dead zones due to algal overgrowth (assuming “fertilising the oceans” can actually work) etc
  • being blindsided by more urgent issues (eg financial/economic collapse) and subsequently being powerless to do anything
  • other opportunities being lost because of wasted time and effort

Nevertheless I do support those who protest against Adani and CSG in Australia, DAPL and Keystone XL in the US and new coal or unconventional oil and gas developments in general, because of the contemporary environmental vandalism wreaked and future carbon emissions released which may be the critical determinant whether we go extinct or not. However civilisation is doomed even if we cease all carbon emissions now, due to the extant GHGs and the numerous unstoppable adverse feedback loops already underway, which will destroy our capacity for large scale agriculture. Cities (defined as dense urban concentrations) are the basis for civilisation and cannot exist in the absence of large scale agriculture. There may be some hope for small scale permaculture in future residual climate resilient pockets (eg South Island of NZ, the southern tip of South America – a good jumping-off point to a thawing Antarctica), even as the rest of the world burns.

Any competent Physician will tell you that a disease can only be cured by eliminating the underlying cause. Managing symptoms is important but is only a temporary fix at best. Unless the underlying cause is treated, there will be no cure.

In my 3D collapse model, I indicated that the core issue driving all the collapse mechanisms was our total human footprint (THF) which I expressed as:

THF = total human population x (individual consumption + waste production) 2.

This begs the question: if our THF is the core issue, are there even more fundamental root causes for this core issue?

To me the fundamental root causes for the cancer-like overgrowth of our THF are dysfunctional human behaviour driven by greed and stupidity. Plunder and exploitation justified by the fabrication of self-serving narratives which have no basis in reality. For example, the delusional ideology that we were created by a supernatural all-powerful being in “his” image to hold dominion over all living things on Earth and exploit everything, any-which-way, just as we damn well please. Spread forth and multiply. And multiply and multiply. I have alluded to this before:

Only latterly did Il Papa come out stating that humans need to exercise responsible custodianship over our natural world or face catastrophe. Hey Pope! Your words were too little too late! And where did you get your ideas from? Did they come from an undetectable deity who telepathically beamed his thoughts into your brain from dimensions unknown, or did they come from reasoned conclusions derived from decades of peer reviewed scientific research conducted by mere humans? And what about population control and reduction huh? Huh? Per favore potresti spiegarmi.

Religious justifications for our historical bad behaviour, based on the claim they came from supernatural authority, may have had survival value long ago when we lived as primitive small tribes struggling against harsh Nature and the hostility of other tribes. Scientific advances and globalisation changed all that, but most human thought remains implacably fixated at the level of the reptile brained Id. It is impossible to become POTUS without public expressions of pious Christian religiosity. Tribal sabre rattling between “leaders” of Nations may well trigger nuclear Armageddon. And why? Because we are governed by fuckwits who were voted in by fuckwits (or who seized power by collusion with fuckwits).

It is not my intention to single out Christianity for bashing, no matter how well deserved. I am merely using Christian delusion as one example. Even worse than Christianity (or Islam or Judaism) is the insane theology of the neoclassical, neoliberal economic high priests, who claim that their so-called free market will save us if we just return to growth! Let's put out the fire by pouring petrol over it! Not crazy at all! They and their disciples are the most toxic fracking fuckwits on this planet, even more resistant to scientific persuasion than Il Papa.

Notwithstanding the impending demise of industrial civilisation, let us engage in a thought experiment. Imagine that benevolent aliens descend from outer space tomorrow to magically fix our problems. They reset our global population (by some unexplained deus ex machina), painlessly down to one billion people, the survivors being selected randomly. Mr HWAFL (which rhymes with “awful” and stands for “Hairpiece Without A Frontal Lobe”) and his dodgy clan vanish in a puff of flatus. However Mike Pence and Rex Tillerson remain. The aliens restore all ecosystems, resources (including subterranean fossil fuels) and greenhouse gas levels back to the pristine situation of 1850 CE. The aliens declare to the remaining one billion people: this is a one-off reset of humanity, one last chance to fashion a sustainable future for yourselves. You will never again be given such an opportunity. The benevolent aliens will never return.

Here's the rub: failure to address the underlying problems of human stupidity and greed will inevitably lead to a re-run of this same failed fossil fool experiment. The remaining humans, the majority of whom are fuckwits, will merely fabricate new or recycle old delusional ideologies to justify their ongoing pursuit of short term greed over long term need, condemning our biosphere to utter devastation yet again. Stupid and greedy humans never learn from history and the majority of humans are stupid and greedy. If it were not so, we would not be facing these planetary predicaments.

Our only hope for long term survival is if wisdom and restraint can permanently triumph over stupidity and greed.

Only if wisdom and restraint become enshrined in all our policies will humanity have any hope. Humans have held these values before. The Six Nations of the First Peoples of North America formulated such principles. Their time horizon looked seven generations ahead, not at the next quarterly profit. Unfortunately invaders bearing germs (which killed off 95% of the native population), guns and steel all but wiped them out. A few of their surviving descendants still fight at Standing Rock, among the last examples of decent human beings remaining on this planet. 

Are there any countries today where the sapients outnumber the fuckwits, enabling sane and just social and environmental policy to prevail? Very few, but they exist. Bhutan comes to mind, where the official State policy is gross national happiness. Maybe some Scandinavian countries. In New Zealand my guess is the sp/fw ratio may be as high as 50:50, although I may be wildly optimistic. John Key was a fuckwit who was cunning enough to get out while still able to take credit for the good times. It is possible Jacinda Adern may be a sapient. For the sake of her child I hope she is. In Australia, the fuckwits (=American wannabes) far outnumber the sapients, however there is huge regional variation. Even in America, land of the creeps, home of the knaves and the batshit crazy heartland of fuckwits (creationists, global warming deniers, Chicago school economists, new age antivaccination wackos etc), there are a few pockets of enlightenment. The Pacific Northwest and Hawaii are home to millions of sane, reasonable people who can look forward to a good medium-term future, if only they can find a way to prevent being overrun by fuckwits from the heartland, armed to the teeth with assault rifles and fleeing from “non-existent” climate change (mid-continental heatwaves, droughts, tornadoes etc). Maybe Northern California can build a fence and get Alabama to pay for it.

Is there any realistic prospect for the global ascendance of sapience and thus any hope for long term human survival? Actually, yes, there is a tiny possibility.

So here is another future scenario, perhaps unlikely, but far more probable than the benevolent alien scenario:

As this century unfolds we will witness the die-off of billions of people through wars, resource depletion, droughts, floods, storms, crop failures, sea level rise (with no place to migrate to), pandemics and numerous other disasters. However several thousand people, perhaps even a million, will survive to the year 2100 and beyond. They will be the descendants of those people living today who were intelligent enough to read the signs of imminent collapse and to plan in advance to cope with the looming catastrophes.

The ancestors of future humanity version 2.0 are those few people living right now who are planning to move to a climate resilient location and are preparing their off-grid community homestead to be as self sufficient as possible. As industrial societies fail and central services collapse, the fuckwits, almost all of whom will be living in the cities, will experience severe deprivation and will turn on the clueless sheeple (cs) and on each other like cannibalistic rats. It is possible some outlier fuckwits may overrun some rural homesteads. But not having cultivated the knowledge and skills of self sufficiency and not having built up community trust and cooperation, those invading fuckwits will inevitably die off quickly. In the long term, Nature will select for the sapients who had planned in advance and promoted the values of wisdom, restraint, conservation and mutual cooperation within their small local communities. As time goes by, life will get ever harder, but humans are adaptable and the survival instinct is strong. If the world heats up to the extent that the only remaining survivable location is Antarctica, then humans will migrate to Antarctica. Even if 99% of the (several thousand) surviving communities ultimately fail, all it takes is for a small nucleus of people to survive in the long term, for humanity to get through this genetic bottleneck. DNA studies show such a genetic bottleneck has happened at least once before and it can happen again.

Long term human survival depends on the survival of the sapients and the extinction of the fuckwits. Readers of this blog are a self-selected tiny population and (apart from NBL trolls) are very likely to be sapients. As sapients, you are bound to have strong traits of empathy and compassion. However my message to you is this: when the die-off begins, you must not mourn the fuckwits. You must maintain your focus and harden your hearts. The fuckwits will reap what they have sowed. Your responsibility, dear reader, is to save yourself and your family, because the future survival of humanity depends on your survival.

Some argue, using sound evidence and logic, that the most probable scenario is human extinction (via multiple mechanisms, climate chaos eventually becoming the worst) by 2100. I do not disagree. Nevertheless I assert that no matter how unlikely long term human survival may be, even if the chance is only one tenth of one percent, failure to at least attempt to survive will be foolish. At the very least you will buy yourself another decade of good quality life beyond the die-off of the fuckwits.

There is one former scientist who proclaims with absolute certainty that humans face climate extinction by 2026 – which I have shown using arguments based on physics to be an easily falsifiable hypothesis. That death cult prophet and his parrot-like disciples spew forth an insane ideology of nihilistic, fatalistic, helpless hopelessness (or hopeless helplessness – take your pick). Those misery mongering whiners are no better than the fuckwits. Failure to plan is planning to fail. The time to plan and get organised is now, before descent into chaos deprives you of options and agency.

A global population cull is on the horizon and if it selects for sapience then maybe, just maybe, humanity may have a long term future.

So how can we awaken potential sapients and encourage as many of them as possible to establish as many offgrid rural homesteads as possible? The first step is to improve and expand awareness of the troubles ahead among the populace. That, dear reader, is where YOU come in. YOU need to organise free community meetings in your location to raise awareness of the troubles ahead and how to mitigate against them. Most will ignore your message, but perhaps one in a thousand may listen and one in ten of those may act. That is what I am doing now and will be writing about next.

G. Chia, February 2018

  1. Even though climate change by itself will not bring down global civilisation within the next decade or two (economic and energy collapse will), climate chaos could kill you and your family right now if you live in a particularly vulnerable area. If you live in a hurricane corridor or mid continental location prone to heat extremes or are already experiencing unprecedented droughts or floods, you need to get the hell out now if you can, while you can. It is the most urgent issue for you personally.
  2. The ecological human footprint is properly expressed in acres or hectares as described by the originator of this concept, Canadian ecologist William Rees. It is the land and water area we use for resource extraction and waste expulsion to support the lifestyle to which we are accustomed. The physical footprint of a city may be small, but its ecological footprint may be a thousand times larger. No city can exist without a much larger hinterland to support it, whether that hinterland is inside or outside its national boundary. For example, the supporting hinterland for the city state of Singapore is essentially 100% outside its national boundary. Essentially all its citizens live in denial (a combination of fw and cs)

Monday, February 19, 2018

Islands Not sinking: Climate Change Demonstrated to Be a Hoax

Have you ever wondered how it is possible that coral islands lie flat just a little above the sea level? It is not a coincidence, the coral reef that forms the islands is alive and it can adapt to variations of the sea level. According to some people, that demonstrates that climate change is a hoax (??).

Do you remember when there was a debate about climate change? Yes, there was such a thing. Someone would set up a panel where there would be a scientist arguing for the current interpretation of anthropogenic global warming and someone who at least pretended to be a scientist who would argue for the opposite interpretation. It was supposed to be a civil debate, all based on science.

I don't have to tell you that such debates have disappeared. You don't see them anymore, just as you don't see quiet and civilized debates between Trump supporters and members of the Antifa movement. In recent times, the closest thing to a public debate on climate was the proposal by Scott Pruitt, EPA's chief, of a "Red Team" and a "Blue Team" of scientists. The fact that Pruitt chose terms commonly used in military exercises says a lot about what kind of "debate" this was supposed to be. Perhaps it is a good thing that the idea seems to have died out.

Today, we have no debate, we only have two sides shooting slogans against each other. Each side is ready to exploit every perceived weakness in the other to discharge a volley of posts and tweets aimed at gaining a few political points. A snowstorm demonstrates that AGW doesn't exist while a hurricane that we are all going to die soon. The latest example of this attitude is the news arriving from the Tuvalu Islands. An article by Kench et al.,  published on Nature, reports that, over the past 40 years, the 101 Tuvalu Islands had gained some area - on the average a little less than 3% - despite the sea level rise that took place during that period.

Of course, that generated the usual blast of attacks against "alarmists", for instance by James Delingpole and Anthony Watts. How come that the islands are not sinking? "Global Warming" (written in quotes) must be a hoax.

Neither of the two factions involved in the climate debate (so to say) seem to have shown any interest in why the islands are not shrinking while the sea is actually rising. The anti-science faction only used the news as a PR tool, the pro-science faction just ignored the story.

But if we go beyond the noise of propaganda, the story of the coral islands is fascinating and complex. That these islands are not shrinking has been known for at least ten years.The reason is that the islands, or at least the reef barriers around them, are alive. They are not just chunks of rock emerging out of the ocean surface. They are the result of the mineral excreta of tiny creatures that create the hard part of the coral barrier with their exoskeleton. The detritus of the living part of the barrier accumulates on top of it, creating the island.

Being alive, corals can grow and follow the vagaries of the sea level - within some limits. They position themselves to stay just below the water surface. If they can't manage that, they can "drown" at depths too high for sunlight to arrive, while they die and are eroded away if they are exposed to air. Some coral reefs survived the great sea level rise (some 120 meters!) that took place at the end of the last ice age. Not a small feat, but it was possible over a few thousands of years.

So, there is nothing special in the modern coral reefs having survived the sea level rise of a few centimeters of the past decades. As long as the sea level rise is not too fast, the islands can probably stay above water - perhaps they can even cope better with climate change than some low elevation continental lands.

But it is a precarious survival. Even for the modest sea level rise of the past decades, the Maldives experienced some 30 severe floods during the past 50 years, including several which affected the capital city of Malé. In 2007, a series of swells forced the evacuation of more than 1,600 people from their homes and damaged more than 500 housing units.

Periodic flooding is a problem for Maldivians, but the real problem is that, unlike the population of continents or of large islands, they have no place to escape. The islands are uniformly flat, there is no high ground to retreat to. If there comes a true big flooding, the inhabitants will be swept away.

That could happen: the current temperature increase is so fast that the sea level rise may well reach rates beyond anything that the coral reefs can cope with. To say nothing of the threats to the reef coming from seawater acidification and of human destruction for fishing or because of pollution. If the corals die, the islands are lost. And the corals are already dying. Nobody can bet that the Maldives - and many other coral islands - will still exist by the end of the century.

Up until a few years ago, the governments of the coral islands seemed to be determined to make an effort to attract the world's attention to their situation. In 2009, the Maldivian government held an underwater meeting just for this purpose.

Today, the situation seems to have changed. The new Maldivian government has shifted emphasis from fighting climate change to economic development on the tune that "Development must go on, jobs are needed." I argued that this policy switch may well be the result of the Maldivian elites having discovered that it is too late to stop global warming and that nobody from the mainland will help them. I wrote in my post that:

Imagine that you are part of the elite of the Maldives. And imagine that you are smart enough to understand what's going on with the Earth's climate. As things stand today, it is clear that it is too late to stop a burst of global warming that will push temperatures so high that nothing will save the Maldives islands. Maybe not next year but in a few decades, it is nearly certain.
So, given the situation, what is the rational thing for you to do? Of course, it is to sell what you can sell as long as you can find a sucker who will buy it. Then you can say good riddance to those who remain.

Translate that to the whole world and you have one of the reasons why there is no debate anymore on climate change. 

Wednesday, February 14, 2018

The Life and Death of Memes: Vegan Vs. Macrobiotic

This 2009 book by Lierre Keith is a fascinating reflection on how ideology permeates people's eating habits. Ideology, then, is based on memes and that's a new and developing field of science. 

John Michael Greer (the Archdruid) tells the whole story of the great cycle of the macrobiotic and vegan diets. The macrobiotic movement started in the 1970 and peaked sometimes in the 1980-1990s. Greer himself tried to follow the rules of the macrobiotic diet and he reports an experience similar to that told by Lierre Keith in her book "The Vegetarian Myth" with a Vegan diet. Both Greer and Keith suffered serious health problems with these diets until they finally decided to abandon them - and then felt much better!

The question of diets can be utilized to illustrate how memes propagate in the global mindsphere. Data from "Google Ngrams" provide the number of times that a word is used in books. It can be used to quantify Greer's claim that Veganism somehow supplanted Macrobioticism in a memetic cycle that covered a few decades. It is true: here are the data:

You can see how the "macrobiotic" meme went through a classic memetic trajectory, virally infecting the consciousness space of a fraction of humankind. Then, it lost potency and started fading. These data are up to 2008, if you use Google Trends to measure how many times the term "macrobiotic" was searched for in the Web, you see that it is in terminal decline from 2004.

If "macrobiotic" is a dying meme, that's not true for "vegan" which is still showing growth in both Google Ngrams and Google Trends, the latter showing the number of times that a term is searched for in the Web. Here are the Google Trends data:

So, veganism is still alive and kicking, but it is hard to say for how long. Most likely, it will follow the same cycle of the macrobiotic meme, peaking and declining in the coming decades. This is not so much related to whether one diet is better than another, or whether either or both diets bring benefits to the people following them. It is the hard law of memes - they have a life of their own and a limited existence time (*).

Still, the fact that there is so much interest in diets tells us something. What we eat is not just a question of survival - even though in Italy we have a saying that goes as "what doesn't kill you, fattens you." (**). Rather, what we eat is a cultural, political, and religious statement. Not for nothing, most of the world's religions tell to their followers that God worries about the details of what His sons and daughters eat or do not eat.

Today, many people perceive that the world's food industry is operating on the basis of a new kind of religion: the religion of growth. Granted, the growth of food production has been successful in eliminating the major famines that plagued the world up to a few decades ago. But the food industry's approach to feeding the world is, literally, a "scorched earth" strategy. It destroys the soil, kills everything, razes forests, destroys the fisheries, fills the planet with chemicals and more. In the West, the result is the obesity epidemics and plenty of health problem.

So, following a diet such as the Vegan one is mainly a political - perhaps religious - statement. A statement that many people feel like they need to make in order to fight the way they are treated by the food powers that be. We'll see more of this in the future and it wouldn't be surprising if a new diet-based religion will arise one day.

In the end, food and diets illustrate how difficult it is for humans to understand (let alone manage) complex systems. The human metabolic system is hugely complex and it becomes coupled to the chemistry and the biological activity of food, just as it is interlaced with political and economic questions about the opportunity of using more and more precious resources in order to produce certain kinds of food. The result is a giant confusion of different opinions that may veer all the way to physical attacking people who don't share the same way of thinking about diets. It happened during the 1st century AD and in more recent times it happened to Lierre Keith, attacked by vegan fanatics.

Memetics doesn' tell us how to manage complex systems, but it allows us to have some idea of how memes diffuse and fight each other in the human memesphere. So far, we can at least say that dieting memes grow and die as virtual viral entities, apparently independently of whether they are beneficial to people or not. Maybe one day we'll learn how to do better. 

(*) We (myself, Ilaria Perissi, and Sara Falsini) have a paper that provides a theoretical assessment of these cycles. It is accepted for publication on "Kybernetes". If you like to have a preprint, write to me or to Ilaria at ilariaperissi(thingeything) or Sara Falsini (sara.falsini(thingery)

(**) Quello che non ammazza, ingrassa

Sunday, February 11, 2018

Keep on trucking? No, Keep on Platooning!

The concept of "platooning" involves electronically connected trucks running close to each other. It is a much more innovative idea than that of self-driven private cars and it has the potential of revolutionizing road transport by drastically reducing costs. (image from

Self-driving cars (or "automated vehicles," AVs) are all the rage in the debate. In most cases, we have a lot of hype and little evidence but it is also true that such cars are not impossible. So, what can we say about this idea?

I often say that technological progress is subjected to the golden rule that it generates more problems than it solves. So, not surprisingly, the way AVs are normally proposed today they would solve no important existing problem but would bring new ones. In most cases, you are told that you'll still own a car, use it for commuting, take your family to a vacation - the only difference with AVs is that you are relieved of the drudgery of having to keep your hands on the wheel and your eyes on the road. But a recent study reports that, under equivalent conditions of owning a driverless car, people tend to log in more miles and keep their cars circling around rather than bothering about finding a parking space. Not exactly the way to reduce traffic congestion and pollution.

But there is a different application of AVs which may qualify as a true technological breakthrough. It is "platooning." (Image from The Business Times). At first sight, it doesn't look like a big innovation. Trucks running close to each other? Didn't that already exist under the name of "trailers"?

There is a breakthrough here, and it is a big one. First of all, platooning doesn't need the massive complication of a completely self-driving car. A platoon of trucks is still supposed to be controlled by humans - what is needed for platooning are sensors and actuators coupled with some computing control. Then, of course, you need safety tricks to ensure that a "de-platooned" truck doesn't run awry, but that should not be a problem. Platooning is one of those "sweet" technologies that need only existing subsystems to function.

Then, the advantages. A minor one is that a platooned truck has a lower aerodynamic resistance. But this is peanuts in comparison to the real advantage of the scheme: saving on the cost of personnel. The platooned trucks simply do what the first truck does, there is no need for every truck to have a driver. So, connect two trucks together and you halve the number of drivers needed. Connect three or more, and you proportionally reduce the cost of the human drivers.

Now, according to a recent study of the American Transportation Research Institute (ATRI), the cost of drivers represents 40% of the total transportation cost per mile (p. 24 of the report). You see how big the change could be just in terms of reducing the number of drivers.

But there is more. Right now, there is no interest in slowing down trucks in order to save fuel because the cost of drivers rises proportionally to the number of hours traveled. But for platooning it makes sense to slow down the whole train and reduce fuel costs. Slower trucks also bring fewer accidents and consequently lower insurance costs. Slower speeds also allow using smaller engines and simpler technologies. And that would also reduce the need for maintenance of roads and bridges. All these effects come together in bringing costs down.

So, platooning is a big innovation. But it must be seen in light of the evolution of the whole society. Alice Friedemann has argued in her book "When Trucks Stop Running" that trucks are a critical element of the way modern society function. Will we have sufficient resources to keep trucks running in the future, platooning or not?

Surely, a complete societal collapse generated by resource depletion or runaway climate change would necessarily ensure that the transportation system would collapse, too. But platooning could make trucking much more resilient. If trucking were to use less energy, trucks could be made to run on electric power provided by batteries or by overhead wires. Current rubber tires are made from petroleum but if the trucks slow down we won't need so much rubber as we do today and rubber synthesized from biological sources could do the job. The same is true for the asphalt of roads: slower trucks would place a lower strain on road surfaces and we might go back to "Macadamized" roads.

So, platooning is an innovation that we shouldn't ignore. And, as usual, it will have important impacts - not necessarily good. Substantially lowering the cost of road transport will make it more competitive in comparison to rail. This could further marginalize the already marginal role of railroads in freight transportation. Then, nothing prevents from platooning also buses or other kinds of vehicles, also reducing transportation costs. That might mean the end of railroads, except for high-speed trains where road vehicles can't compete.

But the truly major effect of platooning is on employment. In the US alone, there are more than 3.5 million truck drivers. Trucking is the most popular medium-skill jobs still available in most of the industrialized world. Platooning may create millions of unemployed drivers. How society will react to that is hard to say, but the shock is likely to be felt.

As usual, we move into the future driven by enthusiasm and by the idea that better technologies automatically mean better life. Platooning is just one of the new technologies which may lead us to some direction that we might not have wanted to take. But we will.

(h/t Arthur Keller)

Friday, February 9, 2018

The world as a canvas: Vincent Van Gogh's models of the world

An intriguing post by Ilaria Perissi on her blog "boundaries" where she examines in depth the relation of painting and modeling - the latter in the modern sense of using mathematical tools to describe the behavior of complex systems. She goes in depth into describing how Vincent Van Gogh and how his paintings can be seen as models of the world. An excerpt from her post is below, but do read the whole thing; it is fascinating!

The image of the world around us, which we carry in our head, is just a model. Nobody in his head imagines all the world, government or country. He has only selected concepts, and relationships between them, and uses those to represent the real system – Jay Forrester (1971).

Could these sentences represent also a painting process? Is a painter a sort of modeler?  Following the rational of previous words, most of the painters are interested in reporting an image of the world and the paintings are just models of that images, including both the material world as well as the rapresentation of feelings and situations; they are not models of the whole world, but of a set of selected concepts and relationships used to represent a real material system, which could be a landscape, a still life, a portrait, a situation or event, as wars, battles, a sunset or a ‘starry night’, ‘potatoes eaters’  and representation of feelings as in the painting 'Sorrowing Old Man' or 'Two lovers'.


 Rread the whole post at Ilaria Perissi's "Boundaries"


Ugo Bardi is a member of the Club of Rome and the author of "Extracted: how the quest for mineral resources is plundering the Planet" (Chelsea Green 2014). His most recent book is "The Seneca Effect" (Springer 2017)